PANDUAN AKADEMIK PANDUAN AKADEMIK · PDF fileini untuk rujukan mahasiswa kemasukan Sesi 2015/2016 dan ... 14.6 Sarjana Muda Sains (Matematik Industri) (SSCM) 142 16. Senarai Staf Akademik

iFAKULTI SAINS

PANDUAN AKADEMIK PANDUAN AKADEMIK MAHASISWAMAHASISWA

PANDUAN AKADEMIK MAHASISWA

F A K U L T I S A I N S

SESI 2015/2016


SESI 2015/2016 h t t p : / / s c i e n c e . u t m . m y

Edisi: 2015/2016Hak Cipta Terpelihara

PerhatianMaklumat yang terdapat dalam edisi ini adalah benar pada masa ia diterbitkan. Fakulti Sains berhak membuat pindaan apabila perlu tanpa sebarang pengumuman terlebih dahulu. Panduan Akademik ini untuk rujukan mahasiswa kemasukan Sesi 2015/2016 dan akan digunakan sehingga tamat pengajian. Sinopsis kursus yang ditawarkan oleh Fakulti Sains ditulis dalam Bahasa Inggeris sahaja, memandangkan pengajaran dikendalikan dalam bahasa tersebut.

Untuk maklumat lanjut, sila hubungi Dekan Fakulti Sains Universiti Teknologi Malaysia 81310 UTM Skudai JOHOR DARUL TAKZIM No. Telefon: 07 - 5534000No. Faks: 07 - 5566162e-mel: [email protected] Sesawang: http://science.utm.my

BIL KANDUNGAN HALAMAN1. Aluan Dekan 42. Pasukan Pengurusan Fakulti Sains 53. Latar Belakang Universiti Teknologi Malaysia 64. Falsafah, Visi, Misi, dan Cogankata Universiti 75. Sejarah Perkembangan Fakulti Sains 86. Visi, Misi, Cogankata dan Objektif Fakulti Sains 97. Bisnes, Penyataan Peluang, Kompetensi Teras Fakulti, 10 Piagam Pelanggan Fakulti Sains 8. Struktur Organisasi, Pentadbiran serta Pengurusan Fakulti Sains 119. Program Pengajian Yang Ditawarkan dan Syarat Kemasukan 1110. Carta Organisasi Fakulti Sains 1211. Objektif dan Hasil Pembelajaran Program 11.1 Sarjana Muda Sains (Fizik) (SSCZ) 14 11.2 Sarjana Muda Sains (Kimia) (SSCA) 15 11.3 Sarjana Muda Sains (Matematik) (SSCE) 16 11.4 Sajana Muda Sains (Fizik Industri) (SSCF) 17 11.5 Sarjana Muda Sains (Kimia Industri) (SSCC) 19 11.6 Sarjana Muda Sains (Matematik Industri) (SSCM) 2012. Struktur Kursus dan Pengendalian Kursus Secara Am 2213. Kurikulum Program Sarjana Muda 2414. Sinopsis Kursus 14.1 Sinopsis Kursus Teras Fizik 38 14.2 Sinopsis Kursus Elektif Fizik 41 14.3 Sinopsis Kursus Teras Fizik Industri 44 14.4 Sinopsis Kursus Elektif Fizik Industri (i) Sinopsis Kursus Elektif Fizik Industri (A) 50 (ii) Sinopsis Kursus Elektif Fizik Industri (B) 52 (iii) Sinopsis Kursus Elektif Fizik Industri (C) 54 (iv) Sinopsis Kursus Elektif Fizik Industri (D) 56 14.5 Sinopsis Kursus Teras Kimia 58 14.6 Sinopsis Kursus Elektif Kimia 63 14.7 Sinopsis Kursus Teras Kimia Industri 66 14.8 Sinopsis Kursus Elektif Kimia Industri 71 14.9 Sinopsis Kursus Teras Matematik 74 14.10 Sinopsis Kursus Elektif Matematik 78 14.11 Sinopsis Kursus Teras Matematik Industri 81 14.12 Sinopsis Kursus Elektif Matematik Industri 8515. Spesifi kasi Program Pengajian 14.1 Sarjana Muda Sains (Fizik) (SSCZ) 89 14.2 Sarjana Muda Sains (Kimia) (SSCA) 99 14.3 Sarjana Muda Sains (Matematik) (SSCE) 110 14.4 Sarjana Muda Sains (Fizik Industri) (SSCF) 120 14.5 Sarjana Muda Sains (Kimia Industri) (SSCC) 131 14.6 Sarjana Muda Sains (Matematik Industri) (SSCM) 14216. Senarai Staf Akademik Fakulti Sains 152

ISI KANDUNGAN

Penguruusaan Faakkkultii Saaainns

PANDUAN AKADEMIK MAHASISWASESI 2015/20164 5FAKULTI SAINS

DekanProfesor Dr. Norsarahaida Saidina Amin

B.Sc (Hons) (Adelaide), M.Sc (Northwestern), Ph.D (East Anglia).

Timbalan Dekan (Akademik)Profesor Dr. Mohd Nor Mohamad

B.Sc (Hons) (UKM), M.Sc, Ph.D (Newcastle), APMM, C.Math MIMA.

Timbalan Dekan (Penyelidikan dan Inovasi)Profesor Dr. Wan Azelee Wan Abu Bakar

B.Sc (Hons) (UKM), M.Sc (Herriot-Watt) Ph.D (Nottingham), AMIC.

Pengurus Akademik (Penyelidikan dan Inovasi)Profesor Madya Dr. Sharidan Shafi e

B.Sc (Hons), M.Sc, PhD (UTM).

Ketua Jabatan KimiaProfesor Madya Dr. Zaiton Abdul Majid

B.Sc (Hons) (UTM), M.Sc (NIU), Ph.D (Malaya), AMIC.

Pengurus AkademikProfesor Madya Dr. Zainab Ramli

B.Sc (Hons) (UKM), Dip.Ed (Malaya), M.Sc (Sussex), Ph.D (UTM), AMIC.

Ketua Jabatan FizikProfesor Madya Dr. Wan Muhamad Saridan Wan HassanB.Sc Ed (Hons) (UTM), M.Sc (California), Ph.D (Aberdeen).

Pengurus AkademikProfesor Madya Dr. Yusof Munajat

B.Sc (Hons) (UKM), M.Sc (W. London), Ph.D (UTM).

Ketua Jabatan Sains MatematikProfesor Madya Dr. Rohanin Ahmad

B.Sc, M.Sc (Indiana State), Ph.D (UTM).

Pengurus AkademikProfesor Madya Dr. Nor’aini Aris

B.Sc (Iowa), M.Sc (Kansas), Ph.D (UTM).

Pengurus Akademik (Program Luar)En. Ismail Kamis

B.Sc, M.Sc (North Carolina).

Pengurus Teknologi MaklumatDr. Abd Khamim bin Ismail

B.Sc (UTM) , M.Sc (UPM), Ph.D (Newcastle).

Pengurus MakmalProfesor Madya Dr. Umi Kalthom Ahmad

B.Sc (Swansea), M.Sc (Strathclyde), Ph.D (UTM).

Timbalan PendaftarEncik Abdul Razak Abdul Aziz

BA. (Hons) (UKM).

Penolong PendaftarEncik Kifl ee bin Jimpi

B.Sc (Hons) (UTM).

dan Salam Satu Malaysia

Syukur ke hadrat Allah swt kerana dengan izinNya Panduan Akademik Fakulti Sains telah dapat dihasilkan dengan jayanya.

Pada kesempatan ini saya ingin mengucapkan setinggi-tinggi tahniah dan syabas kepada para mahasiswa yang telah berjaya terpilih untuk mengikuti program pengajian yang ditawarkan oleh Fakulti Sains khususnya dan UTM amnya dalam Sesi Akademik 2015/2016. Panduan Akademik ini memuatkan maklumat ringkas mengenai Fakulti, kurikulum dan sinopsis kursus bagi Program Sarjana Muda yang diguna pakai untuk mahasiswa kemasukan sesi 2015/2016 sehingga tamat pengajian. Mahasiswa kemasukan Semester I Sesi 2015/2016 merupakan kumpulan keenam pelajar yang mengikuti kurikulum baru empat tahun pengajian. Panduan Akademik ini juga menerangkan program dan kursus yang ditawarkan di Fakulti Sains, sistem semester dan pengendalian program pengajian yang dimaksudkan.

Diharapkan agar Panduan Akademik ini dapat memberi maklumat yang diperlukan, khususnya oleh mahasiswa, mengenai pengurusan Fakulti, pengendalian program dan kursus yang ditawarkan. Panduan Akademik ini dapat dijadikan panduan untuk mahasiswa merancang pembelajaran di samping menjadi rujukan untuk lebih memahami struktur kursus atau program yang dikendalikan oleh Fakulti Sains. Selain itu, Panduan Akademik ini menjelaskan mengenai sistem penasihatan akademik supaya mahasiswa dan Penasihat Akademik dapat mengetahui peranan masing-masing dengan lebih berkesan.

Bagi pihak Fakulti, saya mengambil kesempatan ini untuk merakamkan ucapan terima kasih kepada semua pihak yang terlibat dalam menghasilkan Panduan Akademik Sesi 2015/2016 ini.

Terima kasih. Wassalam.

PROFESOR DR. NORSARAHAIDA SAIDINA AMINDekanFakulti Sains

Terima kasih. Wassal


Universiti Teknologi Malaysia (UTM) telah ditubuhkan pada 14 Mac, 1972 dengan nama Institut Teknologi Kebangsaan (ITK). Pada 1 April, 1975 nama itu ditukar kepada Universiti Teknologi Malaysia. Walaupun ia dianggap sebuah universiti yang baru pada ketika itu, namun sebagai sebuah pusat pengajian teknikal ia telah lama bertapak sejak 1925 lagi dengan nama Sekolah Teknik Kuala Lumpur. Sekolah tersebut melatih Juruteknik bagi Jabatan Kerja Raya dan hanya dibuka kepada kakitangan jabatan kerajaan yang lain pada tahun 1930.

Pada tahun 1946 kerajaan telah menaiktaraf Sekolah Teknik itu kepada sebuah Maktab Teknik. Bagaimanapun, pembinaan bangunan Maktab Teknik hanya dapat dimulakan pada 1951 di Jalan Gurney, Kuala Lumpur dan siap pada tahun 1955.

Pada tahun 1960 Maktab Teknik mengorak langkah mengendalikan kursus kejuruteraan di peringkat iktisas. Pelajar yang mengikuti kursus ini mengambil peperiksaan iktisas yang dianjurkan oleh ‘Institution of Civil Engineers, Institution of Mechanical Engineers’ dan ‘Institution of Electrical Engineers’, United Kingdom.

Kursus peringkat ijazah mula ditawarkan pada tahun 1969 apabila Maktab Teknik diperakukan sebagai sebuah Institut Teknik bertaraf universiti oleh Jawatankuasa Perancangan Pelajaran Tinggi. Pada 14 Mac 1972, Duli Yang Maha Mulia Yang Di Pertuan Agong mengisytiharkan penubuhan Institut Teknologi Kebangsaan yang kemudiannya dinamakan sebagai Universiti Teknologi Malaysia. Universiti ini diperaku sebagai sebuah universiti bidang teknologi yang menggunakan Bahasa Malaysia sebagai bahasa penghantar.

Pada masa ini, kampus induk UTM terletak di kawasan tanah seluas 1,120 hektar di Skudai,

Johor. Ia berkedudukan lebih kurang 18 km dari Bandaraya Johor Bahru. Kampus cawangan terletak di UTM Kampus Antarabangsa, Jalan Semarak, Kuala Lumpur. Perpindahan dari kampus asal Jalan Semarak, Kuala Lumpur ke kampus induk, Johor Bahru, dimulakan pada tahun 1985 dan dijalankan secara berperingkat. Kini, 15 buah fakulti beroperasi di Kampus Johor Bahru, dan lima sekolah bertaraf fakulti di UTM Kampus Antarabangsa, Kuala Lumpur. Fakulti yang dimaksudkan ialah:-

a. Fakulti Sainsb. Fakulti Kejuruteraan Awamc. Fakulti Kejuruteraan Mekanikald. Fakulti Geoinformasi dan Harta Tanahe. Fakulti Alam Binaf. Fakulti Pengurusan g. Fakulti Pendidikanh. Fakulti Kejuruteraan Elektriki. Fakulti Komputeranj. Fakulti Kejuruteraan Kimia k. Fakulti Biosains dan Kejuruteraan Perubatanl. Fakulti Kejuruteraan Bioperubatan dan Sains

Kesihatanm. Fakulti Kejuruteraan Petroleum dan

Kejuruteraan Tenaga Diperbaharuin. Fakulti Tamadun Islamo. Akademi Bahasap. Institut Teknologi antara Malaysia- Jepun

(MJIIT)q. Sekolah Razak UTM dalam Kejuruteraan dan

Teknologi Termaju (UTM Razak)r. Sekolah Perniagaan Antarabangsa (IBS)s. Sekolah Perdana Polisi Sains, Teknologi dan

Inovasi (UTM Perdana School)t. Sekolah Informatik Termaju (AIS)

Pada Jun 2010, UTM telah mendapat pengiktirafan dan status sebagai sebuah Universiti Penyelidikan [Research Universiti (RU)].

Lataar Beelakang UNIVVERRSITI TEKNNOLLOGI MMMALLAAYYYSSIAA

FALSAFAHHukum Allah adalah dasar kepada Sains dan Teknologi. Maka Universiti Teknologi Malaysia berusaha secara menyeluruh dan bersepadu memperkembangkan kecemerlangan Sains dan Teknologi untuk kesejahteraan dan kemakmuran sejagat sesuai dengan kehendakNya.

VISIDiiktiraf sebagai pusat kecemerlangan akademik dan teknologi bertaraf dunia.

MISIMenjadi peneraju dalam pembangunan modal insan dan teknologi inovatif demi perkayaan khazanah negara.

COGANKATA UNIVERSITIKERANA TUHAN UNTUK MANUSIA

Falsafah, Visi, Misi Dan CogankataUUU NNN II VV EEE RRR SS II TT II


Tahun Peristiwa

1972 - Pusat Perkhidmatan Sains mengendali pengajaran Fizik, Kimia dan Matematik untuk Fakulti Kejuruteraan, Institut Teknologi Kebangsaaan (ITK). Pusat Pengajian Sains dan Kemanusiaan ditubuhkan merangkumi 4 Jabatan (Fizik, Kimia, Matematik, Sains Kemanusiaan). Kursus Diploma Sains dan Pendidikan dimulakan dengan kerjasama Kementerian Pendidikan Malaysia.

1973 - Pemisahan Pusat Pengajian Sains dari Pusat Pengajian Sains dan Kemanusiaan. Pusat pengajian baru ditubuhkan dengan nama Pusat Pengajian Sains (PPS) yang mengandungi 3 Jabatan iaitu Fizik, Kimia dan Matematik.

1978 - Kursus Diploma Sains serta Pendidikan diubah kepada Kursus Integrasi Sains serta Pendidikan (ISP).

1979 - Pengambilan kumpulan pertama pelajar Sarjana Muda Sains serta Pendidikan (SSP).1980 - Jabatan Sains Komputer ditubuh dan diletakkan di bawah PPS.1981 - Pusat Pengajian Sains (PPS) dinaiktaraf ke Fakulti Sains (FS).1982 - Jabatan Pendidikan dan Jabatan Pendidikan Sains Teknik (dari Pusat Pengajian

Kemanusiaan) dipindahkan ke Fakulti Sains.1983 - Kursus Sarjana Muda Sains Komputer dimulakan di Fakulti Sains.1984 - Jabatan Sains Komputer dipisahkan dari Fakulti Sains kerana penubuhan Fakulti Sains

Komputer.1986 - Permulaan Kursus Sarjana Muda Teknologi dan Pendidikan (Awam, Elektrik dan Jentera).

1987 - Kursus Ijazah Sarjana Muda Sains Industri (SSI) dimulakan. Program ditawarkan: Kimia Industri, Fizik Industri dan Matematik Industri.

1988 - Perpindahan Fakulti Sains ke Skudai. - Kursus Ijazah Sarjana Muda Sains Komputer serta Pendidikan (SPK), dan Kursus Diploma

Pendidikan dimulakan.1989 - Permulaan Program Ijazah Lanjutan dalam bidang Kimia, Fizik dan Matematik.1992 - Permulaan Kursus Ijazah Sarjana Muda Teknologi serta Pendidikan (Kemahiran Hidup).1994 - Penstrukturan semula Fakulti Sains. Tiga Jabatan (Kimia, Fizik, Matematik) ditadbir di bawah

Fakulti Sains. Jabatan Pendidikan dan Jabatan Pendidikan Sains Teknikal dimansuhkan berikutan penubuhan Fakulti Pendidikan.

1997 - Fakulti Sains menawarkan Program Sarjana Muda Sains Industri (Biologi).1998 - Fakulti Sains menawarkan Program Sarjana Muda Sains Industri (Fizik Bahan).1999 - Fakulti Sains menawarkan Program Sarjana Muda Sains Industri (Fizik Kesihatan).2000 - Jabatan Biologi ditubuhkan.2002 - Fakulti Sains memulakan program khas dikenali sebagai Program Saintis Cemerlang (Bidang

Fizik, Kimia dan Matematik).2003 - Pengambilan pelajar Sarjana Muda dihadkan kepada lepasan Sijil Matrikulasi, lepasan

STPM dan Diploma sahaja.2005 - Fakulti Sains menawarkan Program Sarjana Muda Sains (Biologi, Kimia, Fizik dan

Matematik).2010 - Pengambilan pelajar Sarjana Muda Sains (Fizik Bahan) dan Sarjana Muda Sains (Fizik

Kesihatan) dihentikan. 2012 - Jabatan Matematik dijenamakan semula menjadi Jabatan Sains Matematik.

Sejaarahh Perkemmbaanggann FAKKKUUULLTTI SSAAAINNNNSSSFalsafah, Visi, Misi Dan CogankataFFA KKK UUU LLLTT II VISI FAKULTIDiiktiraf sebagai fakulti terkemuka dunia dalam sains dan matematik.

MISI FAKULTIMenjadi peneraju dalam pembangunan modal insan dan perkembangan ilmu menerusi penjanaan dalam penyebaran sains dan matematik bagi kesejahteraan sejagat.

COGANKATAQ - L E A P bersama kami.

(beLajar, tEroka, gunA dan Praktik)

OBJEKTIF FAKULTI● Menyediakan program akademik berkualiti dalam sains dan matematik bagi memenuhi

keperluan pendidikan tempatan dan global.● Memudahkan penyebaran ilmu sains dan matematik melalui pengajaran dan pembelajaran

yang inovatif dan efektif.● Menghasilkan graduan yang kompeten dan versatil berpandukan nilai moral dan etika

yang tinggi.● Menjalankan penyelidikan dan pembangunan terkehadapan dan transformatif dalam

biologi, kimia, fi zik dan matematik.● Melaksanakan penyelidikan antara bidang dan penyelidikan kerjasama.● Menyediakan persekitaran kondusif bagi pertukaran pengetahuan, pandangan dan idea

inovatif.● Menyumbang kepada kemajuan ilmu melalui penerbitan kesarjanaan.● Menjalinkan perkongsian pintar dan jaringan global berdasarkan sains.● Menyumbang kepada penjanaan kekayaan negara melalui penyelidikan dan inovasi.● Menyumbang kepada peningkatan kualiti hidup, pengawalan alam sekitar dan

pemuliharaan sumber asli.


Bisnnes, Penyata PPeluuanng, KKKommppeenntteennsii Teraas Faakulti, Piaggamm Peelaannggaann FFFaakkuultii

Strukturr Organisasi, Pentaadddbiraaan SSeertta Pengguruusan Fakullti SSains

BISNES

Melaksanakan pengajaran dan pembelajaran, penyelidikan, perundingan dan aktiviti penerbitan dalam sains dan matematik.

PENYATAAN PELUANG

1. Menggunakan kepakaran staf bagi merealisasikan budaya cemerlang intelek untuk menarik pelajar berkualiti tinggi.

2. Memaksimakan kerjasama-pintar dan jaringan profesional dengan sektor awam dan swasta untuk mempertingkatkan penyelidikan, latihan pelajar, dan graduan yang memenuhi kehendak pasaran.

3. Mengoptimakan penggunaan peralatan terkini untuk menjalankan program, aktiviti penyelidikan, perundingan dan program pembangunan professional Fakulti.

4. Menjalankan program akademik mengikut keperluan pasaran untuk menghasilkan graduan berkualiti dan memuaskan majikan.

5. Menyokong panduan kepimpinan bervisi, idea inovatif dan transformatif untuk mencapai kecemerlangan pengurusan seterusnya meningkatkan tahap kedudukan akademik Fakulti.

KOMPETENSI TERAS FAKULTI

1. Menjalankan pengajaran dan pembelajaran berkualiti dalam bidang sains dan matematik melalui teknik yang kreatif dan inovatif.

2. Merekabentuk program dalam bidang sains dan bidang matematik sejajar dengan trend dan keperluan tempatan dan global.

3. Menjalankan penyelidikan terkehadapan dalam bidang sains dan matematik.4. Penglibatan dalam penyelidikan kolaboratif dan antara displin.5. Menghasilkan penerbitan ilmiah secara kosisten.6. Menyumbangkan khidmat perundingan dan nasihat saintifi k.

PIAGAM PELANGGAN FAKULTI

Fakulti Sains bertekad untuk:1. Merekabentuk program akademik berkualiti yang berpandukan pasaran, bersesuaian dengan

keperluan negara dan berupaya untuk menerapkan nilai beretika kepada pelajar.2. Menunaikan tugas akademik dengan penuh tanggungjawab dan dedikasi menurut piawai, syarat

dan peraturan seperti yang dinyatakan oleh Universiti.3. Bersikap adil dan saksama dalam menilai prestasi akademik pelajar.4. Menyediakan makmal serba lengkap dengan peralatan yang sentiasa diperlihara serta keadaan

yang sesuai bagi melakukan kerja dan penyelidikan.5. Memberikan bimbingan profesional, pengawasan dan pengurusan yang efi syen bagi kerjamakmal

dan penyelidikan.6. Menyediakan latihan dan perundingan ke arah memperbaiki kemahiran dan profesionalisme.7. Mengamalkan sikap mesra, terbuka dan prihatin, sentiasa bersedia untuk memberikan bantuan

yang sesuai dengan teras ‘business’ Fakulti.8. Memberikan layanan dalam tempoh lima (5) minit daripada masa ketibaan pelanggan di kaunter

servis Fakulti.9. Memastikan suasana kerja yang selamat dan sihat di Fakulti.

Fakulti Sains diketuai oleh Dekan, dibantu oleh dua Timbalan Dekan, tiga Ketua Jabatan, lima Pengurus Akademik,, seorang Pengurus Teknologi Maklumat, seorang Pengurus Makmal, seorang Timbalan Pendaftar dan seorang Penolong Pendaftar.

Struktur organisasi Fakulti Sains dapat dilihat pada Carta Organisasi Fakulti Sains di muka berikutnya.

Pada masa ini fakulti terdiri daripada tiga buah jabatan iaitu:- i Jabatan Fizik ii Jabatan Kimia iii Jabatan Sains Matematik

Fakulti Sains merupakan fakulti yang terbesar di UTM dari segi bilangan staf akademik. Kini terdapat seramai 171 orang staf akademik yang berkelayakan tinggi dan berpengalaman serta dibantu oleh 112 orang staf sokongan yang tekun lagi berdedikasi.

Dari segi kemudahan dan peralatan, fakulti mempunyai 17 buah bilik kuliah, 4 buah makmal komputer yang diuruskan oleh Jabatan Sains Matematik, mempunyai 27 buah makmal/bengkel yang digunakan untuk tujuan pengajaran dan penyelidikan yang diletak di bawah Jabatan Fizik, manakala Jabatan Kimia pula mempunyai 31 buah makmal yang digunakan bagi pengajaran dan projek penyelidikan ilmiah.

Proggramm Pengajiann YYangg DDiittawaaarkkannn DDDaannn Syarrat KKemasukannPROGRAM PENGAJIAN YANG DITAWARKAN

Fakulti Sains menawarkan 6 program pengajian di peringkat Sarjana Muda mulai Sesi Akademik 2012/2013 iaitu:-

SYARAT KEMASUKAN

Kemasukan calon untuk program peringkat Ijazah Sarjana Muda Sains adalah berdasarkan kelulusan peperiksaan Sijil Tinggi Pelajaran Malaysia atau Program Matrikulasi Kementerian Pelajaran Malaysia atau yang setaraf dengannya dan juga kelayakan Diploma atau yang setaraf dengannya. Perincian syarat kemasukan boleh dirujuk dalam buku Prospektus UTM atau laman sesawang UTM, http://www.utm.my. Calon dengan kelayakan akademik peringkat Diploma dan lain-lain yang diiktiraf boleh dipertimbangkan untuk diberi pengecualian kredit.

Bil Nama Program Kod Program Norma Kredit Graduan

1 Sarjana Muda Sains (Fizik) SSCZ 1292 Sarjana Muda Sains (Kimia) SSCA 1283 Sarjana Muda Sains (Matematik) SSCE 1264 Sarjana Muda Sains (Fizik Industri) SSCF 1295 Sarjana Muda Sains (Kimia Industri) SSCC 1286 Sarjana Muda Sains (Matematik Industri) SSCM 129


DEKANPROF. DR.

NORSARAHAIDA SAIDINA AMIN

STAF SOKONGANTEKNIKAL


STAF SOKONGAN

PENGURUSAN

DEKANPROF. DR.

NORSARAHAIDA SAIDINA AMIN



STAF SOKONGAN

PENGURUSAN


STAF AKADEMIKSTAF AKADEMIK



STAF AKADEMIK

KETUA JABATAN KIMIAPM DR. ZAITON ABDUL

MAJID

KETUA JABATAN SAINSMATEMATIK

PM DR. ROHANIN AHMAD

TIMBALAN DEKAN(AKADEMIK)

PROF. DR. MOHD NORMOHAMAD

KETUA JABATAN FIZIKPM DR. WAN MUHAMADSARIDAN WAN HASSAN

PENGURUS AKADEMIK(FIZIK)

PM DR. YUSOF MANAJAT

PENGURUS AKADEMIK(KIMIA)

PM DR. ZAINAB YAHYA

PENGURUS AKADEMIKPROGRAM LUAR

TN. HJ. ISMAIL BIN KAMIS

PENGURUS AKADEMIKPENYELIDIKAN

PM DR. SHARIDAN BIN SHAFIE

PENGURUS AKADEMIK(SAINS MATEMATIK)

PM DR. NOR’AINI ARIS

PENGURUS TEKNOLOGIMAKLUMAT

DR ABD KHAMIM BIN ISMAIL

TIMBALAN PENDAFTARABDUL RAZAK

ABDUL AZIZ

PENOLONG PENDAFTARKIFLEE JIMPI

PENGURUS MAKMALPM DR. UMI KALTHOM

AHMAD

TIMBALAN DEKAN(PENYELIDIKAN & INOVASI)

PROF. DR. WAN AZELEEWAN ABU BAKAR

CARTA ORGANISASI FAKULTI SAINS


Objektif dan Hasil Pembelajaran ProgramSARJANA MUDA SAINS (FIZIK) - SSCZOBJEKTIF PROGRAM

Objektif Program Sarjana Muda Sains (Fizik) adalah untuk membekalkan pengetahuan, kemahiran dan atribut yang perlu dicapai kepada graduan supaya berjaya dalam kerjaya. Program direka untuk:-

1. Menyediakan graduan yang mampu bekerja sebagai ahli fi zik dalam institusi penyelidikan dan pembangunan.

2. Menyediakan graduan yang mampu menerajui dan mengambil tanggungjawab di tempat kerja dan dalam masyarakat.

3. Menyediakan graduan dengan personaliti yang terserlah, melalui penggunaan alasan yang kukuh dan analisis yang tepat, penulisan yang berkesan serta kemahiran berkomunikasi yang tinggi.

4. Menyediakan graduan dengan minda yang kreatif dan inovatif untuk menghadapi cabaran baharu.5. Menyediakan graduan dengan sikap profesionalisma serta mampu mengurus pembelajaran

kendiri dengan jayanya.6. Menyediakan graduan yang mempunyai kesedaran keusahawanan serta kesedaran mewujudkan

peluang pekerjaan dan kekayaan.

HASIL PEMBELAJARAN PROGRAM

Bil Hasil Pembelajaran

PO1Pengetahuan Asas Fizik

Kebolehan menggarap pengetahuan mengenai hukum dan prinsip asas fizik dalam penggunaan terkini serta pengetahuan dalam sains sosial dan pembangunan diri.

PO2Penggunaan Pengetahuan

dan Kemahiran Fizik

Kebolehan mengguna, mempraktiskan dan menganalisis hukum dan prinsip asas fizik menerusi kaedah eksperimen, teknik pengkomputeran dan matematik dalam menyelesaikan permasalahan fizik. (C4, P4, A3)

PO3Kajian Sain tifik dan

Penyelidikan Dalam Bidang Fizik

Kebolehan merancang, menilai dan menunjuk cara kajian dan penyelidikan saintifik yang berkaitan dengan bidang fizik. (C6, P6, A3)

PO4Pemikiran Kritis dan Penyelesaian Masalah

Kebolehan mempraktikkan pengetahuan dan kemahiran prinsip dan teori fizik bagi menyelesaikan permasalahan saintifik dengan berkesan. (P4)

PO5Kemahiran Komunikasi

Kebolehan berkomunikasi secara berkesan dan yakin menerusi penulisan dan lisan dengan pelbagai lapisan khalayak. (P4)

PO6Kerja Berpasukan

Kebolehan berperanan secara berkesan dan bertanggungjawab sebagai ahli kumpulan bagi mencapai matlamat bersama dan mampu menyesuaikan diri dalam situasi dan keutamaan yang berubah. (A3)

PO7Pembelajaran Sepanjang Hayat dan Pengurusan

Maklumat

Kebolehan mencari dan memperoleh pengetahuan terkini, mampu berdikari dan mengurus masa secara berkesan. (A3)

SARJANA MUDA SAINS (KIMIA) - SSCAOBJEKTIF PROGRAM

Objektif Program Sarjana Muda Sains (Kimia) adalah untuk memberikan pengetahuan, kemahiran dan atribut yang harus dicapai oleh graduat untuk berjaya dalam kerjaya. Program direka untuk:-

1. Menyediakan graduat yang berupaya menggunakan dan menghasilkan pengetahuan baru dalam bidang kimia yang relevan bagi pembangunan negara

2. Mendidik graduat menjalankan penyelidikan untuk menyelesaikan masalah kini dan isu masa akan datang demi untuk pembangunan dan kebaikan negara dan manusia sejagat.

3. Melatih graduat yang berupaya menggunakan pengetahuan dan kemahiran dalam merancang, menganalisis, mereka dan menyelia kerja berasaskan kimia.

4. Membentuk graduat yang berkemahiran teknikal dalam menyelesaikan masalah secara logik, analitikal dan kreatif berdasarkan fakta dan idea bernas

5. Melatih graduat supaya mempunyai kualiti kepimpinan, etika dan profesional menyumbang kepada negara dan manusia sejagat.

6. Menyediakan graduat yang boleh bekerja secara berpasukan dalam masyarakat berbilang bangsa untuk mencapai sesuatu objektif.

7. Melatih graduat yang boleh berkomunkasi secara berkesan merentasi pelbagai bentuk perhubungan dan khalayak.


PO8 Kepimpinan

Kebolehan mempamerkan ketokohan kepimpinan, mengambil tindakan dan mendorong orang lain untuk mencapai matlamat bersama. (A3)

PO9Etika dan Integriti

Kebolehan mengadaptasi nilai-nilai etika dan integriti dalam interaksi sosial dan saintifik, berfikiran positif dan memiliki jati diri. (A3)

PO10Keusahawanan

Mempunyai kesedaran tentang peluang perniagaan, keusahawanan dan peluang kerjaya. (P2)

Bil. Hasil Pembelajaran

PO1Pengetahuan Asas Kimia

Kemampuan memperoleh pengetahuan tentang hukum dan prinsip asas kimia yang berkaitan dengan penggunaan semasa serta pengetahuan dalam sains sosial dan pembangunan diri. (C2, P2, A2)


dan Kemahiran Kimia

Kemampuan mengguna, mengamal dan menganalisis hukum, prinsip asas dan teknik kimia melalui kaedah saintifik yang berkaitan dengan penggunaan dalam bidang kimia. (C4, P4, A3)

PO3Kajian dan Penyelidikan

Saintifik

Kemampuan merancang, menilai dan menunjuk cara kajian dan penyelidikan saintifik yang berkaitan dengan kimia. (C6, P6, A3)


SARJANA MUDA SAINS (MATEMATIK) - SSCEOBJEKTIF PROGRAM

Objektif Program Sarjana Muda Sains (Matematik) adalah untuk menyediakan pengetahuan, kemahiran dan atribut yang seharusnya dicapai oleh graduat bagi satu kerjaya berjaya. Oleh itu adalah dijangkakan graduat program ini akan:-

1. Menjadi profesional yang kompeten secara matematik untuk menggunakan pengetahuan dan kemahiran dalam industri berkaitan, terutama dalam pengajaran, penyelidikan dan pembangunan ilmu baru.

2. Mempunyai kecekapan dalam penulisan dan komunikasi lisan bagi menyebarkan ilmu matematik secara berkesan.

3. Mempunyai kemahiran dan motivasi bagi pendidikan sepanjang hayat dalam pemerolehan pengetahuan matematik baru dan kemahiran mendalam dan meluas.



Kemampuan mengamalkan pengetahuan dan kemahiran tentang prinsip dan teori kimia dalam penyelesaian masalah saintifik. (P4)

PO5Kemahiran

Berkomunikasi

Kemampuan mempersembahkan maklumat kimia yang bersifat teknikal, saintifik dan berhujah secara jelas, melalui tulisan dan lisan kepada pelbagai lapisan khalayak. (P4)

PO6Kerja Berkumpulan

Kemampuan menggambarkan kemahiran antara perseorangan yang baik dengan menyerlahkan kemahiran bekerjasama dalam pasukan bagi melaksanakan pelbagai peranan yang berlainan. (A3)


Maklumat

Kemampuan menimba ilmu dan kemahiran baru dan mengurus maklumat yang berkaitan melalui pelbagai sumber. (A3)

PO8Kepimpinan

Kemampuan mempamerkan kepimpinan, mengambil tindakan dan mempengaruhi orang lain untuk mencapai matlamat yang sama. (A3)


Kemampuan mengadaptasi nilai-nilai etika secara berintegriti dan beretika yang baik dalam profesion dan kewajipan terhadap masyarakat. (A3)

PO10Keusahawanan

Kesedaran tentang peluang perniagaan, keusahawanan dan peluang kerjaya. (P2)

Bil. Hasil Pembelajaran Program

PO1Pengetahuan Asas

Matematik

Keupayaan memperoleh ilmu berkenaan konsep asas, teori dan teknik matematik berhubung isu semasa serta pengetahuan dalam sains sosial dan pembangunan diri. (C2, P2, A2)

SARJANA MUDA SAINS (FIZIK INDUSTRI) - SSCFOBJEKTIF PROGRAM

Objektif Program Sarjana Muda Sains (Fizik Industri) adalah untuk membekalkan pengetahuan, kemahiran dan atribut yang perlu dicapai oleh graduan supaya berjaya dalam kerjaya. Program direka untuk:-

1. Melatih graduan yang mampu bekerja sebagai ahli fi zik dalam institusi penyelidikan dan industri. 2. Menyediakan graduan yang mampu menerajui pasukan dan mengambil tanggungjawab yang

tinggi di tempat kerja dan komuniti.3. Menyediakan graduan dengan personaliti yang terserlah, melalui penggunaan alatan dan analisis

yang kukuh, penulisan yang berkesan dan kemahiran berkomunikasi yang tinggi. 4. Menyediakan graduan dengan minda yang kreatif dan inovatif untuk menghadapi cabaran baru.


Matematik dan Teknik Pengiraan dan Analisis

Keupayaan mengguna dan mengamal kemahiran dalam penaakulan matematik, membentuk pembuktian bermatematik serta mempamerkan kecekapan dalam menggunakan pelbagai teknik dalam menjalankan analisis matematik. (C4, P4, A3)

PO3Diskriminasi dan

Organisasi Konsep-Konsep Matematik

Keupayaan menilai dan mempamerkan kecekapan dalam memilih kaedah bersesuaian untuk menyelesaikan masalah teori dan penggunaan dalam Sains Matematik. (C6, P6, A3)

PO4Pemikiran Kritis dan

Kemahiran Menyelesaikan Masalah.

Keupayaan memahami, mengekstrak, menganalisis dan mengenalpasti masalah dari pelbagai sumber dan membangunkan pendekatan berdasarkanpengetahuan matematik untuk menyelesaikan masalah. (P4)

PO5Kemahiran Berkomunikasi

Keupayaan menyampai idea dan ilmu matematik dengan jelas dan berkesan secara lisan dan bertulis kepada pelbagai lapisan khalayak. (P4)

PO6Kemahiran Berpasukan Keupayaan menyesuaikan diri dan bekerjasama dalam berpasukan. (A3)

PO7Pembelajaran Berterusan

dan Pengurusan Maklumat

Keupayaan meneruskan pembelajaran kendiri dan mempamerkan kesedaran berterusan dalam peningkatan pembangunan peribadi dan profesional. (A3)

PO8Kemahiran Kepimpinan

Keupayaan mempamerkan kepimpinan, mengambil tindakan, dan mempengaruhi orang lain untuk mencapai matlamat bersama. (A3)

PO9Moral dan Etika

Profesional

Keupayaan megadaptasi nilai etika dan integriti dalam konteks kerjaya dan kewajipan terhadap masyarakat. (A3)

PO10Kemahiran Keusahawanan

Keupayaan memperoleh kesedaran dalam peluang perniagaan, keusahawanan dan kerjaya. (P2)


5. Menyediakan graduan dengan integriti profesional dan mampu mengurus pembelajaran kendiri dengan jayanya.

6. Menyediakan graduan yang mempunyai kesedaran keusahawanan dan kesedaran mewujudkan peluang pekerjaan dan kekayaan.


SARJANA MUDA SAINS (KIMIA INDUSTRI) - SSCCOBJEKTIF PROGRAM

Objektif Program Sarjana Muda Sains (Kimia Industri) adalah untuk memberikan pengetahuan, kemahiran dan atribut yang harus dicapai oleh graduat untuk berjaya dalam kerjaya. Program direka untuk:-


2. Melatih graduat yang berkebolehan mencari penyelesaian masalah berkaitan isu semasa industri kimia untuk kebaikan dan pembangunan negara dan manusia sejagat.

3. Mendidik graduat yang boleh menganalisis dan mengenalpasti peluang peniagaan dan menceburi bidang keusahawanan.

4. Menyediakan graduat yang boleh menyumbang dalam pasukan atau kumpulan yang terlibat dalam projek kimia.


6. Menyediakan graduat yang boleh bekerja secara berpasukan dalam masyarakat berbilang bangsa untuk mencapai sesuatu objektif.

7. Melatih graduat yang boleh berkomunkasi secara berkesan merentasi berbagai bentuk perhubungan dan khalayak.


PO1Pengetahuan Asas Fizik

Kebolehan menggarap pengetahuan mengenai hukum dan prinsip asas fizik dalam penggunaan terkini serta pengetahuan dalam sains sosial dan pembangunan diri. (C2, P2, A2)


dan Kemahiran Fizik

Kebolehan mengguna, mempraktiskan dan menganalisis hukum dan prinsip asas fizik menerusi kaedah eksperimen, teknik pengkomputeran dan matematik dalam menyelesaikan permasalahan fizik yang berkatian dengan industri. (C4, P4, A3)

PO3Kajian Saintifik dan

Penyelidikan dalam Bidang Fizik

Kebolehan merancang, menilai dan menunjuk cara kajian dan penyelidikan saintifik dalam bidang fizik yang berkaitan dengan penggunaannya di industri. (C6, P6, A3)


Kebolehan mempraktikkan pengetahuan dan kemahiran prinsip dan teori fizik bagi menyelesaikan permasalahan saintifik dengan berkesan. (P4)


Kebolehan berkomunikasi secara berkesan dan yakin menerusi penulisan dan lisan kepada pelbagai lapisan khalayak. (P4)

PO6Kerja Berpasukan

Kebolehan berperanan secara berkesan dan bertanggung jawab sebagai ahli kumpulan bagi mencapai matlamat bersama dan mampu menyesuaikan diri dalam situasi dan keutamaan yang berubah. (A3)


Maklumat


PO8Kepimpinan

Kebolehan mempamerkan ketokohan kepimpinan, mengambil tindakan dan mendorong orang lain untuk mencapai matlamat bersama. (A3)


Kebolehan mengadaptasi nilai-nilai etika dan integriti dalam interaksi sosial dan saintifik, berfikiran positif dan memiliki jati diri. (A3)

PO10Keusahawanan

Mempunyai kesedaran tentang peluang perniagaan, keusahawanan dan peluang kerjaya. (P2)

Bil Hasil Pembelajaran

PO1Pengetahuan Asas Kimia

Kemampuan memperoleh pengetahuan tentang hukum dan prinsip asas kimia yang berkaitan dengan penggunaan masa kini serta pengetahuan dalam sains sosial dan pembangunan diri. (C2, P2, A2)


dan Kemahiran Kimia

Kemampuan mengguna, melaksana dan analisis hukum dan prinsip asas kimia melalui kaedah saintifik yang berkaitan dengan pengunaan industri. (C4, P4, A3)

PO3Kajian Saintifik

Kemampuan merancang, menilai dan menunjuk cara kajian saintifik yang berkaitan dengan industri kimia. (C6, P6, A3)


Kemampuan mengamalkan ilmu dan kemahiran tentang prinsip kimia untuk menyelesaikan masalah saintifik. (P4)


Kemampuan mempersembahkan maklumat kimia yang bersifat teknikal, saintifik dan berhujah secara jelas dan tepat, melalui tulisan dan lisan kepada pelbagai lapisan khalayak (P4)

PO6Kerja Berkumpulan

Kemampuan menggambarkan kemahiran antara perseorangan yang baik dengan menyerlahkan kemahiran bekerjasama dalam pasukan bagi melakasanakan pelbagai peranan yang berlainan. (A3)



Maklumat

Kemampuan menimba ilmu dan kemahiran baru m elalui pelbagai sumber dan mengurus maklumat yang berkaitan. (A3)

PO8Kepimpinan

Kemampuan menunjuk cara kepimpinan, mengambil tindakan dan mempengaruhi orang lain bagi mencapai matlamat bersama. (A3)

SARJANA MUDA SAINS (MATEMATIK INDUSTRI) - SSCMOBJEKTIF PROGRAM

Objektif Program Sarjana Muda Sains (Matematik Industri) adalah untuk menyediakan pengetahuan, kemahiran dan atribut yang seharusnya dicapai oleh graduat bagi satu kerjaya yang berjaya. Oleh itu adalah dijangkakan graduat program ini akan:-

1. Menjadi profesional yang kompeten secara matematik yang berupaya mengurus masalah kualitatif dan kuantitatif dalam industri berkaitan.

2. Boleh memegang peranan produktif dan jawatan dalam perancangan, pembuat keputusan, analisis dan penyeliaan kerja dalam sektor awam dan industri.

3. Mempamerkan kerja berkumpulan dan kemahiran kepimpinan dengan komunikasi berkesan dan kecekapan interpersonel yang diingini.

4. Meneruskan pembelajaran sepanjang hayat, boleh mengenalpasti, menyesuai dan menyambar peluang-peluang perniagaan.

HASIL PEMBELAJARAN


Kemampuan mengadaptasi nilai etika secara berintegriti dalam profesion dan kewajipan terhadap masyarakat (A3)

PO10Keusahawanan Kesedaran tentang peluang perniagaan, keusahawanan dan kerjaya. (P2)

Bil. Hasil Pembelajaran Program

PO1Pengetahuan Asas Matematik

Keupayaan memperoleh ilmu berkenaan konsep asas, teori dan teknik matematik berhubung isu semasa serta pengetahuan dalam sains sosial dan pembangunan diri. (C2,P2,A2)


Matematik dan Teknik Pengiraan

Keupayaan mengguna pengetahuan dan teknik matematik secara berkesan untuk menyelesaikan masalah matematik dan statistik dan membuat analisis yang meyakinkan ke atas keputusan yang diperoleh. (C4,P4,A3)

PO3Diskriminasi dan Organisasi Konsep-Konsep Matematik

Keupayaan menilai, mencadang dan menunjukcara kaedah bersesuaian untuk menyelesaikan masalah penggunaan dalam Sains Matematik dan industri penyusunan semula pengetahuan dan teknik matematik. (C6,P6,A3)

PO3Diskriminasi dan Organisasi Konsep-Konsep Matematik

Keupayaan menilai, mencadang dan menunjukcara kaedah bersesuaian untuk menyelesaikan masalah penggunaan dalam Sains Matematik dan industri penyusunan semula pengetahuan dan teknik matematik. (C6,P6,A3)

PO4Pemikiran Kritis dan

Kemahiran Menyelesaikan Masalah.

Keupayaan memahami, mengeluar, menganalisis dan mengenalpasti masalah dari pelbagai sumber dan membangunkan pendekatan berdasarkan pengetahuan matematik untuk menyelesaikan masalah. (P4)


Keupayaan menyampai idea dan ilmu matematik dengan jelas dan berkesan secara lisan dan bertulis kepada lapisan khalayak. (P4)

PO6Kemahiran Berpasukan

Keupayaan menyesuaikan diri dan bekerjasama dalam berpasukan. (A3)


Struktur Kursus dan Pengendalian Kursus Secara AmSTRUUKTUUR KURSUSSKurikulum Sarjana Muda Sains digubal untuk memberikan gabungan kursus teras dan elektif yang bersesuaian dan terkini. Kurikulumnya dirancang untuk memperkukuh asas sains dan matematik pada peringkat awal pengajian. Mahasiswa juga dikehendaki menjalani Latihan Industri/Latihan Penyelidikan selama sepuluh minggu. Selain itu, mahasiswa Sarjana Muda Sains Industri perlu mengambil tiga kursus pengurusan.

Taburan kredit bagi Program Sarjana Muda Sains diberikan dalam jadual berikut:-

a) Program Sarjana Muda Sains (Tulen):-

Bil. PengkelasanSSCZ SSCA SSCE

Kredit % Kredit % Kredit %

1 Asas Sains dan Matematik 2358.9

1358.5

957.9

2 Teras Program 53 62 64

3 Elektif Program 33 25.6 33 25.8 33 26.2

4 Kursus Wajib Universitia. Kemanusiaanb. Bahasac. Ko-kurrikulumd. Keusahawanan

10622

15.510622

15.710622

15.9

Jumlah 129 100 128 100 126 100

b) Program Sarjana Muda Sains (Industri):-

Bil. PengkelasanSSCF SSCC SSCM

Kredit % Kredit % Kredit %

1 Asas Sains dan Matematik 2058.9

1358.5

958.9

2 Teras Program 56 62 67

3 Elektif Program 33 25.6 33 25.8 33 25.6

4 Kursus Wajib Universitia. Kemanusiaanb. Bahasac. Ko-kurrikulumd. Keusahawanan

10622

15.510622

15.710622

15.5

Jumlah 129 100 128 100 129 100

PENGGENDALIAN KUURSUS SEECCCARAAA AAMMSemua pengajian di kursus peringkat Sarjana Muda Sains dikendalikan mengikut sistem semester dan pengambilan mahasiswa baru dibuat pada Semester I bagi sesuatu Tahun Akademik. Jangka masa minimum pengajian bagi semua program yang ditawarkan ialah selama 4 tahun (8 semester).

Mahasiswa diwajibkan mengambil kursus umum universiti yang terdiri daripada kursus-kursus Kemanusiaan, Bahasa Inggeris, Ko-Kurikulum dan Keusahawanan.

Selain itu, mahasiswa tahun akhir perlu menjalankan. Satu kajian penyelidikan atau Projek Sarjana Muda (PSM) dalam bidang yang berkaitan. Mereka dikehendaki menghantar tesis berasaskan kepada kajian penyelidikan atau projek yang dijalankan. Penyeliaan PSM akan dijalankan secara berjadual di antara mahasiswa dan staf akademik yang diberi tanggungjawab sebagai Penyelia PSM di setiap Jabatan Fakulti Sains.

Mahasiswa diwajibkan menjalani Latihan Industri/Latihan Penyelidikan (LI/LP) selama sepuluh minggu sama ada di sektor swasta atau badan kerajaan pada semester pendek ketika berada di Tahun 3 pengajian. LI/LP bertujuan untuk melengkapkan bakal graduan dengan pengetahuan praktikal di samping mendedahkan mereka kepada suasana pekerjaan yang sebenar.

Penyelia LI/LP yang terdiri dari staf akademik Fakulti Sains akan membuat lawatan dan penyeliaan di setiap agensi di mana mahasiswa Fakulti Sains ditempatkan. Penyelia dari Fakulti Sains akan membuat penilaian bersama dengan Penyelia dari agensi tersebut untuk menilai prestasi setiap mahasiswa yang terlibat dalam program LI/LP, sebelum sesuatu keputusan Hadir Lulus atau Hadir Gagal diperakukan kepada pihak Jawatankuasa Latihan Industri Fakulti Sains.

b) Program Sarjana Muda Sains (Industri)


KURIKULUM PROGRAM SARJANA MUDASARJANA MUDA SAINS (FIZIK) – SSCZ

SEMESTER 1 SEMESTER 2

Kod Nama Kursus kr Kod Nama Kursus kr

UICI 1012 Tamadun Islam dan Tamadun Asia 2 ULAB1112 English for Academic

Communications 2

SSCM 1023 Kaedah Matematik I 3 UHAS 1172 Dinamika Malaysia 2

SSCP 1102 Pengenalan Kepada Fizik 2 SSCM 1033 Kaedah Matematik II 3

SSCP 1143 Mekanik 3 SSCP 1163 Bunyi, Gelombang dan Optik 3

SSCP 1153 Elektrik dan Magnet 3 SSCP 1223 Fizik Moden 3

SSCP 1811 Amali Fizik I 1 SSCM 1523 Aljabar Linear 3

SSCP 1821 Amali Fizik II 1

Jumlah Jam Kredit 14 Jumlah Jam Kredit 17SEMESTER 3 SEMESTER 4


SSCM1703 Persamaan Terbitan I 3 ULAB2112 Advanced English for Academic Communications 2

SSCP 2213 Fizik Nukleus 3 UQ_1XX 2 Service Learning 2

SSCP 2313 Elektronik Asas 3 SSCP2113 Termodinamik 3

SSCP 2333 Penganturcaraan Komputer 3 SSCP2413 Fizik Keadaan Pepejal 3

SSCP 2811 Amali Fizik III 1 SSCP2613 Fizik Matematik 3

UICI 2022 Sains Teknologi dan Manusia 2 SSCP2821 Amali Fizik IV 1

Elektif Inovasi dan Kreativiti (Pilih 2 kredit)

UXXX 2XX2 Inovasi dan Kreativiti 2

UHAS 2122 Pemikiran Kritis dan Kreatif 2

Jumlah Jam Kredit 15 16


Kod/code Nama Kursus kr Kod/code Nama Kursus kr

SSCP 3113 Keelektromagnetan 3 SSCP3643 Mekanik Kuantum I 3

SSCM 3503 Pembolehubah Kompleks 3 SSCP3821 Amali Fizik 1

SSCP 3123 Mekanik Klasik 3 Elektif Fizik (Pilih 9 kredit)

SSCP 3133 Fizik Terma dan Statistik 3 SSCP3143 Kerelatifan 3

SSCP 3811 Amali Fizik V 1 SSCP3153 Zarah Keunsuran 3Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) SSCP3163 Fizik Tenaga dan Alam

Sekitar 3

UHAS 2032 Teknokrat dan Pembangunan 2 SSCP3333 Fizik Berkomputer 3

UHAS 2092 Etika profesional Organisasi 2 SSCP3523 Optik Moden 3

ULAC 2xx2 Bahasa Asing 2

Elektif ULAB (Pilih 2 kredit) Elektif Keusahawanan (Pilih 2 kredit)

ULAB 3112 English for Career Search 2 UHAS 3012 Keusahawanan dan Pembangunan Usahawan 2

ULAB 3122 English for Workplace Communication 2

ULAB 3132 Reading for Specific Purposes 2

ULAB 3142 Writing for Specific Purposes 2

ULAB 3152 Effective Oral Communication Skills 2

Jumlah Jam Kredit 17 Jumlah Jam kredit 15SEMESTER PENDEK

Kod Nama Kursus kr

SSCU 3915 Latihan Penyelidikan (HW) 5

Jumlah Jam Kredit 5



SSCU 4902 Projek Sarjana Muda I 2 SSCU4904 Projek Sarjana Muda II 4

Elektif Fizik (Pilih 12 kredit) Elektif Fizik (Pilih 12 kredit)

SSCP 4163 Astrofizik 3 SSCP 4173 Mekanik Kuantum II 3

SSCP 4323 Elektronik dan Instrumentasi 3 SSCP 4213 Fizik Nukleus Lanjutan 3

SSCP 4333 Pemprosesan Isyarat Berdigit 3 SSCP 4433 Kemagnetan 3

SSCP 4413 Fizik Semikonduktur 3 SSCP 4453 Fizik Suhu Rendah dan Kesuperkonduksian 3

SSCP 4423 Fizik Jirim Termampat 3 SSCP 4513 Fizik Laser 3

Jumlah Jam Kredit 14 Jumlah Jam Kredit 16


SARJANA MUDA SAINS (KIMIA) – SSCASEMESTER 1 SEMESTER 2



Communication 2

SSCC 1322 Pengenalan Program Kimia 2 UHAS 1172 Dinamika Malaysia 2

SSCC 1003 Prinsip Kimia 3 SSCC 1413 Termodinamik Kimia 3

SSCC 1901 Amali Kimia 1 SSCC 1841 Amali Kimia Fizik I 1

SSCC 1703 Kimia Tak Organik 3 SSCC 1603 Kimia Organik - Kumpulan Berfungsi 3

SSCC 1851 Amali Kimia Tak Organik I 1 SSCC 1831 Amali Kimia Organik I 1

SSCM 1023 Kaedah Matematik I 3 SSCM1103 Statistik 3




SSCC 2613 Kimia Organik - Biomolekul 3 ULAB 2112 Advanced English for Academic Communication 2

SSCC 2891 Amali Kimia Organik II 1 SSCC 2713 Kimia Koordinatan 3

SSCC 2453 Kinetik Kimia dan Elektrokimia 3 SSCC 2851 Amali Kimia Tak Organik II 1

SSCC 2841 Amali Kimia Fizik II 1 SSCC 2473 Spektroskopi Molekul 3

SSCC 2312 Pengurusan dan Keselamatan Makmal 2 SSCC 2243 Prinsip Kimia Analisis 3

SSCM 1033 Kaedah Matematik II 3 SSCC 2861 Amali Kimia Analisis I 1

UICI 2022 Sains Teknologi dan Manusia 2






Kod/Code Nama Kursus kr Kod/Code Nama Kursus kr

UQ_1XX 2 Service Learning 2 SSCC 3463 Kimia Kuantum 3

SSCC 3233 Analisis Berinstrumen 3 SSCU 3623 Metodologi Penyelidikan dan Pemerolehan Maklumat 3

SSCC 3871 Amali Kimia Analisis II 1 Elektif (Pilih 9 kredit)

SSCC 3323 Prinsip Kimia Polimer 3 SSCC 3243 Kaedah Pemisahan 3

SSCM 1303 Literasi Komputer 3 SSCC 3533 Penggunaan Komputer dalam Kimia 3

Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) SSCC 3643 Penggunaan Spektorskopi 3

UHAS 2032 Teknokrat dan Pembangunan 2 SSCP 4453 Fizik Suhu Rendah dan

Kesuperkonduksian 3

UHAS 2092 Etika profesional Organisasi 2 SSCC 4603 Kimia Perubatan 3


Elektif ULAB (Pilih 2 kredit) Elektif Keusahawanan






Jumlah Jam Kredit 16 Jumlah Jam Kredit 17SEMESTER PENDEK

Kod Nama Kursus kr


Jumlah 5



SSCU 4902 Projek Sarjana Muda I 2 SSCU 4904 Projek Sarjana Muda II 4

Elektif (Pilih 12 kredit) Elektif (Pilih 12 kredit)

SSCC 4233 Analisis Elektrokimia 3 SSCC 4263 Analisis Terma 3

SSCC 4773 Polimer Tak Organik dan Organologam 3 SSCC 4473 Kimia Keadaan Pepejal 3

SSCC 4443 Proses Tindak Balas Kimia 3 SSCC 4693 Metabolisme Biomolekul 3

SSCC 4653 Sintesis Organik 3 SSCC 4763 Nanokimia 3

SSCC 4733 Radiokimia 3 SSCC 4493 Kimia Permukaan dan Koloid 3

SSCC 4723 Kimia Organologam 3 SSCP 4403 Mikroskopi dan Analisis Bahan 3

SSCC 4363 Kimia Hijau 3 SSCP 4603 Teknologi Vakum dan Filem Tipis 3



SARJANA MUDA MUDA SAINS (MATEMATIK) – SSCESEMESTER 1 SEMESTER 2


UICI 1012 Tamadun Islam dan Tamadun Asia 2 ULAB 1112 English for Academic

Communication 2

SSCM 1012 Pengenalan kepada Program Matematik 2 UHAS 1172 Dinamika Malaysia 2

SSCM 1023 Kaedah Matematik I 3 SSCM 1033 Kaedah Matematik II 3

SSCP 1143/ SSCC 1003

Mekanik/Prinsip Kimia 3 SSCM 1313 Pengaturcaraan Komputer 3

SSCM 1103 Statistik 3 SSCM 1523 Aljabar Linear 3

SSCM 1303 Literasi Komputer 3 SSCM 1703 Persamaan Terbitan I 3




SSCM 2103 Statistik Bermatematik 3 ULAB 2112 Advanced English for Academic Communication 2

SSCM 2423 Kaedah Berangka I 3 SSCM 2043 Kaedah Matematik III 3

SSCM 2793 Kakulus Vektor 3 SSCM 2613 Kalkulus Lanjutan 3

SSCM 2673 Matematik Diskret 3 SSCM 2773 Persamaan terbitan II 3

SSCM 2803 Pemodelan Matematik I 3 SSCM 2833 Pengaturacaraan Linear 3








SSCM 3423 Kaedah Berangka II 3SSCM 3703 Persamaan Terbitan Separa 3

UQ-1XX 2 Service Learning 2Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) SSCU 3623 Kaedah Penyelidikan dan

Pencarian Maklumat 3

UHAS 2032 Teknokrat dan Pembangunan 2 Elektif Keusahawanan (Pilih 2 kredit)

UHAS 2092 Etika Profesional 2 UHAS 3012 Keusahawanan dan Pembangunan Usahawan 2


Electif ULAB (Pilih 2 kredit) Elektif (Pilih 6 kredit)

ULAB 3112 English for Career Search 2 SSCM 3353 Pengaturcaraan C++ 3

ULAB 3122 English for Workplace Communication 2 SSCM 3553 Teori Gelanggang dan Medan 3

ULAB 3132 Reading for Specific Purposes 2 SSCM 3543 Teori Nombor 3

ULAB 3142 Writing for Specific Purposes 2 SSCM 3673 Analisis Fungsian 3


Elektif (Pilih 6 kredit)

SSCM 3503 Pembolehubahan Kompleks 3

SSCM 3533 Teori Set dan Mantik 3

SSCM 3793 Kalkulus Ubahan 3

SSCM 3753 Mekanik Bendalir 3

SSCM 3523 Aljabar Moden 3


SEMESTER PENDEK

Kod Nama Kursus kr


Jumlah Jam Kredit 5





SSCM 4633 Teori Set Kabur 3 SSCM 4783 Mekanik Kuantum 3

SSCM 4653 Aljabar Niskala Gunaan 3 SSCM 4623 Geometri Tak Euklidan 3

SSCM 4683 Topologi 3 SSCM 4733 SistemDinamik 3

SSCM 4763 Dinamik Bendalir Berkomputeran 3 SSCM 3153 Statistik Pentadbiran 3

SSCM 4163 Proses Stokastik 3 SSCM 4813 Kawalan Optimal 3



SARJANA MUDA MUDA SAINS (FIZIK INDUSTRI) – SSCFSEMESTER 1 SEMESTER 2



Communications 2







Jumlah Jam Kredit 14 Jumlah JamKredit 17



SSCM 1703 Persamaan Terbitan I 3 UQ_1XX 2 Service Learning 2

SSCP 2213 Fizik Nukleus 3 ULAB 2112 Advanced English for Academic Communications 2

SSCP 2313 Elektronik Asas 3 SSCP 2113 Termodinamik 3

SSCP 2333 Pengaturcaraan Komputer 3 SSCP 2413 Fizik Keadaan Pepejal 3

SSCP 2811 Amali Fizik III 1 SSCP 2613 Fizik Matematik 3

UICI 2022 Sains Teknologi dan Manusia 2 SSCP 2821 Amali Fizik IV 1







SSCP 3113 Keelektromagnetan 3 SSCP 3343 Instrumentasi dan Pemerolehan Data 3

SSCP 3133 Fizik Terma dan Statistik 3 SSCP 3613 Mekanik Kuantum I 3

SSCP 3323 Elektronik Lanjutan 3 SSCP 3821 Amali Fizik VI 1

SSCP 3811 Amali Fizik V 1Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih2 kredit) Elektif Keusahawanan (Pilih 2 kredit)

UHAS 2032 Teknokrat dan Pembangunan 2 UHAS 3012 Keusahawanan dan

Pembangunan Usahawan 2

UHAS 2092 Etika Profesional 2


Elektif ULAB (Pilih 2 kredit) Elektif (Pilih 6 kredit)

ULAB 3112 English for Career Search 2 SHAS 1013 Prinsip Pemasaran 3

ULAB 3122 English for Workplace Communications 2 SHAS 1043 Tabiat Organisasi 3

ULAB 3132 Reading for Specific Purposes 2 SSCP 3433 Kawalan Kualiti 3




SHC 1163 Prinsip Perakaunan 3

SHAD 1033 Prinsip Pengurusan 3


SEMESTER PENDEK

Kod Nama Kursus kr

SSCU 3905 Latihan Industri (HW) 5

Jumlah jam kredit 5





Elektif A Elektif A

SSCP 4123 Penilaian dan Ujian Tanpa Musnah 3 SSCP 4013 Pemprosesan Data 3

SSCP 4133 Elektronik Industri 3 SSCP 4303 Kawalan Proses 3

SSCP 4143 Simulasi Litar Elektronik 3 SSCP 4353 Teknik Ultrasonik 3

SSCP 4383 Pemprosesan Isyarat 3 SSCP 4363 Pengujian dan Penyengaraan Elektronik 3

SSCP 4393 Perantaramukaan Komputer 3 SSCP 4373 Elektronik Komunikasi 3

Elektif B Elektif B

SSCP 4223 Pengesanan Sinaran 3 SSCP 4253 Fizik Perubatan 3

SSCP 4233 Perlindungan Sinaran 3 SSCP 4263 Keselamatan dan Kesihatan Pekerjaan 3

SSCP 4243 Fizik Sinaran Gunaan 3 SSCP 4273 Tenaga Nuklear 3

SSCP 4293 Dosimetri Sinaran 3 SSCP 4283 Perlindungan Sinaran Alam Sekitar 3

SSCP 4913 Radiobiologi 3 SSCP 4203 Perlindungan Sinaran Perubatan 3

Elektif C Elektif C

SSCP 4623 Sains Bahan 3 SSCP 4463 Sains Kakisan 3


SSCP 4633 Bahan Seramik dan Amorfos 3 SSCP 4473 Spektroskopi dan Analisis

Bahan 3

SSCP 4643 Bahan Polimer 3 SSCP 4483 Peranti Semikonduktor 3

SSCP 4603 Teknologi Vakum dan Saput Tipis 3 SSCP 4443 Bahan Magnet 3

SSCP 4493 Kajilogam 3 SSCP 4403 Mikroskopi dan Analisis Bahan 3

Elektif D Elektif D

SSCP 4713 Pengenalan Kepada Optik Tak Linear 3 SSCP 4553 Optik Gunaan 3

SSCP 4523 Teknologi Laser 3 SSCP 4563 Fotonik 3

SSCP 4533 Teknologi Gentian Optik 3 SSCP 4573 Laser dalam Perubatan 3

SSCP 4543 Optoelektronik 3 SSCP 4583 Fotometrik 3

SSCP 3523 Optik Moden 3 SSCP 4593 Kejuruteraan Laser Keadaan Pepejal 3


SARJANA MUDA SAINS (KIMIA INDUSTRI) – SSCCSEMESTER 1 SEMESTER 2



Communication 2

SSCC 1003 Prinsip Kimia 3 UHAS 1172 Dinamika Malaysia 2

SSCC 1901 Amali Kimia 1 SSCC1413 Termodinamik Kimia 3

SSCC 1703 Kimia Tak Organik 3 SSCC 1841 Amali Kimia Fizik I 1

SSCC 1851 Amali Kimia Tak Organik I 1 SSCC 1603 Kimia Organik - Kumpulan Berfungsi 3

SSCM 1023 Kaedah Matematik I 3 SSCC 1821 Amali Kimia Organik I 1

SSCC 1332 Pengenalan Program kimia Industri 2 SSCM 1103 Statistik 3




SSCC 2613 Kimia Organik -Biomolekul 3 ULAB 2112 Advanced English for Academic Communication 2





SSCC 2861 Amali Kimia Analisis I 1

SSCM 1303 Literasi Komputer 3

UICI 2022 Sains Teknologi dan Manusia 2 Elektif Inovasi dan Kreativiti (Pilih 2 kredit)






UQ_ 1XX2 Service Learning 2 SSCC 3423 Proses Kimia Industri 3

SSCC 3233 Analisis Berinstrumen 3 SSCC 3533 Penggunaan Komputer dalam Kimia 3

SSCC 3871 Amali Kimia Analisis II 1 SSCC 3243 Kaedah Pemisahan 3

SSCC 3323 Prinsip Kimia Polimer 3

Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit)





Communication 2

SSCM 1002Pengenalan kepada Program Matematik Industri

2 UHAS 1172 Dinamika Malaysia 2

SSCM 1023 Kaedah Matematik I 3 SSCM 1033 Kaedah Matematik II 3SSCP 1143/ SSCC 1003 Mekanik/Prinsip Kimia 3 SSCM 1313 Pengaturcaraan Komputer 3








SSCM 2803 Pemodelan Matematik I 3 SSCM 2613 Kalkulus Lanjutan 3

SSCM 2793 Kalkulus Vektor 3 SSCM 2773 Persamaan Terbitan II 3

SSCM 2673 Matematik Diskret 3 SSCM2833 Pengaturcaraan Linear 3








SSCM 3133 Kawalan Mutu Berstatistik 3 SSCM 3103 Rekabentuk Ujikaji 3

SSCM 3423 Kaedah Berangka II 3 SSCM 3803 Pemodelan Matematik II 3

UQ–1XX 2 Service Learning 2Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) Elektif Keusahawanan (Pilih 2 kredit)






SARJANA MUDA SAINS (MATEMATIK INDUSTRI) – SSCMUHAS 2032 Teknokrat dan Pembangunan 2

UHAS 2092 Etika Profesional 2 Elektif Keusahawanan (Pilih 2 kredit)

ULAC 2xx2 Bahasa Asing 2 UHAS 3012 Keusahawanan dan Pembangunan Usahawan 2

ElektifULAB (Pilih 2 kredit) Elektif Pengurusan (Pilih 6 kredit)


ULAB 3122 English for Workplace Communication 2 SHAS 1043 Tabiat Organisasi 3

ULAB 3132 Reading for Specific Purposes 2 SSCP 3433 Kawalan Mutu 3



Elektif Pengurusan (Pilih 3 kredit)

SHAD 1033 Prinsip Pengurusan 3

SHAC 1123 Pengantar Perakaunan Kewangan 3


SEMESTER PENDEK

Kod Nama Kursus kr


Jumlah Jam Kredit 5





SSCC 3643 Penggunaan Spektroskopi 3 SSCC 4253 Analisis Makanan 3

SSCC 4223 Sains Alam Sekitar 3 SSCC 4673 Kimia Organik Industri 3

SSCC 4663 Kimia Hasil Semulajadi 3 SSCC 4293 Kimia Radioanalisis 3

SSCC 4273 Sains Forensik 3 SSCC 4353 Kimia Pengguna 3

SSCC 4483 Kimia Kakisan 3 SSCC 4493 Kimia Permukaan dan Koloid 3

SSCC 4683 Bioteknologi 3 SSCC 4753 Kimia Pemangkinan 3

SSCC 4743 Kimia Bahan 3



fi ndings. Upon completion, the students should have the ability to handle the instrumentations and relate the experiments to the theories learned in basic physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 1821 - Physics Practical IIStudents perform experiments related to the physics of thermodynamics, optics, modern physics and electronics. These experiments will be performed either in a group or individually. At the end of each experiment the student present a technical report which describes the experiment, the analysis and the fi ndings. Upon completion, the students should have the ability to handle the instrumentations and relate the experiments to the theories learned in basic physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 2113 - ThermodynamicsThe course starts with discussions on basic concepts of thermodynamics, thermodynamic properties of materials and thermodynamic processes. The next topics will emphasize on energy transfer and energy analysis of systems and processes using the fi rst and second laws of thermodynamics. The principles of gas power and refrigeration cycles are also briefl y highlighted. In general, the course provides the basic concepts of thermodynamics and it applications in conservation and utilisation of energy as well as in automobile industry.

SSCP 2213 - Nuclear PhysicsThe course introduces some major concepts and theories of nuclear physics. The course begins with understanding the basic knowledge of the constituents of nucleus and the properties of nuclear forces. The next topic of the course is introducing the radiation sources and the types of ionizing radiations. Nuclear decay processes and the properties of ionizing radiations will be discussed. The interactions of nuclear radiations with mater and mechanism of nuclear reaction are also covered in this subject. Students will learn some basic concepts on radioactivity including radioactive decay law, radioactive decay series and radioactive equilibriums. Some nuclear models such as liquid drop model, shell model and optical model of the nucleus will be introduced at the end of the course. In general, the course provides a basic concept of interaction processes of nuclear radiation in order to widen the appreciation of nuclear physics to the students.

SSCP 2313 - Basic ElectronicsThe course starts with introduction to electronic components, circuit building and basic measurement of signal. Various circuit theory analysis such as superposition principle, mesh current analysis, Thevenin and Norton theorem are taught. DC and AC circuit analysis and the use of semiconductor devices such as diodes and transistors are discussed. The hybrid h and phi small signal models for transistor are emphasized. Next the small signal amplifi ers, power amplifi ers, differential amplifi er are constructed for better understanding and practical experience. In general, the course provides good balance between theoretical and practical works on electronic circuits and its everyday applications.

SSCP 2333 - Computer ProgrammingThis course begins with a comprehensive introduction to computer, role of computer in physics, and operating system. Computer programming involving choices of computer languages and programming concept is also discussed. In the laboratory, the student experience working with a Linux desktop, client-server working environment, and all the necessary tools for terminal-server programming works. Throughout the course students are guided to build computer programs from simple to complex, all about solving various physics problem, based on the Java programming language. Students are exposed to methods for writing command-line based programs and tools utilising widgets for building application with graphical user interface.

SINOOPSSISS KKUURSUUUSS SINOPSIS KURSUS TERAS FIZIK

SSCP 1102 - Introduction to Physics ProgramPhysics is a fundamental of science. Physics covers a wide range of phenomana from the smallest sub – atomic particles to the largest galaxies. Physics is the scientifi c study of matter and energy and how they interact with each other. Physicist is a scientist who studies or practices physics. Careers in physics include working as scientist in medical fi eld, industry and education. The philosophy of physics is essentially a part of the philosophy of science, which includes the philosophy of Einstein, Muslim and Chinese philosophers.

SSCP 1143 - MechanicsThis course discusses motion of a body or a system. Beginning with the basic and derived physical quantities and vector as mathematical tool, various types of motion such as linear, free-fall, projectile, circular, rotational and simple harmonic motions are described. Other topics such as equilibrium, elasticity, gravitation and fl uids mechanics illustrate the application of a body in motion under the infl uence of forces. SSCP 1153 - Electricity and MagnetismThe course examines the force of electromagnetism, which encompasses both electricity and magnetism. It includes the exploration of some electromagnetic phenomena. It begins by examining the nature of electric charge and then a discussion of interaction of electric charges at rest. It studies on charges in motion, particularly in the electric circuit. lt then continues into the study of magnetic interaction, how moving charges and currents respond to magnetic fi eld. The principle of electromagnetic induction and how resistors, inductors and capacitors behave in ac circuits is discussed. The electrical energy-conversion devices such as motors, generators and transformers are also discussed. Finally the discussion on the four maxwell equations that completely described both electricity and magnetism will be made.

SSCP 1163 - Sound, Wave and OpticsThe course starts with introduction to the concept of sound, how it is produced, its characteristics, intensity and quality as well as the interference of sound which will be applied to modern sound devices. The course emphasizes optics as waves. These will be inseminated in the phenomenon of interference and diffraction of light and its modern-day applications. In general, the course provides the basic concepts of sound and optics.

SSCP 1223 - Modern PhysicsThe course begins with a brief discussion on the nature of science in the quest of better understandings of the natural phenomena – highlighting the dilemmas and failures of classical physics in the face of some landmark experiments and discoveries, which gave the impetus to new ideas and paradigm shift into the modern physics. Finally, formalities of quantum mechanics is introduced by discussing the 1-D time independent Schrodinger equation (TISE), applied to an idealised infi nite square potential well.

SSCP 1811 - Physics Practical IStudents perform experiments related to physics of mechanics, electricity and magnetism and wave optics. These experiments can be performed either individually or in pairs. At the end of the experiments, students present technical reports which describe the experiment, the analysis and the


SSCP 2413 - Solid State PhysicsIntroduces basic concepts in solid state physics, with emphasis on crystal structures. The roles of phonons and electrons in a solid are discussed, using various models. Upon completion, students should be able to explain basic concepts used in solid state physics and techniques used in determining crystal structures. Students should also be able to discuss thermal properties of solids and the behaviour of electrons in solids, using various models.

SSCP 2613 - Mathematical PhysicsThe main aim of the course is to provide physics students with mathematical treatment of a range of fundamental topics in physics. The course content consists of vector analysis, vector calculus, complex variable, matrices, ordinary and partial differential equations, and Fourier series. The course thus consolidates and integrates Mathematics and Physics, and helps to overcome some of the diffi culties which are associated with the interface between the two subjects.

SSCP 2811 - Practical Physics IIIStudents perform experiments related to materials science, advanced electronics, laser/optics and nuclear physics. These experiments will be conducted in group of two or three students. At the end of each experiment the group prepares a technical report which contains the experimental procedure, detailed data analysis, discussion on the fi ndings, and the conclusions. Upon completion, the student should have the ability to relate the experiments to the physical principles learned in relevant courses in materials science, advanced electronics, laser/optics and nuclear physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 2821 - Practical Physics IVStudents perform experiments related to materials science, advanced electronics, laser/optics and nuclear physics. These experiments will be conducted in group of two or three students. At the end of each experiment the group prepares a technical report which contains the experimental procedure, detailed data analysis, discussion on the fi ndings, and the conclusions. Upon completion, the student should have the ability to relate the experiments to the physical principles learned in relevant courses in materials science, advanced electronics, laser/optics and nuclear physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 3113 - ElectromagnetismIntroduces the vector and calculus approaches in understanding various laws and principles of electromagnetism-and time independent Maxwell’s equations. The course will also describe the time varying electromagnetic fi elds and it physical principles in various applications.

SSCP 3123 - Classical MechanicsThe course starts with brief discussion on Lagrangian and Hamiltonian dynamics. Introduction to Euler’s equation, Lagrange equation, Hamiltonian principle, Euler theorem and kinetic energy, space time homogeneity, isotropic of specifi c velocity and momentum space, canonical equation, cyclic coordinates. Central fi eld motion: orbit in a central fi eld, planetary motion- Kepler’s law, motion in an inverse square fi eld – Rutherford scattering. Dynamics of rigid body: kinetic energy, inertia tensor, angular momentum, base axis for inertia. Oscillation: one dimensional motion, simple harmonic motion in one and two dimensions, damped and forced oscillations, electric circuit oscillation. Coupled oscillation: two coupled oscillators, weak coupled, problem examples, orthogonality of Eigenvector, normal coordinate, molecular vibration.

SSCP 3133 - Thermal and Statistical PhysicsIntroduces the concepts of statistical mechanics and quantum statistics. The properties of large number of particles, the Fermi Dirac, Bose-Einstein and Maxwell-Boltzmann distribution laws are discussed. Upon completion, the student must have the ability solve problems, relating to the properties of large number of particles and explain the connection between entropy and the number of accessible quantum states. The students should also be able to relate between the free energy and the partition function and be able to calculate the properties of different thermodynamic systems.

SSCP 3323 - Advanced ElectronicsThe course begins with discussion of operational amplifi er (OPAMP) and its applications such as summing and differential amplifi ers, differentiator/integrator, and active fi lters. Sensors and amplifi cation of signals are introduced. Basic concepts and principles of digital circuits; number codes and number system, Boolean algebra, logic gates, Karnaugh maps, IC specifi cation and interfacing, encoding and decoding, fl ip-fl ops, counters, shift registers and digital arithmetic circuits are also discussed. Finally analogue to digital and digital to analogue conversion are covered. In general, the course will be conducted by lectures and hands-on to provide students with sound basic concepts and practical experience in advanced analogue and digital electronics.

SSCP 3343 - Instrumentation and Data AcquisitionThe course consists of two parts: The fi rst part begins with a review of basic elements in measurement systems; sensing element, signal conditioning, signal processing and signal presentation. The instrument’s classifi cation, errors in measurement, static and dynamic characteristics of instrument and calibration will also be introduced. Next, the physical quantity measurement which includes displacement, velocity and acceleration for translational and rotational motion, force and torque, low, medium and high pressure, temperature and other physical quantities, such as fl ow, level, humidity and electrical quantities are discussed. The second part of this course introduces basic concepts and techniques for interfacing a microcontroller to external devices for data collection and process control and developing the related software required. This includes transferring and converting analogue variables into the digital form needed for processing. It is aimed at students interested in data acquisition and real-time control systems. In general, the course provides on the general concepts of measurement system technology and physical quantities measurement technique.

SSCP 3643 - Quantum MechanicsThis course introduces students to new phenomena leading to quantum mechanics. It will discuss quantum phenomena such as black body radiations, photoelectric effects; Particle-wave duality, wave packets, Schrödinger equations; Observable expectation values; Quantum operator and postulations of quantum mechanics. It will examine and solve problems for one dimensional time independent Schrödinger equations for infi nite and fi nite square potential well, potential barrier; Harmonic oscillator; Hydrogen atom using momentum operator. Basic concepts in quantum mechanics are described and the uses of the quantum mechanical approach in solving contemporary quantum mechanical problems are explained. New phenomena in quantum mechanics, which makes it different from classical mechanics are also discussed.


SSCP 3811 - Physics Practical VStudents will conduct two six weeks Mini Projects. They perform open-ended experiments, and produce not more than fi ve pages formal technical report of their work. The project can be done either individually or in pairs. At the end of semester the student will present a short seminar which describes the project, the analysis and the fi ndings. Upon completion, the student will be supervised on essentially one-to-one basis by project supervisor, but they will also be expected to develop their ability to work independently.

SSCP 3821 - Physics Practical VIStudents taking Practical Physics VI will conduct two six weeks Mini Projects on physics based ICT. The sudents are required to develop ICT projects to solve problems related to physics. The students will be supervised by a supervisor, but they are encoranged to work independently. At the end of semester the student will present a short seminar which describes the project, the analysis and the fi ndings.

SSCU 3915 - Industrial Training/Research Trainning Industrial training is viewed as an important strategy to expose students to real work life situation and to equip them with the necessary skills so that they would be job ready upon graduation. The students will undertake a 10 week training at an organization or industry. During this training, the students will apply the knowledge learned in the university and boost their skills needed by a profession. The students will be involved in hands-on use of instruments or quality control or statistical analysis and optimization techniques and other relevant skills. At the end of the industrial training period the students should acquire basic skills in a professional manner and the experience gained during the training should enrich their generic skills.

SSCU 4902 - Undergraduate Project IStudents are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of physics and documented the fi ndings. Students will learn to gather information of the related topic through literature survey/review activities, construct research methodology, built-up results and discussion (if manageable and suffi cient data were obtained), anticipate the expected results (if no data were obtained), and write conclusion and references. Finally, students are required to submit a research proposal and a draft project/research report comprising of Title, Introduction, Literature Survey/Review, Research Methodology/Experimental, Results and Discussion/Expected Results, Conclusion, and References.

SSCU 4904 - Undergraduate Project IIStudents are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of physics and documented the fi ndings. Students will learn to gather information of the related topic through literature survey/review activities, construct research methodology, built-up results and discussion, come-up with conclusion and references. Finally, it is compulsory for the students to submit a proceeding and a project or research report comprising of Title, Introduction, Literature Survey/Review, Experimental, Results and Discussion, Conclusion, Future Work and References.

SINOPSIS KURSUS ELEKTIF FIZIK

SSCP 3143 - RelativityThis course presents the essential concepts of general relativity theory. The emphasis is on the physical understanding of the theory and the mathematical development is kept simple. Space-time diagrams are used extensively in the explanation of the theory.

SSCP 3153 - Elementary ParticleThis course is designed to expose student to understand the most fundamental components of nature using the quark model. Topics of interest include the structure, defi nition, fl avor and the combination of quarks to form other particles. Classifi cations of particles and their interactions into a number of easily identifi able categories, and a number of empirical rules will also be studied. Interactions between particles will be dealt with in terms of the four types of forces and the exchange of particles between them. Also included in the course will be the conservation theory of various interactions in terms of lepton number, parity, charge conjugate and time reversal. At the end of the course, the student will be exposed to the understanding of unifi cation theory of forces which incorporate the mechanics of the strong, weak, and electromagnetic interactions into a single theory.

SSCP 3163 - Energy and Environmental PhysicsThe course starts with a brief introduction on the processes and issues in environmental physics which include the global warming. The principal topics are the physics of the built environment, energy for living, environmental health, revealing the planet, the biosphere, the global climate, climate change. The alternative sources of energy such as nuclear energy, wind as well as water will also be discussed. This course provides essentially physics principles that underlie environmental issues and shows how they contribute to the interdisciplinary fi eld of environmental science as a whole. This is very important for the students to be aware of especially when they engage in the industry.

SSCP 3333 - Computational PhysicsThis course begins with a comparative discussion about analytical and numerical methods of studying physical phenomena. The design of program codes and equivalent pseudo codes are discussed. Numerical methods for investigation of elementary mechanics problems such as projectile, oscillatory, and planetary motions, and the chaos of non-linear pendulum are introduced. Calculation of potential surface, electric and magnetic fi elds, and visualization of the respective calculated data are also covered. Wave phenomena are investigated numerically. Methods for investigation of random system and Monte Carlo simulation are also studied. Finally the course ends with an introduction to molecular dynamic simulation method and how to animate visualization of simulated system.

SSCP 3523 - Modern OpticsThis course exposes the students to the fi eld of optics. Elementary optics, ray optics, optical instruments, source and detector, interference and diffraction, image processing, laser, polarization and electromagnetic effects, fi bre optics and integrated optics are described and discussed. At the end of the course, students should be able to understand and apply the concepts to solve the problems related to the optical phenomena. Students should have the ability to apply and use standard optical components including laser and fi bre optics components. The students should also be able to explain the functions of various components in optical systems in various applications and be thankful to the Creator of light.


SSCP 4163 - AstrophysicsStudents will be introduced to the concepts and methods of astronomy and astrophysics which include familiarity with astronomical objects and their classifi cation, learning about measurements and units, and introduction to some basic topics like the astrophysical nature of radiation, orbital dynamics, stellar structure, and many body dynamics.

SSCP 4173 - Quantum Mechanics IIThis course introduces a theory in solving problems in physics. It will discuss quantum phenomena such as black body radiations, photoelectric effects; particle-wave duality, wave packets, Schrödinger equations; observable expectation values; quantum operator and postulations of quantum mechanics. It will examine and solve problems for one dimensional time independent Schrödinger equations for infi nite and fi nite square potential well, potential barrier; harmonic oscillator; hydrogen atom using momentum operator. The students are expected to understand spin and Zeeman effect, perturbation theory and Stark effect. At the end of the course, the student should be able to solve some contemporary quantum mechanical problems. The students should also be able to work in a team and adhere to professional ethics.

SSCP 4213 - Advanced Nuclear PhysicsThis is a continuation of the introductory nuclear physics course. Some topics are repetition of the introductory course but would be dealt in more detail. The course begins with the discussion of the nuclear properties, followed by the quantum mechanics theory applied specifi cally to the different potential- well of the nucleus. Different aspects of nuclear forces are dealt with great length. The classical shell models of the nucleus are discussed in detail together with some other realistic nuclear models. The three important nuclear emission; alpha emission, beta decay, gamma radiation will also be dealt. In addition the types of nuclear reactions, types and processes are included. The course ends with the introduction of nuclear energy production and nuclear astrophysics.

SSCP 4323 - Electronics and InstrumentationsThe course begins with discussion of operational amplifi er (OPAMP) and its applications such as summing and differential amplifi ers, differentiator/integrator, and active fi lters. Basic elements in measurement systems; sensing element, signal amplifi cation, signal conditioning, signal processing and signal presentation are introduced. Basic concepts and principles of digital circuits; number codes and number system, Boolean algebra, logic gates, Karnaugh maps, IC specifi cation and interfacing are discussed. Finally analogue to digital and digital to analogue conversion are covered. In general, the course will be conducted by lectures and hands-on to provide students with sound basic concepts and practical experience in advanced analogue and digital electronics.

SSCP 4333 - Digital Signal ProcessingThe course starts with the discussion on the breadth and depth of digital signal processing (DSP). Then students will learn about mathematics essential to signal processing such as statistic, probability, complex number, matrices and polynomial. ADC and DAC conversions are discussed in detail.

SSCP 4413 - Semiconductor PhysicsThe aim of this course is to provide basic knowledge and theory of semiconductor physics and introduction to semiconductor devices. It will start with the growth and doping of semi conducting materials, followed by the energy band and carrier concentration in thermal equilibrium and carrier transport phenomena in semiconductor. Discussion on the p-n junction and some selected diodes will be given toward the end of the course.

SSCP 4423 - Condensed Matter PhysicsThe course starts with a brief introduction on the single electron model and Schrodinger equation followed by the theory of a nearly free electron and tightly bound electron. The electron-electron interaction will be look into before the discussion on the band structure is given. Finally, the dynamic theory on the electron transport will be discussed in detail. This is very important for the students to prepare themselves before they go out to industry especially when dealing with low temperature physics.

SSCP 4433 - MagnetismThe course describes the fundamentals of magnetism, its discovery and its impact on civilisation and technology. The phenomenological and theoretical approach will be employed, begining with a brief review on elementary magnetostatics and origins of magnetism - magnetic dipole, its response to an applied magnetic fi eld and various interactions giving rise to different types of magnetic ordering in solids. It also covers material’s classifi cations: Diamagnetism, para-, ferro-, antiferro- and ferrimagnetism, as well as relevant rules/laws/theoretical approaches: Hund’s Rule, Curie’s and Curie-Wiess law, Langavin and Stoner theories, etc. Crystalline–electric fi eld effects are treated at a level that is suffi cient to provide the basic knowledge in understanding the properties of materials. Other topics include the techniques for magnetic fi eld generation and measurements, magnetic materials and their various applications, such as in electrical and media devices. In general, the students should be able to understand phenomenon related to magnetism, distinguish between the class of magnetic materials and types of magnetism, their wide applications and technological advancements, and be able to perform basic calculations.

SSCP 4453 - Low Temperature Physics and SuperconductivityThis course introduces to the students to the basic knowledge of low temperature physics and many important properties at low temperature regimes. Students are also introduced with the many important aspect of the cryogenic world – the cryogens and cryophysics. Liquid helium and its important properties which are important in the cryophysics will be discussed in detail which then followed by the techniques and methods of achieving low temperatures and measurement at low temperatures. This is then followed by low temperature phenomena such as superconductivity and related theory. Basic properties of superconductivity will be discussed. Students are also will be exposed with many theories of superconductivity such as- Gorter and Casimir theory, London theory, Ginzburg -Landau theory and BCS theory. The lecture end with introduction to high temperature superconductors.

SSCP 4513 - Laser PhysicsThis course relates the principle of laser generation and its fundamental characteristics. It starts by discussing the rejuvenation of optics due to the invention of laser. This is followed by introducing the nature of light interaction with atom, Einstein relation, absorption and gain coeffi cient, laser mode, and laser beam modulation. Last but not least the laser light properties are highlighted and comparison is made with respect to conventional light.


SINOPSIS KURSUS TERAS FIZIK INDUSTRI

SSCM 1023 - Mathematical Methods IThe course revises and extends Matriculation and STPM topics such as differentiation and integration and includes topics such as complex numbers and differential equations, which may be new to many students. Topics covered include parametric equations, functions, polar coordinates, vectors, and complex numbers. Students will learn how to defi ne functions, and plot the graphs, using the Cartesian as well as polar coordinates; solve problems involving complex numbers and vectors. Additional topics include limits and continuity, differentiation techniques and its applications, integration techniques including improper integrals. Upon completion, the students would have acquired some quite powerful tools of analysis. This is also an introductory course on differential equations. Topic includes fi rst order ordinary differential equations (ODEs). Students will learn how to classify and solve fi rst order ODEs.

SSCM 1033 - Mathematical Methods IIThis course continues and extends the techniques introduced in Mathematical Methods I, with further differential equations and calculus of multivariable functions. Topics include linear second order ODEs with constant coeffi cients, functions of several variables, partial differentiation and multiple integrations. Students will learn how to classify and solve second order linear ODEs with constant coeffi cients using the method of undetermined coeffi cients and variation of parameters. They will also learn to determine the domain and range, techniques of graph sketching, and limit and continuity, fi nd (partial) derivatives and evaluate (double and triple) integrals, pertaining to a function of two and three variables. The use of cylindrical and spherical coordinates is also highlighted. Applications include fi nding the volume, mass, centre of gravity, and moment of inertia of a solid.

SSCP 1143 - MechanicsThis course discusses motion of a body or a system. Beginning with the basic and derived physical quantities and vector as mathematical tool, various types of motion such as linear, free-fall, projectile, circular, rotational and simple harmonic motions are described. Other topics such as equilibrium, elasticity, gravitation and fl uids mechanics illustrate the application of a body in motion under the infl uence of forces.

SSCP 1153 - Electricity and MagnetismThe course examines the force of electromagnetism, which encompasses both electricity and magnetism. It includes the exploration of some electromagnetic phenomena. It begins by examining the nature of electric charge and then a discussion of interaction of electric charges at rest. It studies on charges in motion, particularly in the electric circuit. lt then continues into the study of magnetic interaction, how moving charges and currents responds to magnetic fi eld. The principle of electromagnetic induction and how resistors, inductors and capacitors behave in ac circuits is discussed. The electrical energy-conversion devices such as motors, generators and transformers are also discussed. Finally the discussion on the four fundamental equations that completely described both electricity and magnetism will be made.

SSCP 1163 - Sound, Wave and OpticsThe course starts with introduction to the concept of sound, how it is produced, its characteristics, intensity and quality as well as the interference of sound which will be applied to modern sound devices. The course emphasizes optics as waves. These will be inseminated in the phenomenon of interference and diffraction of light and its modern-day applications. In general, the course provides the basic concepts of sound and optics

SSCP 1223 - Modern PhysicsThe course begins with a brief discussion on the nature of science in the quest of better understandings of the natural phenomena – highlighting the dilemmas and failures of classical physics in the face of some landmark experiments and discoveries, which gave the impetus to new ideas and paradigm shift into the modern physics. Finally, formalities of quantum mechanics is introduced by discussing the 1-D time independent Schrodinger equation (TISE), applied to an idealised infi nite square potential well.

SSCM 1523 - Linear AlgebraThe course begins with the study of matrices and determinant. Starting with simple matrix operations, elementary row operation and inverses, and determinant of matrices. Solve the linear system using matrix inverse, Crammer’s rule, Gauss and Gauss—Jordan elimination method. Next, the focus is on the vector spaces, subspace, linear independence, spanning sets, bases, coordinate vector and change of basis, orthogonal bases, and the Gram-Schmidt process. There follows a discussion of linear transformation and matrices, as well as the kernel and range. Finally, fi nd the eigenvalues and eigenvectors and use them in diagonalization problem.

SSCM 1703 - Differential EquationsAn introductory fi rst course in differential equations. Topics include fi rst order ordinary differential equations (ODEs), linear second order ODEs with constant coeffi cients, the Laplace transform and its inverse, Fourier series, and elementary partial differential equations (PDEs). Students will learn how to classify and solve fi rst order ODEs, solve second order linear ODEs with constant coeffi cients using the method of undetermined coeffi cients and variation of parameters, use the technique of Laplace transforms to solve ODEs with specifi ed initial or boundary conditions, and use the technique of separation of variables to solve initial-boundary value problems involving heat and wave equations and boundary value problems involving Laplace equation.

SSCP 1811 - Physics Practical IStudents perform experiments related to physics of mechanics, electricity and magnetism and wave optics. These experiments can be performed either individually or in pairs. At the end of the experiments, students present technical reports which describe the experiment, the analysis and the fi ndings. Upon completion, the students should have the ability to handle the instrumentations and relate the experiments to the theories learned in basic physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 1821 - Physics Practical IIStudents perform experiments related to the physics of thermodynamics, optics, modern physics and electronics. These experiments will be performed either in a group or individually. At the end of each experiment the student present a technical report which describes the experiment, the analysis and the fi ndings. Upon completion, the students should have the ability to handle the instrumentations and relate the experiments to the theories learned in basic physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 1861 - Physics Practical I (Sem II)Students perform experiments related to the physics of thermodynamics, optics, modern physics and electronics. These experiments will be performed either in a group or individually. At the end of each experiment the student present a technical report which describes the experiment, the analysis and the fi ndings. Upon completion, the students should have the ability to handle the instrumentations and relate the experiments to the theories learned in basic physics, perform experimental analysis on the laboratory works and write technical reports.


SSCP 2113 - ThermodynamicsThe course starts with discussions on basic concepts of thermodynamics, thermodynamic properties of materials and thermodynamic processes. The next topics will emphasize on energy transfer and energy analysis of systems and processes using the fi rst and second laws of thermodynamics. The principles of gas power and refrigeration cycles are also briefl y highlighted. In general, the course provides the basic concepts of thermodynamics and it applications in conservation and utilisation of energy as well as in automobile industry.

SSCP 2213 - Nuclear PhysicsThe course introduces some major concepts and theories of nuclear physics. The course begins with understanding the basic knowledge of the constituents of nucleus and the properties of nuclear forces. The next topic of the course is introducing the radiation sources and the types of ionizing radiations. Nuclear decay processes and the properties of ionizing radiations will be discussed. The interactions of nuclear radiations with mater and mechanism of nuclear reaction are also covered in this subject. Students will learn some basic concepts on radioactivity including radioactive decay law, radioactive decay series and radioactive equilibriums. Some nuclear models such as liquid drop model, shell model and optical model of the nucleus will be introduced at the end of the course. In general, the course provides a basic concept of interaction processes of nuclear radiation in order to widen the appreciation of nuclear physics to the students.

SSCP 2313 - Basic ElectronicsThe course starts with introduction to electronic components, circuit building and basic measurement of signal. Various circuit theory analysis such as superposition principle, mesh current analysis, The venin and Norton theorem are taught. DC and AC circuit analysis and the use of semiconductor devices such as diodes and transistors are discussed. The hybrid h and phi small signal models for transistor are emphasized. Next the small signal amplifi ers, power amplifi ers, differential amplifi er are constructed for better understanding and practical experience. In general, the course provides good balance between theoretical and practical works on electronic circuits and its everyday applications.

SSCP 2333 - Computer ProgrammingThis course begins with a comprehensive introduction to computer, role of computer in physics, and operating system. Computer programming involving choices of computer languages and programming concept is also discussed. In the laboratory, the student experience working with a Linux desktop, client-server working environment, and all the necessary tools for terminal-server programming works. Throughout the course students are guided to build computer programs from simple to complex, all about solving various physics problem, based on the Java programming language. Students are exposed to methods for writing command-line based programs and tools utilizing widgets for building application with graphical user interface.

SSCP 2413 - Solid State PhysicsIntroduces basic concepts in solid state physics, with emphasis on crystal structures. The roles of phonons and electrons in a solid are discussed, using various models. Upon completion, students should be able to explain basic concepts used in solid state physics and techniques used in determining crystal structures. Students should also be able to discuss thermal properties of solids and the behaviour of electrons in solids, using various models.

SSCP 2613 - Mathematical PhysicsThe main aim of the course is to provide physics students with mathematical treatment of a range of fundamental topics in physics. The course content consists of vector analysis, vector calculus, complex variable, matrices, ordinary and partial differential equations, and Fourier series. The course thus

consolidates and integrates Mathematics and Physics, and helps to overcome some of the diffi culties which are associated with the interface between the two subjects.

SSCP 2811 - Physics Practical IIIStudents perform experiments related to materials science, advanced electronics, laser/optics and nuclear physics. These experiments will be conducted in group of two or three students. At the end of each experiment the group prepares a technical report which contains the experimental procedure, detailed data analysis, discussion on the fi ndings, and the conclusions. Upon completion, the student should have the ability to relate the experiments to the physical principles learned in relevant courses in materials science, advanced electronics, laser/optics and nuclear physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 2821 - Physics Practical IVStudents perform experiments related to materials science, advanced electronics, laser/optics and nuclear physics. These experiments will be conducted in group of two or three students. At the end of each experiment the group prepares a technical report which contains the experimental procedure, detailed data analysis, discussion on the fi ndings, and the conclusions. Upon completion, the student should have the ability to relate the experiments to the physical principles learned in relevant courses in materials science, advanced electronics, laser/optics and nuclear physics, perform experimental analysis on the laboratory works and write technical reports.

SSCP 3113 - ElectromagnetismIntroduces the vectorial and calculus approaches in understanding various laws and principles of electromagnetism-and time independent Maxwell’s equations. The course will also describe the time varying electromagnetic fi elds and it physical principles in various applications.

SSCP 3133 - Thermal and Statistical PhysicsThe course starts with a brief discussion on the general concept and defi nition, the importance, as well as the costs of quality in managing a business organization. The next topics will emphasize on the quality management principles, total quality management, and ISO 9001 quality management requirements in manufacturing and servicing industries. The statistical techniques in quality control such the process modelling, the acceptance sampling and the statistical process control (SPC) will be discussed. Common SPC tools for troubleshooting and monitoring a process including the process capability analysis will be emphasized. Basic concepts and defi nition of reliability is also highlighted. In general, the course provides on the general concepts of quality, quality management systems and the applications of various techniques in statistical quality control (SQC) both in production and service industries.

SSCP 3143 - RelativityThis course presents the essential concepts of general relativity theory. The emphasis is on the physical understanding of the theory and the mathematical development is kept simple. Space-time diagrams are used extensively in the explanation of the theory. SSCP 3153 - Elementary ParticleThis course is designed to expose student to understand the most fundamental components of nature using the quark model. Topics of interest include the structure, defi nition, fl avor and the combination of quarks to form other particles. Classifi cations of particles and their interactions into a number of easily identifi able categories, and a number of empirical rules will also be studied. Interactions between particles will be dealt with in terms of the four types of forces and the exchange of particles between them. Also included in the course will be the conservation theory of various interactions in terms of


lepton number, parity, charge conjugate and time reversal. At the end of the course, the student will be exposed to the understanding of unifi cation theory of forces which incorporate the mechanics of the strong, weak, and electromagnetic interactions into a single theory.

SSCP 3163 - Energy and Environment PhysicalThe course starts with a brief introduction on the processes and issues in environmental physics which include the global warming. The principal topics are the physics of the built environment, energy for living, environmental health, revealing the planet, the biosphere, the global climate, climate change. The alternative sources of energy such as nuclear energy, wind as well as water will also be discussed. This course provides physics principles that underlie environmental issues and shows how they contribute to the interdisciplinary fi eld of environmental science as a whole. This is very important for the students to be aware of especially when they engage in the industry.

SSCP 3323 - Advanced ElectronicsThe course begins with discussion of operational amplifi er (OPAMP) and its applications such as summing and differential amplifi ers, differentiator/integrator, and active fi lters. Sensors and amplifi cation of signals are introduced. Basic concepts and principles of digital circuits; number codes and number system, Boolean algebra, logic gates, Karnaugh maps, IC specifi cation and interfacing, encoding and decoding, fl ip-fl ops, counters, shift registers and digital arithmetic circuits are also discussed. Finally analogue to digital and digital to analogue conversion are covered. In general, the course will be conducted by lectures and hands-on to provide students with sound basic concepts and practical experience in advanced analogue and digital electronics.

SSCP 3333 - Computation PhysicsThis course begins with a comparative discussion about analytical and numerical methods of studying physical phenomena. The design of program codes and equivalent pseudo codes are discussed. Numerical methods for investigation of elementary mechanics problems such as projectile, oscillatory, and planetary motions, and the chaos of non-linear pendulum are introduced. Calculation of potential surface, electric and magnetic fi elds, and visualization of the respective calculated data are also covered. Wave phenomena are investigated numerically. Methods for investigation of random system and Monte Carlo simulation are also studied. Finally the course ends with an introduction to molecular dynamic simulation method and how to animate visualization of simulated system.

SSCP 3343 - Instrumentation and Data AcquisitionThe course consists of two parts: The fi rst part begins with a review of basic elements in measurement systems; sensing element, signal conditioning, signal processing and signal presentation. The instrument’s classifi cation, errors in measurement, static and dynamic characteristics of instrument and calibration will also be introduced. Next, the physical quantity measurement which includes displacement, velocity and acceleration for translational and rotational motion, force and torque, low, medium and high pressure, temperature and other physical quantities, such as fl ow, level, humidity and electrical quantities are discussed. The second part of this course introduces basic concepts and techniques for interfacing a microcontroller to external devices for data collection and process control and developing the related software required. This includes transferring and converting analogue variables into the digital form needed for processing. It is aimed at students interested in data acquisition and real-time control systems. In general, the course provides on the general concepts of measurement system technology and physical quantities measurement technique.

SSCP 3433 - Quality ControlThe course starts with a brief discussion on the general concept and defi nition, the importance, as well as the costs of quality in managing a business organization. The next topics will emphasize on

the quality management principles, total quality management, and ISO 9001 quality management requirements in manufacturing and servicing industries. The statistical techniques in quality control such the process modelling, the acceptance sampling and the statistical process control (SPC) will be discussed. Common SPC tools for troubleshooting and monitoring a process including the process capability analysis will be emphasized. Basic concepts and defi nition of reliability is also highlighted. In general, the course provides on the general concepts of quality, quality management systems and the applications of various techniques in statistical quality control (SQC) both in production and service industries.

SSCM 3503 - Complex VariablesThis course introduces calculus of functions of a single complex variable. Topics covered include the algebra and geometry of complex numbers, complex differentiation, complex integration, complex series including Taylor and Laurent series, the theory of residues with applications to the evaluation of complex and real integrals, and conformal mapping with applications in solving boundary value problems of science and engineering.


SSCP 3613 - Quantum Mechanics IThis course introduces students to new phenomena leading to quantum mechanics. It will discuss quantum phenomena such as black body radiations, photoelectric effects; Particle-wave duality, wave packets, Schrödinger equations; observable expectation values; quantum operator and postulations of quantum mechanics. It will examine and solve problems for one dimensional time independent Schrödinger equations for infi nite and fi nite square potential well, potential barrier; harmonic oscillator; hydrogen atom using momentum operator. Basic concepts in quantum mechanics are described and the uses of the quantum mechanical approach in solving contemporary quantum mechanical problems are explained. New phenomena in quantum mechanics, which makes it different from classical mechanics.

SSCP 3811 - Physics Practical VStudents will conduct two six weeks Mini Projects. They perform open-ended experiments, and produce not more than fi ve pages formal technical report of their work. The project can be done either individually or in pairs. At the end of semester the student will present a short seminar which describes the project, the analysis and the fi ndings. The student will be supervised on one-to-one basis by project supervisor, but they will also be expected to develop their ability to work independently.

SSCP 3821 - Physics Practical VIStudents taking will conduct two six weeks Mini Projects on physics based ICT. The sudents are required to develop ICT projects to solve problems related to physics. The students will be supervised by a supervisor, but they are encoranged to work independently. At the end of semester the student will present a short seminar which describes the project, the analysis and the fi ndings.


SINOPSIS KURSUS ELEKTIF FIZIK INDUSTRI (A)

SSCP 4013 - Data ProcessingThis course introduces students to the way of expressing data from experiment and how to analyze and draw meaningful conclusions from it. Emphasis is on the usage of open source software packages. We begin with theoretical discussion on measurement uncertainty, accuracy, and precision, systematic and random errors and sources of errors, standard deviation and level of confi dence, error propagation, and rejection of measurement using Chauvenet’s Criterion. Type of distribution; binomial, Gaussian, Lorentzian, and Poisson. Student will be introduced to linear and non linear curve fi tting techniques which include linear regression, multiple regressions, peak resolution and fi tting, correlation coeffi cient and Chi-squared measure of fi tting quality. Next various methods of data visualisation will be taught. These include 2D plot, surface plot, vector plot, and plot animation. Lastly student will learn to do drawing of scientifi c diagram, digital image manipulation, and import/export of image fi le types. Amongst the scientifi c data analysis software packages that will be used include Gnuplot, Octave, Scilab, and Maxima.

SSCP 4123 - Non Destructive Testing and EvaluationThe course introduces students to major non-destructive testing (NDT) methods such as penetrant testing (PT), magnetic particle testing (MT), industrial radiography (RT) and eddy current testing (ET). This will be followed by discussions of their physical principles and general techniques used. Specifi c application techniques based on all of the methods mentioned will be discussed in further details. The discussion will focus on parameters affecting the outcome of each NDT method. The application of eddy current techniques in material inspection such as thin plates and tubes will be describe. In radiography, the parameters affecting the exposure and the radiograph quality will be discussed. The codes and standards and their application to specifi c NDT methods will be discussed. Acceptance criteria applicable to specifi c requirements will also be discussed. Student will also be exposed to the safety aspects in NDT which includes radiation and work safety, work ethics, metallurgical processes and defects.

SSCP 4133 - Industrial ElectronicsIn this course the student will be exposed with general knowledge of industrial electronics. discrete control, input and output devices, solid state devices in industrial electronics. Operational amplifi ers and linear ICs. SCRs, triacs and other thyristors. Discrete automation sensors and devices, analog process control devices and sensors. Safety, DC motors and control circuits. AC motors and variable speed drives. special purpose motors and control devices programmable logic controllers embedded microcontrollers, open and closed loop process control. In general, the course provides the basic knowledge of electronic devices, motors and machines related to industrial applications and the working principle of common instruments in industrial applications.

SSCP 4143 - Electronic Circuit SimulationThis course introduces students to the principle and the various techniques in electronic circuit simulation such as DC, AC, transients, and worst-case scenario analysis. The circuit simulation utilizes SPICE and QUCs circuit simulator packages. In addition noise and performance analysis, harmonic distortion, sensitivity analyses are also discussed. The course will focus on discrete passive and active electronic components. In general, the course provides alternative way to experience circuit building and analysis without having to build real circuit.

SSCP 4303 - Process ControlThis course begins with discussion of the basic principle of process of control system related to a production process, the criterion of control system for performance evaluation, the piping and instrumentation drawing (P&ID) to process control system, the process control system responses, sensor time response – fi rst order response and second order response and the various aspects of digital control system. The process control characteristics and some aspects of digital process control are discussed. In general, the course will be conducted by lectures and simple simulated hands-on to provide students with practical experience in process control.

SSCP 4363 - Electronic Testing and MaintenanceThe course provides the basic knowledge of how to test suspected electronic components and how to properly maintain and handle them during usage. The lecture starts with hazard and safety procedure in dealing with electricity. Basic electronic testing instruments such as digital multi meter (DMM), oscilloscope, and spectrum analyser. Common electronic problems such as short and open circuit, loading effect, ground loop, electrostatic discharge, electromagnetic interference, impedance mismatch are discussed. Testing basic discrete electronic components such as resistors, capacitors, inductors, diodes, transistors are covered. Common sensors such as thermocouple, Hall effect sensors, accelerometer and piezoelectric crystal are discussed. After completing this course students will have basic skill to procure cost effective testing instruments, to use the equipments, to identify common electronic problems and to perform basic troubleshooting on basic components. The focus on safety will ensure the students to avoid danger/hazard caused by electricity.

SSCP 4353 - Ultrasonics TechniquesThe course will describe the physical principles of ultrasonic waves and their interactions with media leading to the application in defect detections of engineering components and systems. The discussion will highlight the transduction mechanisms, ultrasonic systems, and various ultrasonic application techniques ranging from low intensity up to high intensity applications.

SSCP 4373 - Electronic CommunicationsThis course introduces students to various process controls in industries. The process control characteristics and some aspects of digital process control are discussed. After completing this course, the student must have the ability to describe the various industrial process controls. The student must also be able to explain the techniques in digital process control.

SSCP 438 3 - Signal ProcessingThe course covers the continuous (analog) and discrete (digital) signal processing. Students are introduced to continuous and discrete system. The focus will be on linear time invariant (LTI) system. Laplace transform and Z transform are discussed. Fourier transform and discrete Fourier transform are also discussed. Finally students are taught to design the analogue and digital fi lters. Upon completion, students will have adequate background to explore the world of signal processing.

SSCP 4393 - Computer InterfacingThis course introduces basic concepts and techniques for interfacing a microcontroller to external devices for data collection and process control and developing the related software required. This will include transferring and converting analog variables into the digital form needed for processing. It is aimed at students interested in data acquisition and real-time control systems.


SINOPSIS KURSUS ELEKTIF FIZIK INDUSTRI (B)

SSCP 4203 - Medical Radiation ProtectionThis course will give an overview on the various techniques and radiation doses involved in diagnostic radiology, radiotherapy and nuclear medicine. It will also touch on the current trends in use of diagnostic radiology, radiotherapy and nuclear medicine. The relevant laws, regulations and procedures that need to be observed and be implemented for radiological protection in medical practice will be elaborated. At the end of the course, students should have an overall grasp on the operation of the medical radiological protection.

SSCP 4223 - Radiation DetectionThe important detection techniques for ionizing radiations are introduced in this course. The discussion begins with introducing the principles of radiation detection related to radiation units, radiation sources and radiation interactions. Nuclear radiation detector parameters such as detector model, detector effi ciency, energy resolution, counting curve and counting statistics are discussed. The next topic will emphasize on the principles of operation and basic characteristics of various detection systems. Various nuclear detectors such as gas fi lled detector, scintillation detector and semiconductor detector are main concerned of the subject. The course also emphasizes on the principle and operation of thermal and fast neutron detector. The principle of radiation dosimetry such as thermoluminescent dosimetry, chemical dosimetry, fi lm dosimetry and calorimeter are also discussed at the end of the course.

SSCP 4233 - Radiation ProtectionDesigned to ground students in the principles of radiation protection, that is, on justifi cation, optimization and dose limits. It will emphasize on the theories, the techniques and the procedures for external dose control that is the use of distance, shielding and time; and internal dose control, including introduction to the physics of aerosol, use of unsealed sources, primary and secondary containments, radioactive laboratories and leak tests. The course will also discuss organization and radiation protection programmes; emergency procedures, monitoring, radiological protection in radiation devices, transport regulations and radioactive waste management. Upon completion, students should have an overall grasp of the radiation protection principles and practice; and most importantly the safety culture required.

SSCP 4243 - Applied Radiation PhysicsThis course is a follow-up of nuclear physics and is designed to expose student to different types of radiation that exist in nature and environment, in particular the nuclear based radiation. Primary and secondary, directly and indirectly ionizing radiation are differentiated. Interactions of alphas, betas, photons and neutrons with matter are detailed. Radiation effects on materials are discussed. Applications of radiation in radio tracing, gauging, dating, and industrial imaging are studied. Accelerator as sources of radiation and their usefulness is also covered. Upon completion student are expected to have good grounding in applied radiation physics and ability to explain and discuss the application of radiations in various fi elds.

SSCP 4253 - Medical PhysicsThis course introduces Medical Physics to physics majors as an elective in their program. Three main areas of medical physics namely medical imaging, nuclear medicine and radiotherapy are surveyed. The emphasis is in the physics that govern the fi eld. At the end of the course students are expected to have an idea of the subject matter, its usefulness and applications in modern medicine.

SSCP 4263 - Occupational Health and SafetyThis course is designed in such a way that the student understands the issues of health that prevailed among workers. The concept of the relationship between work and health will be discussed in detail. Some of the relevant topics covered during the course will be the subject of toxicology, thermal stress and mental health. Students will also be required to know about the principles of epidemiology, ergonomics and health services related to work. This course also prepares student to understand the management of occupational health through health education, health promotion program, management of risks as well as from the legislative point of views such as the safety and health act.

SSCP 4273 - Nuclear EnergyThe course starts with brief discussion on neutron physics related to production, absorption and scattering of neutron, neutron cross sections and nuclear fi ssion. The next topics will emphasize on the principle of neutron moderation and neutron multiplication leading to steady state fi ssion reactor core design based on diffusion theory. The principle of fusion reaction and energy production from controlled thermonuclear fusion is also briefl y highlighted. In general, the course provides on the general concepts of neutron physics and it application in nuclear reactor for energy generation.

SSCP 4283 - Environmental Radiation ProtectionThis course introduces students to the theoretical basis of environmental radiological protection and the basic principles and procedures of radiological protection in medical practice. Sources of environmental radiation and its dosage implications will be elaborated. Environmental models for radionuclide dispersal will be introduced. Handling of TENORM will be discussed. At the end of the course, students should have an overall grasp on the operation of the environmental radiological protection. Transport regulation and radioactive waste management.

SSCP 4293 - Radiation DosimetryThis course introduces radiation dosimetry as an area of radiation physics. Principle of dosimetry, radiation dose, radiation units, fl uence, kerma and absorbed dose will be discussed. Dosimetry techniques and measurements, Bragg-Gray cavity theory and stopping power are discussed. The working principles of standard air chamber, thimble chamber and its calibration for dose measument are discussed. High energy photon and electron dosimetry are briefl y outlined. Internal dosimetry of beta and gamma, and external neutron dosimetry are also studied. At the end of the course students are expected to have a working knowledge of radiation dosimetry.

SSCP 4913 - RadiobiologyThis course introduces students to the theoretical basis and the model of the biological effects of radiation. Physical, chemical and cellular perspectives will be elaborated. It will then examine the macroscopic effects of radiation, be it deterministic, somatic stochastic or genetic. The course will also discuss the effects of ingested radionuclide and the various models involved in it, radiation ecology and the effects of non-ionizing radiations. At the end of the course, students should be able to make informed judgments on the short and the long-term health physics and radiological protection implications of a radiation exposure.


SINOPSIS KURSUS ELEKTIF FIZIK INDUSTRI (C)

SSCP 4403 - Microscopic And Material AnalysisThis is an introductory course on microscopic techniques that deals with the basic working principles and schematic diagram of construction of various microscopes, namely, light microscope, electron microscope, x-ray microscope, acoustic microscope, fi eld ion microscope, and scanning probe microscope. For each type of microscope, particular reference is given to the resolving power, sample preparation, and analysis of the micrograph. In general, this course will provide the students with necessary knowledge on the choice of microscope for study of materials.

SSCP 4443 - Magnetic MaterialsThe course will cover the fundamentals of magnetism and the basic theories and applications of magnetic materials. It begins with a brief review on elementary magnetostatics and origins of magnetism. The basic theories describing ferro-, ferri-, para-, dia- and antiferromagnets will be outlined briefl y. Some other properties such as anisotropy and magneto-optical effect will also be discussed in order to understand their applications. Finally, the students will be introduced to some novel magnetic phenomena and exotic magnetic materials with some modern device applications. The students will also undertake a written assignment to cover other related topics, such as in the fi eld of space science, medicine, biology and agriculture.

SSCP 4463 - Corrosion ScienceThis is an introductory course on corrosion science with emphasis on the electrochemistry and kinetics of corrosion. The areas covered in this course are, namely, measurements and testing of corrosion, standard practices in corrosion prevention and inhibition, choices of materials and their environments, atmospheric corrosion, and metals oxidation. This course will provide students with general knowledge on corrosion mechanism and methods and ways of combating corrosion.

SSCP 4473 - Spectroscopy and Material AnalysisThe course starts with a basic concept of spectroscopy followed by the properties of electromagnetic waves. Then the interaction of em radiation with matter will be given. The next topic will be on the basic instrumentation that is used in the spectroscopy. Then the spectrum and its intensity will be discussed. Molecular vibration is the next, followed by microwave spectroscopy. The infrared spectroscopy followed by Raman spectroscopy will be highlighted before the NMR spectroscopy. In general, the course provides some knowledge on the spectroscopy techniques for material analysis that are used mainly in material related industry.

SSCP 4483 - Semiconductor DevicesThis course is designed to focus on the semiconductor devices and material requirement for devising particular devices. It started with discussion on the growth, doping process, contact materials and properties of semiconductor. The study and discussion on the p-n junction and Schottky contact/diode will be a main objective of the course. The basic principle, operation and material requirement of devices and introduction to micro and nano-materials and electronics will be given toward the end of the lectures.

SSCP 4493 - MetallurgySolidifi cation and crystalization; phase equilibrium diagrams; composition determination; steel hardening process; heat treatment of steel; welding process and types of welding; defects in welding; casting process and types of casting; forging process and defects in forging; type of oxidation formation; corrosion ; corrosion; protection; metallography testing; mechanical Testing.

SSCP 4603 - Vacuum and Thin FilmConductance and throughput. vacuum gauges and pumps. nucleation, physical vapour deposition, chemical vapour deposition, characterization measurements, properties – structural, optical, electrical and magnetic, novel properties – quantum effect, giant magnetoresistance, thin fi lm solar cells, layered magnetic nanostructures - GMR sensors, single-electron devices.

SSCP 4623 - Material ScienceThis course introduces to the students basic and important properties of materials. This includes materials structures and deffects that determine the vital properties that can be utilized such as its mechanical, electrical or optical properties. Students are also taught with the important parameters of material characteristics and methods of testing these parameters. In general this course provides the relationship between the required properties and materials processing to suit certain product application.

SSCP 4633 - Ceramics and Amorphous MaterialsThe course starts with a brief introduction on the amorphous and ceramic materials, the formation theory and thermodynamic approach. Their preparation techniques will be given consequently. The next topic will be on the microscopic and the macroscopic structure of amorphous and ceramics which include the bond and the imperfections. The physical, mechanical, optical and the electrical properties will be emphasized in the following parts. Then, the chemical durability of amorphous will be attentively highlighted. In general, the course provides some knowledge on the amorphous and ceramics material and their characterization that are useful in the glass and ceramics industry.

SSCP 4643 - Polymeric MaterialsThe course starts with a brief basic concept of polymer and degree of polymerization.The classifi cation of polymer will then followed. The preparation techniques and the crosslinkages are then discussed. The crystallinity, amorphousity and the morphology of the polymer will also be highlighted. The mechanical, physical and thermal properties will also be presented. In general, the course provides some knowledge on the polymeric material and their characterizations that are useful in polymer industry.


SINOPSIS KURSUS ELEKTIF FIZIK INDUSTRI (D)


SSCP 4523 - Laser TechnologyThis course introduces the laser source and it application in industry. It covers basic laser, light interaction with atom, laser structure and generation, laser type. The laser sources have been applied in many areas including in industry and holography. In engineering the laser is used for material processing. Holography is used for quality control. Laser is used to drive fusion interaction. In military the lasers are used as a guidance and weapon.

SSCP 4533 - Fibre Optic TechnologyIntroduces the historical development and the importance of fi bre optics in different applications. The parameters involved in the usage of optical fi bres and the components of a fi bre optic system will be described. Techniques of preparing an optical fi bre will be discussed, including instruments used for preparation and measurement. The application of fi ber optics in communication and sensing will be described and discussed. Upon completion, the student must have the ability to describe the structure, material content, the various characteristics of an optical fi bre. The student should also be able to analyze the functional role of the various components of an optical fi bre system for use in communication and sensing, and be able to describe the preparation and measurement techniques required.

SSCP 4543 - OptoelectronicsThis course is designed to expose the students to the present trends in optoelectronics and will be introduced to the basic concepts and working principles in optoelectronic components and devices. The fundamental and functional of main components in optoelectronics system are discussed, including the analysis of parameters essential in the design and applications of optoelectronics system. After completing this course, the students must have the ability to explain the main concepts of optoelectronics as it emerges in wide ranges of physics especially light and optics. Students comprehend the working of various optoelectronics concept, components and devices, describe and discuss the functions of their components and analyze the parameters involved in the design and application of optoelectronics system.

SSCP 4553 - Applied opticsThis course exposes the students to the variety of applications related to optics. Optical design techniques, photometry, radiometry, application of laser optics, fi bre optics components and optical systems are described and discussed. Upon completion, students should have the ability to make simple optical design using standard optical components including laser and fi bre optics components. The students should also be able to explain the functions of various components in optical systems in various applications and be thankful to the Creator of light.

SSCP 4563 - PhotonicsIntroduces the various fi elds of study in photonics such as Fourier optics, crystal optics, integrated optics, nanophotonics and biophotonics. The principles and parameters involved in the various fi elds of study will be described. The applications that have emerged from thse studies such as in communication, sensing and imaging will be described and discussed. Upon completion, the student must have the ability to describe the models used in the various fi elds of study in photonics. The student should also be able to analyze the functional role of the various components and devices in different photonic systems, such as their roles in communication, sensing and imaging systems.

SSCP 4573 - Laser In MedicineThis course introduces laser devices applied in medicine. It covers laser biophysic, nonlinear effect and photodisruption, mechanism of damage induced by Nd: YAG laser, laser tissue interactions, laser in eye surgery, laser in dentistry, laser acupuncture, low level laser theraphy LLLT, digital holography. Generally lasers have been utilized in wide area of medical fi eld.

SSCP 4583 - PhotometryIntroduces the basic concepts in photometry and the various the photometric parameters involved, photmetric measurement procedures and instrumentation will be described. Fundamentals of colorimetry will also be discussed, including the CIE system used. Upon completion, the student must have the ability to describe the various photometric parameters, measurement procedures and instrumentation related to photometry and colorimetry. The student should also be able to use photometry parameters in analyzing simple optical systems.

SSCP 4593 - Solid State Laser Engineering This course describes the design and construction of solid state laser. This includes the design of optical resonator, which cover the transverse modes, longitudinal mode, intensity and frequency control, hardware design, unstable resonator and wavelength selection. To pump the laser, various pump sources are discussed. The pump radiation transfer methods are also described. To stabilize the laser, the effect of thermo-optic is considered. Finally the laser beam is modulated by Q-switched and mode locked.

SSCP 4713 - Introduction to Nonlinear opticThis course describes the interaction of laser with nonlinear materials. It starts with interaction of photon and atom, followed by discussion of laser operation, laser oscillation, electro-optic, and introduction to non linear optic. Nonlinear process includes second harmonic generation, parametric and phase conjugation. Finally, the solitary wave is studied in dispersive media for generating ultra-short pulse.


SINOPSIS KURSUS TERAS KIMIA

SSCC 1322 – Introduction to Chemistry ProgramThe course provides students with the understanding of the role of chemists and the relationship of chemistry to society so that they can make reasoned judgements on issues that are affected by the processes and products of chemistry. The students will be introduced to the role of the chemist in researching, analyzing and developing chemistry knowledge and products for the purpose of benefi ting mankind and for sustaining the world. The course also discusses research and development of chemistry and career prospects for chemistry graduates. Part of the course also provide students with the view of the foundation of chemistry through their applications to every day lives specifi cally in the topics of chemistry and the environment, green chemistry, food chemistry, chemistry of household products, cosmetics and personal care, medicines, drugs and crime. Development of the students’ study and generic skills essential for a successful graduate and qualifi ed professional chemist is also addressed.

SSCC 1003 – Principles of Chemistry This course strengthens principles of chemistry knowledge before proceeding to more specialized and higher levels chemistry subjects. The fi rst part of this course exposes students to fundamentals of atoms and molecules and concepts which are known to be the main sources of chemical processes. The formation of chemical bonding, structure of molecules and properties of compounds are discussed. The second part of this course concentrates on stoichiometry and the relation between reacted species in reactions. The last part of this course strengthen student in term of fundamental knowledge of organic chemistry and introduces students the ideas of green chemistry concept.

SSCM 1023 – Mathematical Methods 1The course revises and extends Matriculation and STPM topics such as differentiation and integration and includes topics such as complex numbers and differential equations, which may be new to many students. Topics covered include parametric equations, functions, polar coordinates, vectors, and complex numbers. Students will learn how to defi ne functions, and plot the graphs, using the Cartesian as well as polar coordinates; solve problems involving complex numbers and vectors. Additional topics include limits and continuity, differentiation techniques and its applications, integration techniques including improper integrals. Upon completion, the students would have acquired some quite powerful tools of analysis. This is also an introductory course on differential equations. Topic includes fi rst order ordinary differential equations (ODEs). Students will learn how to classify and solve fi rst order ODEs.

SSCM 1303 – Computer LiteracyThis course introduces basic computer data processing with no computer background required or assumed. It provides a general knowledge about computing including the what, the do’s, the don’ts and its operation. The emphasis is on developing skills in handling Microsoft Offi ce such as MS Word, MS PowerPoint, MS Excel and MS Offi ce. Mathematical Software such as Maple and SPSS will also be introduced.

SSCC 1901 - Chemistry PracticalThis course is designed to improve students’ skills in observing chemical reactions, practicing good safety habits, using laboratory apparatus, handling chemicals and performing chemistry experiments. It comprises of chemical laboratory techniques such as glassware calibration, preparation and dilution of solutions, titration, separation, extraction, including data analysis and reporting. Upon completion of the course, students should be able to apply appropriate general chemistry laboratory techniques, draw conclusions and present scientifi c data in a clear and logical manner.

SSCC 1703 - Inorganic ChemistryThis course introduces the basic concepts of inorganic chemistry, focusing largely on structure, reactivity and periodicity of inorganic substances of the main group elements. The course also teaches the systematic survey of the descriptive inorganic chemistry of the main group elements, including industrial applications and practical uses of important classes of inorganic compounds.

SSCC 1851 - Inorganic Chemistry Practical IThis course introduces the basic concepts and skills in inorganic chemistry practical. The experiments are focused on physicochemical properties of elements and compounds of Group IA, Group IIA, Aluminium, Nitrogen, Sulphur and Halogen. This course also exposes students to basic skill of handling chemicals and preparing solution.

SSCC 1413 – Chemical ThermodynamicsThe course provides the concepts and principle of physical chemistry, starting with a brief discussion on gases which include the properties and equation of state of ideal and real gas and continuing with the principle of corresponding states. The next topics will emphasize on Thermodynamics: Basic concepts of thermodynamics – State functions, heat, enthalpy, internal energy, Gibbs free energy, Helmholtz free energy, heat capacity, First, Second and Third Laws of thermodynamics and Zeroth law of thermodynamics. Topics on the Chemical Equilibria will focus on chemical potentials and phase equilibria which include the phase rule and phase diagram of single component system. The fi nal topic will cover Solutions: compositions, partial molar quantities, ideal solutions, ideally dilute solutions and non ideal solutions.

SSCC 1841 - Physical Chemistry Practical IThis course is design to increase and strengthen students’ understanding on the concepts and principles in Chemical Thermodynamics through experiments conducted in the laboratory. The experiments selected for the course illustrate concepts explored in the Chemical Thermodynamics lecture, enable students to test the relation of theories with experiments, learn experimental methods used by physical chemist, develop laboratory skills and the ability to work independently, learn how to effectively present scientifi c results and appreciate the limitations inherent in both theoretical treatments and experimental measurements.

SSCC 1603 – Organic Chemistry-Functional GroupsThis course discusses the fundamental concepts of functional groups in organic compounds. These include aliphatic and aromatic hydrocarbons, alcohols, phenols, organohalogen compounds, ethers, epoxides, aldehydes, ketones and carboxylic acids. In each topic, the students will be introduced to the structures of the functional groups and the nomenclatures (common names and IUPAC names). Physical properties, preparations, reactions and visual tests will also be discussed. Inter-conversion of the related functional groups and their reaction mechanisms are also included.

SSCC 1821 - Organic Chemistry Practical IThis course comprises several laboratory experiments related to organic chemistry. Emphasis is on the basic skills of recrystallization, extraction, separation, refl ux and distillation. Upon completion, students should be able to assemble and use basic apparatus for experimental organic chemistry and present scientifi c data in a clear and logical way and produce a scientifi c report of their work.

SSCC 2613 - Organic Chemistry-BiomoleculesThis course introduces the classifi cations, synthesis and reactions of biomolecules such as carbohydrates, peptides, proteins and lipids. It will also emphasize on the three-dimensioal structures and fundamental concepts of stereochemistry. Infrared spectroscopy is included as a technique in characterising the functional groups of compounds.


SSCC 2891 - Organic Chemistry Practical IIThis course introduces students to the techniques and knowledge required in the synthesis or preparation of isomeric compounds, N-heterocyclic compounds, derivative of glucose, azo dyes and the isolation, purifi cation and reaction of lipid. Students will be exposed to the infrared spectroscopic technique as a tool to determine the functional groups of the synthetic and isolated compounds.

SSCC 2453 - Chemical Kinetics and ElectrochemistryThis course presents the fundamental concept and the application of chemical kinetics and electrochemistry. The chemical kinetics study includes rate and mechanism of reactions, orders of reactions, rate laws and the comparison of theories with experiments for simple gas reactions, reactions in solution, complex reactions, homogeneous catalysis, chain reactions and rapid reactions. While electrochemistry includes the electrolyte conductivity, theory on conductivity, activity, transport numbers, electrochemical cells and electrode processes and kinetics.

SSCC 2841 - Physical Chemistry Practical IIThis course is design to increase and strengthen students’ understanding on the concepts and principles in Chemical Kinetics and Electrochemistry through experiments conducted in the laboratory. The experiments selected for the course illustrate concepts explored in the Chemical Kinetics and Electrochemistry lecture, enable students to test the relation of theories with experiments, learn experimental methods used by physical chemist, develop laboratory skills and the ability to work independently, learn how to effectively present scientifi c results and appreciate the limitations inherent in both theoretical treatments and experimental measurements.

SSCC 2312 - Laboratory Safety and ManagementThe emphasis of this subject is to expose the students in the fundamental concept and theory related to Laboratory Organization and Laboratory Design, Material and Chemical managements, Dangerous Instrumentations, Safety in Laboratory and Chemical Store, Safety Procedures and Documentations. The basic knowledge on Quality Laboratory System, Legal and Environmental Act 1974, Chemistry Act 1975, Machine and Factory Act 1967 and Occupational Safety and Health Act 1994 will also be introduced.

SSCC 2713 - Coordination ChemistryThis course introduces the different types of ligands used in coordination chemistry and how their different modes of coordination lead to isomerism. The systematic way of naming metal complexes will be outlined. The different ideas on bonding in metal complexes will be discussed and this will help students to understand the advantages and limitations of each theory. The substitution mechanistic pathways of metal complexes and its kinetics and how this mechanism is determined experimentally are illustrated. The electronic spectra and colour properties of the metal complexes will be explained. Spectroscopic characterization techniques of coordination compounds are also covered.

SSCC 2851 - Inorganic Chemistry Practical IIThe emphasis of this course is to provide the students with an appreciation for the synthesis and characterizations of coordination compounds. It is also aimed to provide the students with a degree of competence in the laboratory skills required for accurate and precise chemical analysis. The experiments selected for this course include developing skills in the synthesis and isolation of coordination compounds or metal complexes with different kinds of ligands followed by characterization by conventional methods such as gravimetry, titrimetry and melting point, including characterization techniques used by coordination chemists such as UV-visible, NMR and FTIR spectroscopies. The principles of the spectroscopic methods are described and discussed with respect to their respective spectral outputs and interpretation obtained from the as-synthesized coordination compounds.

SSCC 2473 - Molecular SpectroscopyThe emphasis of this course is to expose the students to the fundamental principles of molecular

spectroscopy focusing on molecular energy levels and their interaction with electromagnetic radiation, spectral outputs and their interpretation in relation to molecular structure. The branches of spectroscopy covered include rotational spectroscopy, vibrational spectroscopy (IR and Raman), electronic spectroscopy (absorption and emission) and spin resonance spectroscopy (NMR and ESR). The general spectrometer components and the requirements for high resolution spectrum of FTIR and FT NMR will be discussed to represent the practical aspects of this subject.

SSCC 2243 - Principles of Analytical ChemistryThis course provides a basic introduction to quantitative chemical analysis, with emphasis on classical chemical methods. The course introduces general analytical techniques that include sampling, sample preparation, data analysis and method validation; and classical analytical methods that include gravimetric and volumetric techniques. The volumetric method will emphasize on acid-base, precipitation, complexation and redox titrations.

SSCC 2861 - Analytical Chemistry Practical IThe subject introduces students to Good Laboratory Practices in classical (wet chemistry) methods. Experiments are designed to complement the topics covered in Principles of Analytical Chemistry (SSC 2243), which include gravimetric and volumetric techniques. Part of the course consists of a short laboratory project.

SSCC 3233 - Instrumental AnalysisThis course introduces the principles, instrumentation, and application of spectroscopic and chromatographic methods used in analytical chemistry. Emphasis is on ultraviolet-visible (UV-Vis) spectroscopy, fl uorescence spectroscopy, mass spectrometry, atomic absorption spectroscopy and emission spectroscopy, liquid chromatography and gas chromatography.

SSCC 3871 - Analytical Chemistry Practical IIThe subject introduces students to laboratory work related to instrumental methods of analysis. Experiments complement topics in Instrumental Analysis (SSCC 3233) that include techniques in ultra violet-visible spectroscopy, atomic absorption spectroscopy, fl uorescence spectroscopy, and atomic fl ame emission photometry

SSCC 3323 - Principles of Polymer ScienceThis course is to introduce the students about polymers as materials with characteristic mechanical and physical properties which are controlled by the structure and the methods of synthesis. Topics covered in the course are polymer synthesis, the reaction of monomers to form polymers, copolymers or terpolymers either by chain-growth, step-growth (polycondensation), ring-opening polymerisations. Polymerization mechanisms and polymerization kinetics related to degree of polymerization and molecular weight control and molecular distributions will be discussed in detail. Physical aspect of polymer (polymer structures, morphology, amorphous state and glass-transitions temperature Tg, crystalline state and melting temperature Tm) will also be discussed. The inter-related molecular weights and molecular weight distributions on morphologies and their effects on the processing and fi nal properties of polymers will be emphasized, as well as the structure-properties relation that infl uenced the overall properties of a polymer.

SSCC 3463 - Quantum ChemistryThe emphasis of this course is to expose the students to the fundamental principles and techniques of quantum chemistry in the description of atom and molecule in terms of electronic structure and properties. This course is introduced by discussing wave particle behaviour of electron, Schrodinger wave equations and its applications to a particle in a box, harmonic oscillator, rigid rotor, hydrogen atom, and hydrogen like atoms. It continued further on the combination of atoms to form molecules; valence bond and molecular orbital theories; Huckel approximation; approximate techniques: variation and perturbation.


SSCC 4483 - Corrosion ChemistryThis subject introduces the concept of corrosion; which includes defi nition and importance of corrosion, the driving force for corrosion reactions, the rates of electrochemical reactions, rates of electrochemical corrosion reactions, characteristic forms of electrochemical corrosion, prevention and control of electrochemical corrosion and high temperature corrosion/oxidation and its control. Upon completion, students should be able to develop and apply knowledge to describe the electrochemical corrosion processes and its prevention. Students should also be able to rationalize the importance of corrosion effect in industrial application and our lives.

SSCU 3623 - Research Methology and Data RetrievalThis course teaches the students on principles of research methodology and information retrieval. Topics include research philosophy and objectives, literature study and review, choosing and defi ning research problems and design, preparing and writing research proposals, technical report writing (the elements of technical writing), types of technical report writing, dissertation writing, public speaking (preparation and presentation) and information retrieval (search strategies). Presentation of assignment is also an important component in this course.

SSCU 3915 – Research TrainingAll students under this program are compulsory to do research training at local or oversea research centres/institutes. Students are required to apply for research attachment that will take placed for 10 weeks. Students will be exposed to real research practice with supervisors assigned by the faculty and the industry. Students will be assessed on the reports written by the students submitted to the faculty at the end of the training as well as the reports from both supervisors

SSCU 4902 - Undergraduate Project IStudents are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of chemistry and documented the fi ndings. Students will learn to gather information of the related topic through literature survey/review activities, construct research methodology, built-up results and discussion (if manageable and suffi cient data were obtained), anticipate the expected results (if no data were obtained), and write conclusion and references. Finally, students are required to submit a research proposal and a draft project/research report comprising of Title, Introduction, Literature Survey/Review, Research Methodology/Experimental, Results and Discussion/Expected Results, Conclusion, and References

SSCU 4904 - Undergraduate Project IIStudents are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of chemistry and documented the fi ndings. Students will learn to gather information of the related topic through literature survey/review activities, construct research methodology, built-up results and discussion, come-up with conclusion and references. Finally, it is compulsory for the students to submit a proceeding and a project or research report comprising of Title, Introduction, Literature Survey/Review, Experimental, Results and Discussion, Conclusion, Future Work and References

SINOPSIS KURSUS ELEKTIF KIMIA

SSCC 3243 - Separation MethodsThis course introduces the basic principles, instrumentation and applications of separation methods commonly used in chemical analysis. A general overview and classifi cations of common separation methods is fi rst given followed by their basic principles of separation. Major separation methods and its applications discussed include extraction, chromatography and electrophoresis.

SSCC 3533 - Application of Computer in ChemistryThis course introduces the application of computer methods in chemistry. Topics discussed include regression analysis, multivariate calibration, pattern recognition, experimental design and optimisation, handling of chemical structures, chemical databases, molecular modelling, and artifi cial intelligence. Applications of these methods in data analysis, structural searching, prediction of properties and drug design are discussed.

SSCC 3643 - Application of SpectroscopyThis course discusses the principle and application of infrared (IR), nuclear magnetic resonance (NMR), ultraviolet (UV) spectroscopies and mass spectrometry (MS) for structural determination of organic compounds. In addition, elemental analysis for determination of molecular formula and index of hydrogen defi ciency will be discussed.

SSCC 4603 - Medicinal ChemistryThis course discusses the general principles of medicinal chemistry with emphasis on the molecular interaction of drugs with biological systems. The functional groups commonly found in drugs are reviewed with respect to their nomenclature and chemical reactivity. The absorption and metabolism characteristics are then related to the physicochemical properties of these functional groups. The theories and principles of drug-receptor interactions and drug design are presented, as well as the general principles of drug metabolism. To illustrate current drug developments, this course will utilize examples from chemical biology, bioorganic chemistry and drug design.

SSCC 4233 - Analytical ElectrochemistryThis course is designed to provide students with an understanding of the principles of analytical electrochemistry. Fundamental aspects of electrode reactions and structure of the interfacial region and application of electrode reactions to electrochemical characterization are included. Major electroanalytical techniques will be discussed including potentiometry, amperometry, polarography, cyclic voltammetry, pulse and differential pulse voltammetry, square wave voltammetry, and stripping analysis. Introduction to the principles of chemical and biochemical sensors will also be discussed.

SSCC 4773 - Inorganic and Organometallic PolymerThe course is intended to give an understanding of the basic principles of inorganic and organometallic polymers. It will emphasise on the physical properties, chemical synthesis, the characterisation and practical applications of the polymers. All the major inorganic and organometallic polymers such as polyphosphazenes, polysilanes, polysiloxanes, polyferrocenes and other polymers will be dealt with.

SSCC 4443 - Chemical Reactions ProcessThis course is designed to prepare students to formulate and solve material and energy balances on chemical process systems. It lays the foundation for courses in thermodynamics, unit operations, kinetics and process dynamics. It introduces the engineering approach to solving process-related problems - breaking a process down into its components, establishing the relations between known and unknown process variables, assembling the information needed to solve for the unknowns using


a combination of experimentation, empiricism and the application of natural laws to obtain the desired solution.

SSCC 4653 - Organic SynthesisThis course discusses the interconversion of various functional groups and the formation of C-C bonds; which represent two crucial areas in organic synthesis. Students will be introduced to the use of protecting groups and oxidation-reduction in the synthetic methodology. The retrosynthesis approach in organic synthesis will also be elaborated. Specifi c topic on carbonyl functionalities will be discussed which mainly highlight the related condensation reactions. Further discussion on rearrangement and pericylic reactions will be emphasized. Throughout the course, the usefulness of the synthetic methods will be related with their applications in various research and industry. Upon completion, the students should be able to plan synthetic strategy and pathway using both functional interconversion and C-C bond formation.

SSCC 4733 - RadiochemistryThe course is focussed on the fundamentals of nuclear structure and physico-chemical properties in radioactivity. The mass-energy relationship presented in this course includes the binding energy of nuclear reactions - energetic of nuclear reactions, cross-section and types of reactions. Radioactivity phenomena as explained in rates of nuclear decay, determination of half lives and growth of radioactive products are covered. Quantitative aspect of this course will be discussed under units of radioactivity, detection of radiation and instrumentation in radiochemistry. The study of the interaction of radiation with matter is included. Basic principles of nuclear reactors are also presented along with applications of radionuclides in chemistry and other related areas. Some aspects of nuclear energy generation, nuclear fuel reprocessing and nuclear waste disposal will also be discussed.

SSCC 4723 - Organometallic Chemistry The course teaches the chemistry of organometallic compounds. It includes the defi nition and classifi cation of the compounds, 18-electron rule and its limitations, types of bonding and methods of preparation followed by characterization of organometallic compounds. The discussion continues with the types of reactions and application of organometallic compounds as catalysts and others; metal-carbonyl complexes: synthesis, structure, reactions and applications; clusters compounds and their structure and isolobal relationship; the bioinorganic compound: coenzyme B12, and nitrogen fi xation.

SSCC 4363 - Green ChemistryThis course introduces students to the principles and application of Green Chemistry which was developed based on historical cases and current research. Topics include evaluation methods for environmental and human health impact, alternative reagents in designing safer reactions and chemicals, green chemical synthesis, green chemical products, and economic advantages to Green Chemistry. Real-world cases in green chemistry will be used to illustrate the goals of Green Chemistry.

SSCC 4263 - Thermal AnalysisThis subject is designed to provide students with an understanding of the principles and application of thermal analysis methods. Key thermal analysis methods such as Thermogravimetric Analysis (TGA), Differential Thermal Analysis (DTA) and Differential Scanning Calorimetry (DSC) are discussed, including instrumental system, factors affecting measurements, and the effect of sample properties on thermograms. Other thermal analysis methods discussed include microthermal analysis, thermomechanical analysis and dilatometry. Discussions will also cover interpretation of thermograms and application of the thermal analysis methods.

SSCC 4473 - Solid State ChemistryThis course exposes students to solid state chemistry beginning with introduction to simple crystals structures, symmetry, lattices and units cells, crystalline solids, and lattice energy. Following this,

the main topic discussed include X-ray Diffraction and its use in solving single crystal structures; various preparative methods in solid states; bonding in solids states and electronic properties and electronic conductivity in simple metals, semiconductors and doped semiconductors; defects and non-stoichiometry; ionic conductivity in solids, solid electrolytes; non-stoichiometric compounds and electronic properties of non-stoichiometric oxides; application of physical techniques in characterization of inorganic solids; optical properties of solids; magnetic and dielectric properties of materials; phase diagram and its interpretation; relationship between structure, physicochemical and mechanical properties of materials including zeolites and related structures

SSCC 4693 - Metabolism of BiomoleculesThis course discusses the metabolism of biomolecules in the class of carbohydrates, lipids and proteins. The discussion will include catabolism and anabolism for each biomolecule. The interaction of biomolecules with one another to produce ATP will be discussed. Inborn errors of metabolism related to the specifi c biomolecules will also be highlighted.

SSCC 4763 - NanochemistryThe primary objective of this course is to provide a broad foundation of understanding nanochemistry in the fi eld of nanotechnology, so that students are prepared to continually learn about this emerging fi eld. New era about nanomaterials is coming because of special physical and chemical properties of materials underlying nanoscale. This course mainly introduces novel nanomaterials and instrumental for materials analysis. This will include topics on; Introduction to nanochemistry and nanotechnology, The chemistry of nanofabrication; sol-gel, colloidal system, hydrothermal, thin fi lm, catalysis, self-assembly), Preparation methods for highly porous materials, Surface modifi cations-functionalization, Spectroscopy (AA, FTIR and ICP), Characterization of nanomaterials (TEM, SEM/FESEM, XPS, XRD), Perspectives of nanochemistry in the environmental applications. Based on this knowledge, students can have ideas about controlling physicochemical properties of nanomaterials to solve the problems specifi cally in the environmental applications towards sustainability. .

SSCC 4493 - Surface and Colloid ChemistryStudents are introduced to the fundamental concept of all type of surfaces and interfaces, to understand the surface phenomenon such as physical and chemisorption process, classifi cation of adsorption isotherm, capillary, wetting and spreading. For colloid chemistry, the course will discuss the classifi cation of colloid, colloidal phenomena and colloidal stability. Upon completion, students should be able to develop and apply knowledge in describing several absorption models and the difference between physisorption and chemisorption and properties and stability of colloidal system.

SSCP 4403 - Microscopic and Material AnalysisThis is an introductory course on microscopic techniques that deals with the basic working principles and schematic diagram of construction of various microscopes, namely, light microscope, electron microscope, x-ray microscope, acoustic microscope, fi eld ion microscope, and scanning probe microscope. For each type of microscope, particular reference is given to the resolving power, sample preparation, and analysis of the micrograph. In general, this course will provide the students with necessary knowledge on the choice of microscope for study of materials.

SSCP 4603 - Vacuum and Thin FilmConductance and throughput. Vacuum gauges and pumps. Nucleation, Physical Vapour Deposition, Chemical Vapour Deposition, Characterization Measurements, Properties – structural, optical, electrical and magnetic, Novel Properties – quantum effect, giant magnetoresistance, Thin Film Solar Cells, Layered Magnetic Nanostructures - GMR sensors, Single-Electron Devices.


SINOPSIS KURSUS TERAS KIMIA INDUSTRI

SSCC 1003 - Principles of Chemistry This course strengthens principles of chemistry knowledge before proceeding to more specialized and higher levels chemistry subjects. The fi rst part of this course exposes students to fundamentals of atoms and molecules and concepts which are known to be the main sources of chemical processes. The formation of chemical bonding, structure of molecules and properties of compounds are discussed. The second part of this course concentrates on stoichiometry and the relation between reacted species in reactions. The last part of this course strengthen student in term of fundamental knowledge of organic chemistry and introduces students the ideas of green chemistry concept.

SSCC 1901 - Chemistry PracticalThis course is designed to improve students’ skills in observing chemical reactions, practicing good safety habits, using laboratory apparatus, handling chemicals and performing chemistry experiments. It comprises of chemical laboratory techniques such as glassware calibration, preparation and dilution of solutions, titration, separation, extraction, including data analysis and reporting. Upon completion of the course, students should be able to apply appropriate general chemistry laboratory techniques, draw conclusions and present scientifi c data in a clear and logical manner.

SSCC 1703 - Inorganic ChemistryThis course introduces the basic concepts of inorganic chemistry, focusing largely on structure, reactivity and periodicity of inorganic substances of the main group elements. The course also teaches the systematic survey of the descriptive inorganic chemistry of the main group elements, including industrial applications and practical uses of important classes of inorganic compounds.

SSCC 1851 - Inorganic Chemistry Practical IThis course introduces the basic concepts and skills in inorganic chemistry practical. The experiments are focused on physicochemical properties of elements and compounds of Group IA, Group IIA, Aluminium, Nitrogen, Sulphur and Halogen. This course also exposes students to basic skill of handling chemicals and preparing solution.

SSCM 1023 - Mathematical Methods 1The course revises and extends Matriculation and STPM topics such as differentiation and integration and includes topics such as complex numbers and differential equations, which may be new to many students. Topics covered include parametric equations, functions, polar coordinates, vectors, and complex numbers. Students will learn how to defi ne functions, and plot the graphs, using the Cartesian as well as polar coordinates; solve problems involving complex numbers and vectors. Additional topics include limits and continuity, differentiation techniques and its applications, integration techniques including improper integrals. Upon completion, the students would have acquired some quite powerful tools of analysis. This is also an introductory course on differential equations. Topic includes fi rst order ordinary differential equations (ODEs). Students will learn how to classify and solve fi rst order ODEs.

SSCC 1332 - Introduction to Industrial Chemistry ProgramThis course introduces students to the defi nition and the different fi elds of the Chemistry, and the relationship of chemistry to society and industry. It also provides students with the understanding of the role of the chemists in providing and using scientifi c knowledge to make reasoned judgements on issues that are affected by the processes and products of chemistry. The students will be introduced to the aspects of chemistry required for analyzing, developing and managing chemical knowledge and products that are benefi cial to mankind and sustainable environment. The management of chemistry research and development and career prospects for industrial chemistry graduates will also be discussed. The course also provides the basic foundation of chemistry for applications to every

day lives specifi cally in the topics of chemistry and the environment, green chemistry, food chemistry, chemistry of household products, cosmetics and personal care, medicines, drugs and crime. In addition, the development of the students’ study and generic skills essential for a successful graduate and qualifi ed professional chemist is introduced.

SSCC1413 - Chemical ThermodynamicsThe course provides the concepts and principle of physical chemistry, starting with a brief discussion on gases which include the properties and equation of state of ideal and real gas and continuing with the principle of corresponding states. The next topics will emphasize on Thermodynamics: Basic concepts of thermodynamics – State functions, heat, enthalpy, internal energy, Gibbs free energy, Helmholtz free energy,heat capacity, First, Second and Third Laws of thermodynamics and Zeroth law of thermodynamics. Topics on the Chemical Equilibria will focus on chemical potentials and phase equilibria which include the phase rule and phase diagram of single component system. The fi nal topic will cover Solutions: compositions, partial molar quantities, ideal solutions, ideally dilute solutions and non ideal solutions

SSCC 1841 - Physical Chemistry Practical IThis course is design to increase and strengthen students’ understanding on the concepts and principles in Chemical Thermodynamics through experiments conducted in the laboratory. The experiments selected for the course illustrate concepts explored in the Chemical Thermodynamics lecture, enable students to test the relation of theories with experiments, learn experimental methods used by physical chemist, develop laboratory skills and the ability to work independently, learn how to effectively present scientifi c results and appreciate the limitations inherent in both theoretical treatments and experimental measurements.

SSCC 1603 Organic Chemistry - Functional GroupsThis course discusses the fundamental concepts of functional groups in organic compounds. These include aliphatic and aromatic hydrocarbons, alcohols, phenols, organohalogen compounds, ethers, epoxides, aldehydes, ketones and carboxylic acids. In each topic, the students will be introduced to the structures of the functional groups and the nomenclatures (common names and IUPAC names). Physical properties, preparations, reactions and visual tests will also be discussed. Inter-conversion of the related functional groups and their reaction mechanisms are also included.

SSCC 1821 - Organic Chemistry Practical IThis course comprises several laboratory experiments related to organic chemistry. Emphasis is on the basic skills of recrystallization, extraction, separation, refl ux and distillation. Upon completion, students should be able to assemble and use basic apparatus for experimental organic chemistry and present scientifi c data in a clear and logical way and produce a scientifi c report of their work

SSCM 1103 - Statistics (SSCE/ SSCM)The course is an introduction to statistics, reviewing some descriptive statistics which includes probability and random variables. Then, the topic of sampling distributions and inferential statistics which include estimation procedures and hypothesis testing is covered. The latter using the method of analysis of variance when more than two means are involved. Also, simple linear regression and contingency table are introduced. Students will be trained in the use of computer software such as Microsoft Excel and SPSS.

SSCC 2613 - Organic Chemistry - BiomoleculesThis course introduces the classifi cations, synthesis and reactions of biomolecules such as carbohydrates, peptides, proteins and lipids. It will also emphasize on the three-dimensioal structures and fundamental concepts of stereochemistry. Infrared spectroscopy is included as a technique in characterising the functional groups of compounds.


SSCC 2891 - Organic Chemistry Practical IIThis course introduces students to the techniques and knowledge required in the synthesis or preparation of isomeric compounds, N-heterocyclic compounds, derivative of glucose, azo dyes and the isolation, purifi cation and reaction of lipid. Students will be exposed to the infrared spectroscopic technique as a tool to determine the functional groups of the synthetic and isolated compounds.

SSCC 2453 - Chemical Kinetics and ElectrochemistryThis course presents the fundamental concept and the application of chemical kinetics and electrochemistry. The chemical kinetics study includes rate and mechanism of reactions, orders of reactions, rate laws and the comparison of theories with experiments for simple gas reactions, reactions in solution, complex reactions, homogeneous catalysis, chain reactions and rapid reactions. While electrochemistry includes the electrolyte conductivity, theory on conductivity, activity, transport numbers, electrochemical cells and electrode processes and kinetics

SSCC 2841 - Physical Chemistry Practical IIThis course is design to increase and strengthen students’ understanding on the concepts and principles in Chemical Kinetics and Electrochemistry through experiments conducted in the laboratory. The experiments selected for the course illustrate concepts explored in the Chemical Kinetics and Electrochemistry lecture, enable students to test the relation of theories with experiments, learn experimental methods used by physical chemist, develop laboratory skills and the ability to work independently, learn how to effectively present scientifi c results and appreciate the limitations inherent in both theoretical treatments and experimental measurements

SSCC 2312 - Laboratory Safety and ManagementThe emphasis of this subject is to expose the students in the fundamental concept and theory related to Laboratory Organization and Laboratory Design, Material and Chemical managements, Dangerous Instrumentations, Safety in Laboratory and Chemical Store, Safety Procedures and Documentations. The basic knowledge on Quality Laboratory System, Legal and Environmental Act 1974, Chemistry Act 1975, Machine and Factory Act 1967 and Occupational Safety and Health Act 1994 will also be introduced.

SSCM 1303 - Computer LiteracyThis course introduces basic computer data processing with no computer background required or assumed. It provides a general knowledge about computing including the what, the do’s, the don’ts and its operation. The emphasis is on developing skills in handling Microsoft Offi ce such as MS Word, MS PowerPoint, MS Excel and MS Offi ce. Mathematical Software such as Maple and SPSS will also be introduced.

SSCC 2713 – Coordination ChemistryThis course introduces the different types of ligands used in coordination chemistry and how their different modes of coordination lead to isomerism. The systematic way of naming metal complexes will be outlined. The different ideas on bonding in metal complexes will be discussed and this will help students to understand the advantages and limitations of each theory. The substitution mechanistic pathways of metal complexes and its kinetics and how this mechanism is determined experimentally are illustrated. The electronic spectra and colour properties of the metal complexes will be explained. Spectroscopic characterization techniques of coordination compounds are also covered

SSCC 2851 – Inorganic Chemistry Practical IIThe emphasis of this course is to provide the students with an appreciation for the synthesis and characterizations of coordination compounds. It is also aimed to provide the students with a degree of competence in the laboratory skills required for accurate and precise chemical analysis. The experiments selected for this course include developing skills in the synthesis and isolation of coordination compounds or metal complexes with different kinds of ligands followed by characterization

by conventional methods such as gravimetry, titrimetry and melting point, including characterization techniques used by coordination chemists such as UV-visible, NMR and FTIR spectroscopies. The principles of the spectroscopic methods are described and discussed with respect to their respective spectral outputs and interpretation obtained from the as-synthesized coordination compounds.

SSCC 2473 – Molecular SpectroscopyThe emphasis of this course is to expose the students to the fundamental principles of molecular spectroscopy focusing on molecular energy levels and their interaction with electromagnetic radiation, spectral outputs and their interpretation in relation to molecular structure. The branches of spectroscopy covered include rotational spectroscopy, vibrational spectroscopy (IR and Raman), electronic spectroscopy (absorption and emission) and spin resonance spectroscopy (NMR and ESR). The general spectrometer components and the requirements for high resolution spectrum of FTIR and FT NMR will be discussed to represent the practical aspects of this subject.

SSCC 2243 - Principles of Analytical ChemistryThis course provides a basic introduction to quantitative chemical analysis, with emphasis on classical chemical methods. The course introduces general analytical techniques that include sampling, sample preparation, data analysis and method validation; and classical analytical methods that include gravimetric and volumetric techniques. The volumetric method will emphasize on acid-base, precipitation, complexation and redox titrations.

SSCC 2861 - Analytical Chemistry Practical IThe subject introduces students to Good Laboratory Practices in classical (wet chemistry) methods. Experiments are designed to complement the topics covered in Principles of Analytical Chemistry (SSCC 2243), which include gravimetric and volumetric techniques. Part of the course consists of a short laboratory project.

SSCC 3233 - Instrumental AnalysisThis course introduces the principles, instrumentation, and application of spectroscopic and chromatographic methods used in analytical chemistry. Emphasis is on ultraviolet-visible (UV-Vis) spectroscopy, fl uorescence spectroscopy, mass spectrometry, atomic absorption spectroscopy and emission spectroscopy, liquid chromatography and gas chromatography.

SSCC 3871 - Analytical Chemistry Practical IIThe subject introduces students to laboratory work related to instrumental methods of analysis. Experiments complement topics in Instrumental Analysis (SSCC 3233) that include techniques in ultra violet-visible spectroscopy, atomic absorption spectroscopy, fl uorescence spectroscopy, and atomic fl ame emission photometry

SSCC 3323 – Principles of Polymer ChemistryThis course is to introduce the students about polymers as materials with characteristic mechanical and physical properties which are controlled by the structure and the methods of synthesis. Topics covered in the course are polymer synthesis, the reaction of monomers to form polymers, copolymers or terpolymers either by chain-growth, step-growth (polycondensation), ring-opening polymerisations. Polymerization mechanisms and polymerization kinetics related to degree of polymerization and molecular weight control and molecular distributions will be discussed in detail. Physical aspect of polymer (polymer structures, morphology, amorphous state and glass-transitions temperature Tg, crystalline state and melting temperature Tm) will also be discussed. The inter-related molecular weights and molecular weight distributions on morphologies and their effects on the processing and fi nal properties of polymers will be emphasized, as well as the structure-properties relation that infl uenced the overall properties of a polymer.


SSCC 3423 Industrial Chemical ProcessThis course is designed to discuss the basic principles involved in chemical industrial processes. It involves dimension analysis, material and energy balances, basic unit operations, basic separation processes and process controll. Dimension analysis stresses on the basic units, dimensions, conversions of units which usually applied in scientifi c and engineering calculations. Material and energy balances discuss the fundamentals of material and energy balances calculations in non-reactive and reactive systems as well as recycle, by pass and purge on chemical process. Basic unit operations and separation processes include type of reactors, heat exchanger, distillation, absorption and fi ltration processes. Process controll discuss the process fl ow, fl ow-diagram and automation on chemical industries.

SSCC 3533 - Application of Computer in ChemistryThis course introduces the application of computer methods in chemistry. Topics discussed include regression analysis, multivariate calibration, pattern recognition, experimental design and optimisation, handling of chemical structures, chemical databases, molecular modelling, and artifi cial intelligence. Applications of these methods in data analysis, structural searching, prediction of properties and drug design are discussed.

SSCC 3243 - Separation MethodsThis course introduces the basic principles, instrumentation and applications of separation methods commonly used in chemical analysis. A general overview and classifi cations of common separation methods is fi rst given followed by their basic principles of separation. Major separation methods and its applications discussed include extraction, chromatography and electrophoresis.

SSCU 3905 – Industrial TraningAll students under this program are compulsory to do industrial training at local or oversea chemical industries. Students are required to apply for the industrial attachment that will take for 10 weeks. Students will be exposed to real industrial practice with supervisors assigned by the faculty and the industry. Students will be assessed on the reports written by the students submitted to the faculty at the end of the training as well as the reports from both supervisors.

SSCU 4902 – Undergraduate Project IStudents are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of chemistry and documented the fi ndings. Students will learn to gather information of the related topic through literature survey/review activities, construct research methodology, built-up results and discussion (if manageable and suffi cient data were obtained), anticipate the expected results (if no data were obtained), and write conclusion and references. Finally, students are required to submit a research proposal and a draft project/research report comprising of Title, Introduction, Literature Survey/Review, Research Methodology/Experimental, Results and Discussion/Expected Results, Conclusion, and References

SSCU 4904 – Undergraduate Project IIStudents are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of chemistry and documented the fi ndings. Students will learn to gather information of the related topic through literature survey/review activities, construct research methodology, built-up results and discussion, come-up with conclusion and references. Finally, it is compulsory for the students to submit a proceeding and a project or research report comprising of Title, Introduction, Literature Survey/Review, Experimental, Results and Discussion, Conclusion, Future Work and References.

SINOPSIS KURSUS ELEKTIF KIMIA INDUSTRI

SSCC 3643 - Application of SpectroscopyThis course discusses the principle and application of infrared (IR), nuclear magnetic resonance (NMR), ultraviolet (UV) spectroscopies and mass spectrometry (MS) for structural determination of organic compounds. In addition, elemental analysis for determination of molecular formula and index of hydrogen defi ciency will be discussed.

SSCC 4223 - Environmental ScienceThe subject will focus on the fundamental concepts of environmental studies and sustainability. Emphasis will be given on sustaining the ecosystem, biodiversity, natural resources and environmental quality. Awareness and practical application of green technology will also be discussed.

SSCC 4663 - Natural Products Chemistry This course introduces the fundamental concepts of natural products chemistry. The biosynthetic pathway of the secondary metabolites such as terpenes, fl avonoids and alkaloids will be discussed. Isolation, classifi cation and structural identifi cation of terpenes, fl avonoids and alkaloids will be covered. Reaction and synthesis associated with these compounds will be further examined.

SSCC 4273 - Forensic Science This course provides an introduction to forensic science and the legal aspects. The roles of forensic scientist as crime scene investigator to laboratory analyst and fi nally as an expert witness in court are highlighted. Forensic analyses of paints, glass, hairs & fi bres, fi re debris, question document, drugs of abuse, blood, semen and saliva are covered in this course.

SSCC 4483 - Corrosion ChemistryThis subject introduces the concept of corrosion; which includes defi nition and importance of corrosion, the driving force for corrosion reactions, the rates of electrochemical reactions, rates of electrochemical corrosion reactions, characteristic forms of electrochemical corrosion, prevention and control of electrochemical corrosion and high temperature corrosion/oxidation and its control. Upon completion, students should be able to develop and apply knowledge to describe the electrochemical corrosion processes and its prevention. Students should also be able to rationalize the importance of corrosion effect in industrial application and our lives.

SSCC 4683 - Biotechnology This course aims to give students an understanding of the multidisciplinary nature of biotechnology and the basic principles involved. It includes understanding of microbiology, biochemistry and simple engineering aspects of scale-up bioprocesses. The course mainly focuses on industrial and environmental aspects of biotechnology and applications of biotechnology in the environment: bioremediation; sewage and wastewater treatment processes and bioleaching. Topics such as cloning, stem cells technology or any other current topic is included as a special topic of interest.


SSCC 4743 - Materials Chemistry An overall introduction to the importance of materials, and how chemistry controls its properties. Exploration of materials in terms of bonding such as ionic, covalent, metallic, Van der Waals and phases. Exploration of ‘property’; mechanical, electrical, optical and thermal. Some defi nitions, formulae, and measurements of simple properties of the materials. Variety of material which includes metals, semiconductors, superconductors, ceramics, glass, composites, layered materials (clays) and polymer. Introduction to advanced materials; carbon nanotubess, nanocomposite. Composites, such as Metal Matrix Composite, Polymer Matrix Composite and Ceramic Matrix Composite. Polymers and the Specialty polymers: functionalized polymers and electrically-conducting polymers. The co-relation between structure of materials with respect to their physico-chemical and mechanical properties. Describe various methods of synthesis, processes and applications of various materials according to industrial perspective. Characterization of materials using modern and sophisticated instruments.

SSCC 4253 - Food AnalysisThe subject is designed to provide students with an understanding of the principles and procedures for the analysis of the chemical components of food. Introduction to food chemistry, food regulations, sample handling and preparation for data collection, reporting and analysis of data are included. Key analytical and separation techniques are discussed, including proximate analysis, classical techniques, and relevant modern instrumental techniques.

SSCC 4673 - Industrial Organic Chemistry The course is intended to expose the students to organic chemicals in industries. The scope includes the organic chemicals used in foods, pharmaceuticals, cosmetics and agro-based industries. The synthesis and analysis of some selected chemicals will be discussed. Industrial chemicals such as fl avours and fragrances; vitamins; antioxidants; dyes and colouring materials; common drugs including antibiotics, anti-infl ammatory, antipyretic, anticancer, antihypertensive and antidepressant etc.; soaps and detergents; insecticides; fungicides; pesticides will be covered. Basic knowledge and uses of phytochemicals from herbs and spices will be introduced.

SSCC 4293 - Radioanalytical ChemistryThis course focuses on the principles of radioactivity and their applications in analytical chemistry including use of radiotracers in quantitative work. Error in techniques used will also be covered. Some of the analytical approaches discussed are isotope dilution analysis; radiometric titrations including selection of radiotracers. Some techniques of using radiotracers such as liquid scintillation techniques, its principles and applications will be discussed. Other related techniques include radioimmunoassay, neutron activation analysis, radiocarbon dating and geological chronology, radiochromatography. Some industrial applications in industry will also be covered..

SSCC 4353 - Consumer ChemistryIntroduces students to various consumer products that are chemically based or in need of chemical formulations. These products include foods, cosmetics, household products, pharmaceuticals, and chemicals related to agriculture. Legislation and current concerns and issues will also be examined. Upon completion, students should be able to identify chemical formulations and functions of chemical components, formulate new products or make modifi cations on chemical based consumer products. Students should be able to develop and apply knowledge in understanding the importance of using safe chemicals for consumer products.

SSCC 4493 - Surface and Colloid ChemistryStudents are introduced to the fundamental concept of all type of surfaces and interfaces, to understand the surface phenomenon such as physical and chemisorption process, classifi cation of adsorption isotherm, capillary, wetting and spreading. For colloid chemistry, the course will discuss the classifi cation of colloid, colloidal phenomena and colloidal stability. Upon completion, students should be able to develop and apply knowledge in describing several absorption models and the difference between physisorption and chemisorption and properties and stability of colloidal system.

SSCC 4753 - Catalytic ChemistryThis course introduces students to the role of catalysts in chemical and biological processes. Kinetics and reaction mechanism of catalysed reactions and structural aspects of catalysts will be highlighted. Emphasis is on the factors that infl uences catalysts reactivity in both homogeneous and heterogeneous catalysis. Different methods of preparation and characterization of catalytic material and the underlying principles with regard to industrial application of the catalyst will be discussed. Upon completion, students should be able to develop and apply knowledge in explaining the principles of catalysis in industrial processes, identify methods of preparing and characterizing catalysts such as supported metal catalysts, zeolites and metal oxides.


SINOPSIS KURSUS TERAS MATEMATIKSSCM 1012 - Introduction to Mathematics Programme Mathematics is among the most fascinating of all intellectual disciplines, the purest of all art forms, and the most challenging of games. It is a study of quantity, space, and change. Mathematicians seek out patterns, formulate new conjectures, and establish truth by rigorous deduction from appropriately chosen axioms, defi nitions and theorems. Mathematics is applied as an essential tool in many fi elds, including natural sciences, engineering, medicine, and the social sciences. Applied mathematics, the branch of mathematics concerned with application of mathematical knowledge to other fi elds, inspires and makes use of new mathematical discoveries and sometimes leads to the development of entirely new mathematical disciplines, such as statistics and operational research. The study of mathematics is not only exciting, but important: mathematicians have an opportunity to make a lasting contribution to society by helping to solve problems in such diverse fi elds as medicine, management, economics, government, computer science, physics, psychology, engineering, and social science.

SSCM 1023 - Mathematical Methods IThe course revises and extends Matriculation and STPM topics such as differentiation and integration and includes topics such as complex numbers and differential equations, which may be new to many students.

Topics covered include parametric equations, functions, polar coordinates, vectors, and complex numbers. Students will learn how to defi ne functions, and plot the graphs, using the Cartesian as well as polar coordinates; solve problems involving complex numbers and vectors. Additional topics include limits and continuity, differentiation techniques and its applications, integration techniques including improper integrals. Upon completion, the students would have acquired some quite powerful tools of analysis. This is also an introductory course on differential equations. Topic includes fi rst order ordinary differential equations (ODEs). Students will learn how to classify and solve fi rst order ODEs.

SSCM 1103 - StatisticsThe course is an introduction to statistics, reviewing some descriptive statistics which includes probability and random variables. Then, the topic of sampling distributions and inferential statistics which include estimation procedures and hypothesis testing is covered. The latter using the method of analysis of variance when more than two means are involved. Also, simple linear regression and contingency table are introduced. Students will be trained in the use of computer software such as Microsoft Excel and SPSS.

SSCM 1303 – Computer LiteracyThis course introduces basic computer data processing with no computer background required or assumed. It provides a general knowledge about computing including the what, the do’s, the don’ts and its operation. The emphasis is on developing skills in handling Microsoft Offi ce such as MS Word, MS PowerPoint, MS Excel and MS Offi ce. Mathematical Software such as Maple and SPSS will also be introduced.

SSCM 1033 - Mathematical Methods IIThis course continues and extends the techniques introduced in Mathematical Methods I, with further differential equations and calculus of multivariable functions. Topics include linear second order ODEs with constant coeffi cients, functions of several variables, partial differentiation and multiple integrations. Students will learn how to classify and solve second order linear ODEs with constant coeffi cients using the method of undetermined coeffi cients and variation of parameters. They will also learn to determine the domain and range, techniques of graph sketching, and limit & continuity, fi nd (partial) derivatives and evaluate (double and triple) integrals, pertaining to a function of two and three variables. The use

of cylindrical and spherical coordinates is also highlighted. Applications include fi nding the volume, mass, centre of gravity, and moment of inertia of a solid.

SSCM 1313 - Computer ProgrammingThis course will provide the basic programming skill in Computer Programming. Topics include fl owcharts, algorithms, basic syntax in C, and process of compiling, pre-processing components, operators, loops, branches, data/variable types, strings, arrays, functions, pointer and structure. Students will learn to write an effi cient and maintainable programs using Microsoft Visual C/C++ software. The lectures are supplemented with the non-trivial lab exercises.


SSCM 1703 - Differential Equations IAn introductory fi rst course in differential equations. Topics include fi rst order ordinary differential equations (ODEs), linear second order ODEs with constant coeffi cients, the Laplace transform and its inverse, Fourier series, and elementary partial differential equations (PDEs). Students will learn how to classify and solve fi rst order ODEs, solve second order linear ODEs with constant coeffi cients using the method of undetermined coeffi cients and variation of parameters, use the technique of Laplace transforms to solve ODEs with specifi ed initial or boundary conditions, and use the technique of separation of variables to solve initial-boundary value problems involving heat and wave equations and boundary value problems involving Laplace equation.

SSCM 2103 - Mathematical StatisticsThe course is about mathematical statistics which covers set theory and probability, univariate and bivariate random variables, transformation of variables, mathematical expectation for univariate and bivariate random variables, Chebychev’s Inequality, moment generating function for univariate and bivariate variables, order statistics, limiting distribution. Upon completion students should be able to understand the mathematical concepts behind the statistical methods.

SSCM 2423 - Numerical Method IThis course discuss various numerical methods that can be used to solve problems involving non-linear equations, linear system, interpolation and curve fi tting, numerical differentiation and integration, eigenvalue problem, ordinary differential equation and partial differential equation.

SSCM 2673 - iscrete MathematicsThis course introduces the applications of discrete mathematics in the fi eld of computer science. It covers sets, logic, proving techniques, combinatorics, functions, relations, graph theory and algebraic structures. These basic concepts of sets, logic functions and graph theory are applied to Boolean Algebra and logic networks, while the advanced concepts of functions and algebraic structures are applied to fi nite state machines and coding theory.

SSCM 2793 - Vector CalculusVector valued Function: Defi nition of vector valued function, position vector and graph, vector differentiation and Integration, unit tangent vector, unit normal vector, unit bi normal vector, curvature, radius of curvature, torsion and Frenet-Serret formulas. Del operator, gradient, divergence, curl, normal vector to the surface, directional derivative, rate of change. Line Integral: line integral in two and three dimension, work, Green’s Theorem, potential function and conservative force fi eld. Surface Integral: surface integral for scalar functions, surface area, surface integral for vector functions, Gauss’s Theorem, and Stokes’s Theorem.


SSCM 2803 - Mathematical Modelling IIntroduces the basic principles of mathematical modelling. Emphasis is on some underlying general concepts related to mathematical modelling and differential equations. These include topics in fi rst and second-order differential equations, mathematical models and numerical methods, systems of differential equations, nonlinear systems and phenomena, eigen-values and boundary value problems. Upon completion, students should exhibit the ability to analyze resulting models by making use of both classical and numerical mathematical techniques and the essential knowledge and basic skills of mathematical modelling in describing, comprehending and predicting the behaviour of various physical, biological, mechanical processes and as well as other relevant dynamical systems.

SSCM 2043 - Mathematical Method IIComprises of two parts. The fi rst part is concerned with Partial Differential Equations. Linear and non-linear fi rst order equations. Classifi cation of linear second order equations. Wave and heat equations in one-dimensional and Laplace equation in two-dimensional Cartesian coordinates. While the second part deals with Complex variables. This part of the course introduces calculus of functions of a single complex variable. Topics covered include the algebra and geometry of complex numbers, complex differentiation, complex integration.

SSCM 2613 - Advanced CalculusA formal study of real numbers, subsets of the real line, functions, sequences and series. Functions of a single variable are studied with regards to types, limits, continuity, differentiability and integrability. Students learn to formulate and rigourously prove theorems on analysis using various kind of methods such as contradiction, induction, contrapositive etc. Prior knowledge of simple logic of truth is helpful for quick understanding but not essential

SSCM 2773 - Differential Equations IIInitial value problems for fi rst order: Existence and uniqueness theorem, Lipschitz’s condition. Picard’s iteration. Gronwall’s inequality. Continuity with respect to initial data. Changing differential equations of order n to matrix form and vice versa.

Second order linear equation: superposition principle. Fundamental solution and Wronskian. Second solution from a known solution. Cauchy-Euler equation. Nonhomogeneous equation and variations of parameter method. Ordinary, singular and regular singular points for second order linear differential equation. Power series solution around ordinary points. Legendre’s equation. Power series solution around regular singular points; Frobenius’s method. Bessel’s equation Cayley-Hamilton’s theorem: exponential matrix. Fundamental matrix and fundamental solution: general solution. Liouville theorem. Solving linear differential equation of any order with constant coeffi cients by matrix method. Transition matrix and solution of linear differential equation with variables coeffi cients.

Autonomous systems and phase space: trajectory, critical point, stability, asymptotic stability. Linear systems with constant coeffi cients: stable node, saddle point, centre and spiral point. Linearization of nonlinear system. Stability of nonautonomous equations; stability for linear systems. Stability theorem for autonomous equation: Liapunov functions.

SSCM 2833 - Linear ProgrammingIntroduces the basic methodology of Operational Research (OR). Mainly deals with Linear Programming (LP) and related topics such as duality, sensitivity analysis, Transportation Problem, and Integer Linear Programming. Besides manual calculations, students learn how to use computer packages to solve and analyse problems.

SSCM 3423 - Numerical Methods IIThis course discusses problem using numerical methods that involve systems of nonlinear equations, ordinary differential equation (initial and boundary value problems) and partial differential equation.

SSCM 3523 - Modern AlgebraThis course consists of two parts. The fi rst part includes introduction to groups, types of groups, isomorphism between groups, composition of groups to form a direct product, and types of subgroups including normal subgroups and factor groups. The second part is a selected topic of Sylow Theorems and their applications.

SSCM 3703 - Partial Differential EquationsWave, heat and Laplace equations in one and two-dimensional spaces. Solution of equations in Cartesian, cylindrical and spherical coordinate systems using the method of separation of variables. Selected non-homogeneous and non-homogenous boundary conditions wave and heat equations.

SSCU 3623 - Research Mythology and Data RetrievalThis course teaches the students on principles of research methodology and information retrieval. Topics include research philosophy and objectives, literature study and review, choosing and defi ning research problems and design, preparing and writing research proposals, technical report writing (the elements of technical writing), types of technical report writing, dissertation writing, public speaking (preparation and presentation) and information retrieval (search strategies). Presentation of assignment is also an important component in this course.

SSCU 4902 - Undergraduate Project 1Students are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of mathematics and document their fi ndings. Students will learn to gather information on chosen topics through literature survey/review activities, construct research methodology, anticipate expected results, write current fi ndings and references. Finally, students are required to submit a research proposal and a draft project/research report comprising of Title, Introduction, Statement of Problem, Research Objectives, Literature Survey/Review, Research Methodology, Expected Findings, Conclusion and References.

SSCU 4909 - Undergraduate Project 2Students are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of mathematics and document their fi ndings. Students will learn to gather information on chosen topics through literature survey/review activities, construct research methodology, anticipate results, analyze fi ndings, draw conclusion, write references, and to suggest further research. Finally, students are required to submit a report comprising of Title, Introduction, Statement of Problem, Research Objectives, Literature Survey/Review, Research Methodology, Analysis of Findings, Conclusion and References.

SSCC 1003 - Principles of ChemistryThis course strengthens principles of chemistry knowledge before proceeding to more specialized and higher levels chemistry subjects. The fi rst part of this course exposes students to fundamentals of atoms and molecules and concepts which are known to be the main sources of chemical processes. The formation of chemical bonding, structure of molecules and properties of compounds are discussed. The second part of this course concentrates on stoichiometry and the relation between reacted species in reactions. The last part of this course strengthen student in term of fundamental knowledge of organic chemistry and introduces students the ideas of green chemistry concept.

SSCP 1143 - Mechanics (L1)This course mainly discusses motion of a body or a system. Beginning with the basic and derived physical quantities and vector as mathematical tool, various types of motion such linear, free-fall, projectile, circular, rotational and simple harmonic motions are described. Other topics such as equilibrium, elasticity, gravitation and fl uids mechanics illustrate the application of a body in motion under the infl uence of a force.


SINOPSIS KURSUS ELEKTIF MATEMATIKSSCM 3503 - Complex VariablesThis course introduces calculus of functions of a single complex variable. Topics covered include the algebra and geometry of complex numbers, complex differentiation, complex integration, complex series including Taylor and Laurent series, the theory of residues with applications to the evaluation of complex and real integrals, and conformal mapping with applications in solving boundary value problems of science and engineering.

SSCM 3533 - Set Theory & LogicIntroduces axiomatic set theory and elementary logic. Since set theory and logic form the foundation of mathematics and are greatly intertwined, informal approach to sets are fi rst reviewed to gather vocabulary for a study of logic. The logic parts include propositional algebra and predicate calculus, arguments and methods of proof. Set theory includes the basic axioms and defi nitions. Basic laws are derived rigorously using methods of logic. Further topics for introducing modern advanced mathematics include properties of numbers, sets and relations, equivalence relations, functions and cardinality.

SSCM 3793 - Calculus of VariationsThis course discusses mainly the extremals of functionals. Beginning with a review of similar concepts in functions of many variables, the concepts of functional and variational problems are introduced. Topics include analytical methods of solution (extremals of functionals) analytically and selected numerical methods. Upon completion, the students should be able to locate and identify extremizing functions as solutions to variational problems, based on the necessary and the suffi cient conditions for an extremum, solve some basic applied problems, and know how to use the direct methods for fi nding the extremum.

SSCM-3153 - nferential StatisticsThis course introduces the theory of inferential statistics. It is concerned with the frequentist approach to inference covering point and interval estimation of parameters and hypothesis testing. Properties of estimators such as unbiasedness and suffi ciency are applied to estimators of parameters of various distributions. Test of statistical hypotheses include certain best test, uniformly most powerful tests, likelihood ratio tests and chi-square tests.

SSCM 3353 - C++ ProgrammingSoftware structures, concepts, and conventions that support C++ object-oriented programming. Identifi cation of class structure, problem partitioning, and abstraction. Components of object-oriented language to algorithmic program design: objects, methods and events. Program control, abstraction of data, variable types, arrays, functions and pointers. Scientifi c problem modeling and simulation, and graphical-user interface design for data visualization. Case studies and software development projects on selected problems in numerical methods, graph theory and discrete-event simulations.

SSCM 3543 - Fields & Ring TheoryIntroduces the concepts of rings and fi elds. Topics include ring, integral domain, homomorphism, quotient ring, fi eld, fi eld of quotients, vector space, extension fi eld and algebraic extension. Emphasis is given to both the subject matter and the structure of proofs.

SSCM 3543 – Number TheoryThis is an appreciation course in the subject, focusing on the basic topics which are within the grasp of

students possessing suffi ciently high maturity in mathematical reasoning. Topics include, Properties of Integers: Well ordering property, division, greatest common divisor and Euclidean algorithms, primes and unique factorization theorem. Congruence, computation of mod inverses, solving congruence equations, Fermat’s little theorem and Euler’s theorem. Sum of squares. Counting results using the Mobius Inversion Formula, Pythagorean Triples and Quadratic Reciprocity. Although no sophisticated techniques are used, the students should appreciate the beauty and elegance of tools used in the subject.

SSCM 3673 – Functional AnalysisMetric spaces: open set, closed set, neighbourhood, convergence, Cauchy sequences, completeness. Normed spaces: vector space, normed space, Banach space, fi nite dimensional normed space and subspaces, compactness and fi nite dimension, linear operators, bounded and continuous linear operators, linear functionals, linear operators and functionals on fi nite dimensional spaces. Banach Fixed Point Theorem: contraction mapping and Banach Fixed Point Theorem,error bound in iteration, applications to linear equations, application to differential equations, application to integral equations.

SSCM 3753 – Fluid MechanicsComprises two parts. The fi rst part is concerned with fl uid kinematics while the second part deals with the derivation and the solution of the equations of motion for inviscid and viscous fl uids. Students learn to apply mathematical techniques to solve fl uid fl ow problems.

SSCM 3523 – Modern AlgebraThis course consists of two parts. The fi rst part includes introduction to groups, types of groups, isomorphism between groups, composition of groups to form a direct product, and types of subgroups including normal subgroups and factor groups. The second part is a selected topic of Sylow Theorems and their applications.

SSCM 4163 – Stochastic ProcessThis course begins with the fundamental of stochastic processes that is the probability theory, and proceeds to discussing major stochastic processes, including Markov chains; discrete and continuous Markov chains, Poisson processes, and renewal theory. Applications to inventory problems, equipment replacement and queuing theory are also dealt with through examples. Upon completion, students should be able to recognize the relevance of mathematical techniques presented in solving real-world problems, apply the techniques, and demonstrate knowledge of various random processes.

SSCM 4633 – Fuzzy Set TheoryThe course starts with brief discussion on an overview of crisp sets. It then follows with basic defi nition and important terminologies which include - cut, Extension Principle, and operation on Fuzzy sets. Fuzzy Arithmetic on Fuzzy Numbers including Operations on Intervals and Fuzzy Numbers, Lattice of Fuzzy Numbers are also thoroughly highlighted. Fuzzy Relations and Fuzzy Graphs are also discussed. Lastly we deal with Fuzzy Analysis and Uncertainty Modelling.

In general, the course provides on the general concepts of fuzzy sets and its operations. The emphasis is also given for its applications in Uncertainty Modelling

SSCM 4653 – Applied Abstract AlgebraIntroduces some basic applications of abstract algebra. Topics include applications of modern algebra in symbolic computations, fi nite fi elds, error correcting codes. Computer packages such as Maple will be used.


SSCM 4683 - TopologyThis course is an introduction to the basic concepts of modern topology: metric spaces, topological spaces, connectedness, compactness, completeness, quotient spaces, manifolds, and classifi cation of surfaces. Not only the course emphasizes the geometric aspects of topology, some applications to analysis will also be discussed. The material is very conceptual in nature, therefore it is all about proving abstract theorems, applying those theorems to examples, and fi nding counter-examples to false statements.

SSCM 4733 – Dynamical SystemsIntroduces discrete and continuous dynamical systems, with the ultimate goal of introducing chaos and fractals. For continuous autonomous dynamical systems students learn how to fi nd and classify the fi xed points, periodic points and their stability. For a discrete system, they learn how to fi nd the fi xed points, periodic points and orbits of various periods. Applications include population growth, including one in a prey-predator environment. Students will study various attractors including the Lorenz attractor. Computer software will be used to simulate and study the dynamical systems.

SSCM 4623 – Non-Euclidean GeometryThis course is a survey of main concepts of Euclidean geometry with the emphasis on the axiomatic approach, constructions and logic of proof including historical aspects. A study of axioms of Euclidean geometry, inference rule, some basic theorems of Euclidean geometry and rigorous proofs will be offered. Non-Euclidean geometry is introduced. The similarities and differences between Euclidean and non-Euclidean geometries will be discussed.

SSCM 4763 – Computational Fluid DynamicsThis is an introductory course on Computational Fluid Dynamics (CFD) where students are exposed to the techniques of obtaining the numerical solution to fl uid fl ow problems using computer. Historical development, philosophy and the signifi cance of CFD are discussed. The governing equations of fl uid dynamics are derived from the fundamental physical principles. The derivation of fi nite difference approximations to derivatives is revised. Discretization is based on both explicit and implicit techniques. The application to classic fl uid fl ow problems such as Couette fl ow and other unidirectional fl ows for viscous fl uids, supersonic and subsonic fl ow for inviscid fl uids will be discussed.

SSCM 4783 – Quantum MechanicsThis course introduces the basics of quantum mechanics. It covers the topic relating to the failure of classical mechanics and steps towards wave mechanics and Schrodinger equation. The concepts and formalism of quantum mechanics are applied to one dimensional problem, angular momentum, the hydrogen atom and electron spin and total angular momentum.

SSCM 4813 – Optimal ControlThis course introduces the optimal control theory. The discussion includes defi nitions and classifi cation of system control types. Topics include optimal control problems such as necessary and suffi cient conditions using calculus of variation. Upon completion, students should exhibit understanding of the basic concepts and principles of mathematical control systems. The students should also be able to formulate state space equation, determine systems characteristics and solve basic optimal control problem using variational approach and dynamic programming.

SINOPSIS KURSUS TERAS MATEMATIK INDUSTRISSCM 1002 - Introduction to Industrial Mathematics Programme Mathematics is among the most fascinating of all intellectual disciplines, the purest of all art forms, and the most challenging of games. It is a study of quantity, space, and change. Mathematicians seek out patterns, formulate new conjectures, and establish truth by rigorous deduction from appropriately chosen axioms, defi nitions and theorems. Mathematics is applied as an essential tool in many fi elds, including natural sciences, engineering, medicine, and the social sciences. Applied mathematics, the branch of mathematics concerned with application of mathematical knowledge to other fi elds, inspires and makes use of new mathematical discoveries and sometimes leads to the development of entirely new mathematical disciplines, such as statistics and operational research. Industrial mathematics is one of the strands of applied mathematics aimed at industries. The study of mathematics is not only exciting, but important: mathematicians have an opportunity to make a lasting contribution to society by helping to solve problems in such diverse fi elds as medicine, management, economics, government, computer science, physics, psychology, engineering, and social science. This course aims at exposing students to this wonderful world of mathematics.

SSCM 1023 - Mathematical Methods 1The course revises and extends Matriculation and STPM topics such as differentiation and integration and includes topics such as complex numbers and differential equations, which may be new to many students.

Topics covered include parametric equations, functions, polar coordinates, vectors, and complex numbers. Students will learn how to defi ne functions, and plot the graphs, using the Cartesian as well as polar coordinates; solve problems involving complex numbers and vectors.

Additional topics include limits and continuity, differentiation techniques and its applications, integration techniques including improper integrals. Upon completion, the students would have acquired some quite powerful tools of analysis.

This is also an introductory course on differential equations. Topic includes fi rst order ordinary differential equations (ODEs). Students will learn how to classify and solve fi rst order ODEs.

SSCM 110 - Statistics The course is an introduction to statistics, reviewing some descriptive statistics which includes probability and random variables. Then, the topic of sampling distributions and inferential statistics which include estimation procedures and hypothesis testing is covered. The latter using the method of analysis of variance when more than two means are involved. Also, simple linear regression and contingency table are introduced. Students will be trained in the use of computer software such as Microsoft Excel and SPSS.

SSCM 1303 - Computer LiteracyThis course introduces basic computer data processing with no computer background required or assumed. It provides a general knowledge about computing including the what, the do’s, the don’ts and its operation. The emphasis is on developing skills in handling Microsoft Offi ce such as MS Word, MS PowerPoint, MS Excel and MS Offi ce. Mathematical Software such as Maple and SPSS will also be introduced.

SSCM 1033 - Mathematical Methods IIThis course continues and extends the techniques introduced in Mathematical Methods I, with further differential equations and calculus of multivariable functions.Topics include linear second order ODEs with constant coeffi cients, functions of several variables, partial differentiation and multiple integrations. Students will learn how to classify and solve second order linear ODEs with constant coeffi cients using the method of undetermined coeffi cients and variation of parameters. They will also learn to determine the domain and range, techniques of graph sketching, and limit & continuity, fi nd (partial) derivatives and evaluate (double and triple) integrals,


pertaining to a function of two and three variables. The use of cylindrical and spherical coordinates is also highlighted. Applications include fi nding the volume, mass, centre of gravity, and moment of inertia of a solid

SSCM 1313 - Computer ProgrammingThis course will provide the basic programming skill in Computer Programming. Topics include fl owcharts, algorithms, basic syntax in C, process of compiling, pre-processing components, operators, loops, branches, data/variable types, strings, arrays, functions, pointer and structure. Students will learn to write an effi cient and maintainable programs using Microsoft Visual C/C++ software. The lectures are supplemented with the non-trivial lab exercises.


SSCM 1703 - Differential Equations IAn introductory fi rst course in differential equations. Topics include fi rst order ordinary differential equations (ODEs), linear second order ODEs with constant coeffi cients, the Laplace transform and its inverse, Fourier series, and elementary partial differential equations (PDEs). Students will learn how to classify and solve fi rst order ODEs, solve second order linear ODEs with constant coeffi cients using the method of undetermined coeffi cients and variation of parameters, use the technique of Laplace transforms to solve ODEs with specifi ed initial or boundary conditions, and use the technique of separation of variables to solve initial-boundary value problems involving heat and wave equations and boundary value problems involving Laplace equation.

SSCM 2103 - Mathematical StatisticsThe course is about mathematical statistics which covers set theory and probability, univariate and bivariate random variables, transformation of variables, mathematical expectation for univariate and bivariate random variables, Chebychev’s Inequality, moment generating function for univariate and bivariate variables, order statistics, limiting distribution. Upon completion students should be able to understand the mathematical concepts behind the statistical methods.

SSCM 2423 - Numerical Methods IThis course discuss various numerical methods that can be used to solve problems involving non-linear equations, linear system, interpolation and curve fi tting, numerical differentiation and integration, eigenvalue problem, ordinary differential equation and partial differential equation.

SSCM 2673 - Discrete MathematicsThis course introduces the applications of discrete mathematics in the fi eld of computer science. It covers sets, logic, proving techniques, combinatorics, functions, relations, graph theory and algebraic structures. These basic concepts of sets, logic functions and graph theory are applied to Boolean Algebra and logic networks, while the advanced concepts of functions and algebraic structures are applied to fi nite state machines and coding theory.

SSCM 279 - Vector CalculusVector valued Function: Defi nition of vector valued function, position vector and graph, vector differentiation and I ntegration, unit tangent vector, unit normal vector, unit bi normal vector, curvature, radius of curvature, torsion and Frenet-Serret formulas. Del operator, gradient, divergence, curl, normal vector to the surface, directional derivative, rate of change. Line Integral: line integral in two and three dimension, work, Green’s Theorem, potential function and conservative force fi eld. Surface Integral: surface integral for scalar functions, surface area, surface integral for vector functions, Gauss’s Theorem, and Stokes’s Theorem.

SSCM 2803 - Mathematical Modelling IIntroduces the basic principles of mathematical modelling. Emphasis is on some underlying general concepts related to mathematical modelling and differential equations. These include topics in fi rst and second-order differential equations, mathematical models and numerical methods, systems of differential equations, nonlinear systems and phenomena, eigen-values and boundary value problems. Upon completion, students should exhibit the ability to analyze resulting models by making use of both classical and numerical mathematical techniques and the essential knowledge and basic skills of mathematical modelling in describing, comprehending and predicting the behaviour of various physical, biological, mechanical processes and as well as other relevant dynamical systems.

SSCM 2043 - Mathematical Methods IIIComprises of two parts. The fi rst part is concerned with Partial Differential Equations. Linear and non-linear fi rst order equations. Classifi cation of linear second order equations. Wave and heat equations in one-dimensional and Laplace equation in two-dimensional Cartesian coordinates. While the second part deals with Complex variables. This part of the course introduces calculus of functions of a single complex variable. Topics covered include the algebra and geometry of complex numbers, complex differentiation, complex integration.

SSCM 2613 - Advanced CalculusA formal study of real numbers, subsets of the real line, functions, sequences and series. Functions of a single variable are studied with regards to types, limits, continuity, differentiability and integrability. Students learn to formulate and rigourously prove theorems on analysis using various kind of methods such as contradiction, induction, contrapositive etc. Prior knowledge of simple logic of truth is helpful for quick understanding but not essential

SSCM 2773 - Differential Equations IIInitial value problems for fi rst order: Existence and uniqueness theorem, Lipschitz’s condition. Picard’s iteration. Gronwall’s inequality. Continuity with respect to initial data. Changing differential equations of order n to matrix form and vice versa.

Second order linear equation: superposition principle. Fundamental solution and Wronskian. Second solution from a known solution. Cauchy-Euler equation. Nonhomogeneous equation and variations of parameter method. Ordinary, singular and regular singular points for second order linear differential equation. Power series solution around ordinary points. Legendre’s equation. Power series solution around regular singular points; Frobenius’s method. Bessel’s equation Cayley-Hamilton’s theorem: exponential matrix. Fundamental matrix and fundamental solution: general solution. Liouville theorem. Solving linear differential equation of any order with constant coeffi cients by matrix method. Transition matrix and solution of linear differential equation with variables coeffi cients.

Autonomous systems and phase space: trajectory, critical point, stability, asymptotic stability. Linear systems with constant coeffi cients: stable node, saddle point, centre and spiral point. Linearization of nonlinear system. Stability of nonautonomous equations; stability for linear systems. Stability theorem for autonomous equation: Liapunov functions.

SSCM 2833 - Linear ProgrammingIntroduces the basic methodology of Operational Research (OR). Mainly deals with Linear Programming (LP) and related topics such as duality, sensitivity analysis, Transportation Problem, and Integer Linear Programming. Besides manual calculations, students learn how to use computer packages to solve and analyse problems.

SSCM 3133 - Statistical Quality ControlMethods of designing experiments are intended for undergraduates with good algebra background and have been introduced to basic statistics. Emphasis is given on working with data and the understanding of the different methods of designing and analyzing of the data. Students will also undergo training in using data analysis packages, including, but not limited to, the SPSS and Microsoft Excel.


SSCM 3423 - Numerical Methods IIThis course discusses problem using numerical methods that involve systems of nonlinear equations, ordinary differential equation (initial and boundary value problems) and partial differential equation.

SSCM 3103 - Design of ExperimentsMethods of designing experiments are intended for undergraduates with good algebra and have been introduced to basic statistics. Emphasize working with data and the understanding of the different methods of designing and analyzing of the data. Students will also undergo training in using data analysis packages, including, but not limited to, the SPSS and Microsoft Excel.

SSCM 3803 - Mathematical Modelling II This course introduces the use of mathematical tools in the modelling of problems in physical, social, biological and environmental sciences. It explores the interrelations between mathematics and applied problems from such areas. Modelling and simulation of case studies in the areas mentioned are also discussed in detailed.

SSCU 4902 - Final Year Project 1Students are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of mathematics and document their fi ndings. Students will learn to gather information on chosen topics through literature survey/review activities, construct research methodology, anticipate expected results, and write current fi ndings and references. Finally, students are required to submit a research proposal and a draft project/research report comprising of Title, Introduction, Statement of Problem, Research Objectives, Literature Survey/Review, Research Methodology, Expected Findings, Conclusion and References.

SSCU 4904 - Final Year Project 2Students are required to execute a project (research) under an identifi ed supervisor in an agreeable fi eld of mathematics and document their fi ndings. Students will learn to gather information on chosen topics through literature survey/review activities, construct research methodology, anticipate results, analyze fi ndings, draw conclusion, write references, and to suggest further research. Finally, students are required to submit a report comprising of Title, Introduction, Statement of Problem, Research Objectives, Literature Survey/Review, Research Methodology, Analysis of Findings, Conclusion and References.

SSCC 1003 - Principles of ChemistryThis course strengthens principles of chemistry knowledge before proceeding to more specialized and higher levels chemistry subjects. The fi rst part of this course exposes students to fundamentals of atoms and molecules and concepts which are known to be the main sources of chemical processes. The formation of chemical bonding, structure of molecules and properties of compounds are discussed. The second part of this course concentrates on stoichiometry and the relation between reacted species in reactions. The last part of this course strengthen student in term of fundamental knowledge of organic chemistry and introduces students the ideas of green chemistry concept.

SSCP 1143 - MechanicsThis course mainly discusses motion of a body or a system. Beginning with the basic and derived physical quantities and vector as mathematical tool, various types of motion such linear, free-fall, projectile, circular, rotational and simple harmonic motions are described. Other topics such as equilibrium, elasticity, gravitation and fl uids mechanics illustrate the application of a body in motion under the infl uence of a force.

SINOPSIS KURSUS ELEKTIF MATEMATIK INDUSTRI

SSCM 3143 – Decision TheoryIntroduces the basic problems and techniques of decision making and comprises two major parts. The fi rst part covers basic principles and approaches in decision making. The second part explores the methods and applications of information that are used in making an optimal decision. Differences between the classical frequencies approach and Bayesian approach in making decision, identify prior distributions and likelihood functions, and combine these two entities to obtain posterior distributions, which will then be combined with loss function to obtain Bayesian estimators. Concepts of conjugate distributions on prior and posterior distributions, important defi nitions in decision theory, proving admissibility and inadmissibility of a decision, process of making an optimal decision, utility and reward, and sensitivity analysis related to an optimal decision. Analysis of subjective probabilities

SSCM 3503 – Complex VariablesThis course introduces calculus of functions of a single complex variable. Topics covered include the algebra and geometry of complex numbers, complex differentiation, complex integration, complex series including Taylor and Laurent series, the theory of residues with applications to the evaluation of complex and real integrals, and conformal mapping with applications in solving boundary value problems of science and engineering.

SSCM 3533 – Set Theory and LogicIntroduces axiomatic set theory and elementary logic. Since set theory and logic form the foundation of mathematics and are greatly intertwined, informal approach to sets are fi rst reviewed to gather vocabulary for a study of logic. The logic parts include propositional algebra and predicate calculus, arguments and methods of proof. Set theory includes the basic axioms and defi nitions. Basic laws are derived rigorously using methods of logic. Further topics for introducing modern advanced mathematics include properties of numbers, sets and relations, equivalence relations, functions and cardinality.

SSCM 3703 – Partial Differential EquationWave, heat and Laplace equations in one and two-dimensional spaces. Solution of equations in Cartesian, cylindrical and spherical coordinate systems using the method of separation of variables. Selected non-homogeneous and non-homogenous boundary conditions wave and heat equations.

SSCM 3793 – Calculus of VariationsThis course discusses mainly the extremals of functionals. Beginning with a review of similar concepts in functions of many variables, the concepts of functional and variational problems are introduced. Topics include analytical methods of solution (extremals of functionals) analytically and selected numerical methods. Upon completion, the students should be able to locate and identify extremizing functions as solutions to variational problems, based on the necessary and the suffi cient conditions for an extremum, solve some basic applied problems, and know how to use the direct methods for fi nding the extremum.

SSCM 3883 – Multi-Objectives Decision MakingThis course is an introduction to the theory and algorithms behind optimization under competing objectives involving single and also multiple decision makers. In this course, we explore several approaches for fi nding the solution to the multi-objective problems, as well as the concepts of Pareto optimality and tradeoff curves to better understand the trade-offs between objectives that occur in multi-objective decision making problems.


SSCM 3123 – Multivariate Statistical AnalysisPresents major views and theories in multivariate statistical analysis. A main tool for the purpose in matrix algebra. Emphasis is on normal distribution, inferences about a mean vector, principal components, factor analysis and inference for structured covariance matrices, and canonical correlation analysis. Students will embark on a small-scale project investigating multivariate data. It is expected that the students will gain skills dealing with multivariate data using the techniques taught.

SSCM 3153 – Inferential StatisticsThis course introduces the theory of inferential statistics. It is concerned with the frequentist approach to inference covering point and interval estimation of parameters and hypothesis testing. Properties of estimators such as unbiasedness and suffi ciency are applied to estimators of parameters of various distributions. Test of statistical hypotheses include certain best test, uniformly most powerful tests, likelihood ratio tests and chi-square tests.

SSCM 3353 – C++ ProgrammingSoftware structures, concepts, and conventions that support C++ object-oriented programming. Identifi cation of class structure, problem partitioning, and abstraction. Components of object-oriented language to algorithmic program design: objects, methods and events. Program control, abstraction of data, variable types, arrays, functions and pointers. Scientifi c problem modeling and simulation, and graphical-user interface design for data visualization. Case studies and software development projects on selected problems in numerical methods, graph theory and discrete-event simulations.

SSCM 3753 – Fluid MechanicsComprises two parts. The fi rst part is concerned with fl uid kinematics while the second part deals with the derivation and the solution of the equations of motion for inviscid and viscous fl uids. Students learn to apply mathematical techniques to solve fl uid fl ow problems.

SSCM 3843 – Optimization MethodsComprises of two parts. The fi rst part covers topics on unconstrained optimisation such as one-dimensional and n-dimensional search methods, interpolation method and gradient methods. The second part covers topics on constrained optimisation such as the Kuhn Tucker method, modifi ed Hooke and Jeeves search method, complex method, penalty function methods, and the Sequential Unconstrained Minimization Technique (SUMT).

SSCM 3503 – Complex VariablesThis course introduces calculus of functions of a single complex variable. Topics covered include the algebra and geometry of complex numbers, complex differentiation, complex integration, complex series including Taylor and Laurent series, the theory of residues with applications to the evaluation of complex and real integrals, and conformal mapping with applications in solving boundary value problems of science and engineering.

SSCM 3523 – Modern AlgebraThis course consists of two parts. The fi rst part includes introduction to groups, types of groups, isomorphism between groups, composition of groups to form a direct product, and types of subgroups including normal subgroups and factor groups. The second part is a selected topic of Sylow Theorems and their applications.

SSCM 4163 - Stochastic ProcessesThis course begins with the fundamental of stochastic processes that is the probability theory, and proceeds to discussing major stochastic processes, including Markov chains; discrete and continuous Markov chains, Poisson processes, and renewal theory. Applications to inventory problems, equipment replacement and queuing theory are also dealt with through examples. Upon completion, students should be able to recognize the relevance of mathematical techniques presented in solving real-world problems, apply the techniques, and demonstrate knowledge of various random processes.

SSCM 4243 – Sampling TechniquesThis course introduces sampling methods used in sample surveys. The students are given a comprehensive account of sampling theory for use in sample surveys and include illustrations of how the theory is applied in practice. A prerequisite is familiarity with algebra, knowledge of probability for fi nite sample spaces and basic statistics. Topics include simple random sampling, sampling proportion and percentages, estimation of sample sizes, stratifi ed random sampling, ratio estimators, systematic sampling, and cluster sampling.

SSCM 4823 – SchedulingThis course discusses various problems in the area of scheduling. It includes single machine, Parallel machine, Flow shop, Open shop and Lot Sizing. Approaches for modelling and solving some classes of scheduling problems will be discussed. In this course, Project Management which includes project planning, scheduling and control will also be introduced. In more details, it will introduce the Critical Path Method (CPM) and Project Evaluation and Review Technique (PERT). In addition, Resource Levelling and Allocation, and Time and Cost Trade-Offs are presented.

SSCM 4113 – Time SeriesSubject covers a wide range of methods for descriptive analysis, modelling, decomposition and forecasting involving both time and frequency domains. Methods include plotting, trend fi tting, estimation of seasonal and cyclical effects, stationary time series, probability modelling, Box-Jenkins approach and forecasting

SSCM 4213 – Generalized Linear ModelThis course consists of two parts that is the theory of generalized linear model and the application of generalized linear model in regression model, one-factor analysis of variance and two-factor analysis of variance. SPSS statistical package is used to apply generalized linear model to the above models.

SSCM 4763 – Computational Fluid DynamicsThis is an introductory course on Computational Fluid Dynamics (CFD) where students are exposed to the techniques of obtaining the numerical solution to fl uid fl ow problems using computer. Historical development, philosophy and the signifi cance of CFD are discussed. The governing equations of fl uid dynamics are derived from the fundamental physical principles. The derivation of fi nite difference approximations to derivatives is revised. Discretization is based on both explicit and implicit techniques. The application to classic fl uid fl ow problems such as Couette fl ow and other unidirectional fl ows for viscous fl uids, supersonic and subsonic fl ow for inviscid fl uids will be discussed.

SSCM 4813 – Optimal ControlThis course introduces the optimal control theory. The discussion includes defi nitions and classifi cation of system control types. Topics include optimal control problems such as necessary and suffi cient conditions using calculus of variation. Upon completion, students should exhibit understanding of the basic concepts and principles of mathematical control systems. The students should also be able to formulate state space equation, determine systems characteristics and solve basic optimal control problem using variational approach and dynamic programming.


SSCM 4833 – Discrete-Event SimulationConcepts of simulation, event, discrete-event, continuous event, system model and its types. Random number generation. Stochastic processes. Computer implementation. Probability and Statistical tools: discrete/continuous distributions, Poisson process. Birth death processes. Queuing models: Markovian single and multiple servers, arrival, service and laws of conservation. Steady-state behaviour of fi nite population. Loss system with blocking, Erlang’s B and C equations. Little’s equation. Simulation model building, verifi cation and validation. Data collection, parameter estimation, goodness-of-fi t tests, multivariate and time-series input models. Measures of performances using point and interval estimation. Output analysis using confi dence-interval estimation. Case studies on traffi c system, material handling and network analysis.

SSCM 4863 – Financial MathematicsThe fi rst half of the course begins with an introduction to basic fi nancial mathematics covering the computation of simple interest and discount rates, deriving the compound interest, and applications of different rates of interest in determining the present and future values of different types of annuities for different time periods. The second part of the course mainly concerns the classical quantitative fi nance i.e. derivatives, specifi cally the option pricing . First, an introduction to the subject of fi nance is presented. This consists of a collection of defi nitions and specifi cations concerning the fi nancial markets in general. Then, the subject of derivatives and its concepts are introduced. Two main options pricing for pricing derivatives are examined: The Binomial option pricing and the Black-Scholes option pricing.

Spesifi kasi ProgramSARJANA MUDA SAINS (FIZIK) - SSCZ1. Institusi Penganugerahan Universiti Teknologi Malaysia2. Institusi Pengajaran Universiti Teknologi Malaysia3. Nama Program Sarjana Muda Sains Fizik4. Anugerah Akhir Sarjana Muda Sains (Fizik)5. Kod Program TS156. Akreditasi Badan Berkanun atau Profesional Kementerian Pendidikan Malaysia7. Bahasa Pengantar Bahasa Malaysia dan Bahasa Inggeris8. Mod Pengajian (Konvensional, Jarak jauh, dll) Konvensional9. Mod Operasi (Francais, tadbir - kendiri, dll) Tadbir -kendiri10. Skim Pengajian (Sepenuh masa/Separuh masa) Sepenuh Masa11. Tempoh Pengajian Minimum : 4 tahun

Maksimum : 6 tahun

Jenis SemesterBil. Semester Bil. minggu per semester

Sepenuh Masa

Separuh Masa

Sepenuh Masa Separuh Masa

Normal 8 - 17 -Pendek - - - -

12. Syarat Kemasukan Memenuhi Syarat Universiti dan Program seperti berikut:1. Lulus Matrikulasi / STPM / Asasi Sains UM dengan sekurang -kurangnya

gred B dalam Fizik dan sekurang -kurangnya C Kimia dan Matematik.atau

2. Diploma Sains atau Kejuruteraan dengan sekurang-kurangnya CPA 2.70 dari institusi yang diiktiraf.

13. Objektif Program Pendidikan (PEO)

Objektif Program Sarjana Muda Sains (Fizik) adalah untuk memberi pengetahuan, kemahiran dan ciri -ciri yang perlu dicapai oleh graduan untuk kerjaya yang berjaya. Program ini direka untuk:

1. Menyediak an graduan untuk bekerja sebagai ahli fizik yang berkebolehan di institusi - institusi penyelidikan dan pembangunan.

2. Menyediakan graduan yang mampu menerajui dan mengambil tanggungjawab di temapt kerja dan dalam masyarakat.

3. Menyediakan graduan yang mempunyai personaliti tersohor, melalui hujah yang kritikal serta kemahiran komunikasi bertulis dan lisan yang berkesan.

4. Menyediakan graduan berfikiran kreatif dan inovatif dalam menempuh cabaran baru.

5. Menyediakan graduan yang berintegriti profesional dan mampu menguruskan pembelajaran kendiri.

6. Menyediakan graduan yang berkemahiran keusahawanan dan mampu memandang kehadapan terhadap kekayaan dan peluang pekerjaan.

14. Hasil Pembelajaran Program

Kod Matlamat Hasil Pembelajaran Kaedah Pengajaran dan Pembelajaran Penilaian

(a) Pengetahuan Teknikal dan Kompetensi


PO1Pengetahuan Asas

Fizik

Kebolehan mengarap pengetahuan mengenai hukum dan prinsip asas fizik dalam penggunaan terkini serta pengetahuan dalam sains sosial dan pembangunan diri. (C2, P2, A2)

Kuliah, tutorial,seminar, kerja makmal, pembacaan terarah dan pembelajaran aktif.

Peperiksaan, ujian, kuiz, laporan makmal, pembentangan, tugasan, latihan berasaskan masalah,laporan projek

PO2Penggunaan

pengetahuan dan kemahiran fizik

Berkebolehan menggunakan, amalan dan menganalisis hukum- hukum dan prinsip -prinsip asas fizik menggunakan kaedah eksperimen, teknik pengiraan dan matematik yang berkaitan dengan masalah fizik (C4, P4, A3)

Kuliah, tutorial, sesi ‘hands on’ komputer, kerja makmal, latihan penyelidikan

Peperiksaan, ujian, kuiz, laporan makmal, pembentangan, tugasan bertulis, latihan berasaskan masalah, laporan projek, latihan simulasi, penyelidikan, laporan latihan.

PO3Kajian saintifik

dan penyelidikan dalam bidang fizik

Kebolehan untuk merancang, menilai dan menunjukkan kajian saintifik dan penyelidikan yang berkaitan dengan bidang fizik (C6, P6, A3)

Projek yang diselia, kuliah, kerja makmal, pembacaan terarah, latihan simulasi, latihan berasaskan komputer, pembelajaran berasaskan masalah, latihan penyelidikan

Peperiksaan, ujian, kuiz, laporan makmal, laporan Projek Tahun Akhir, pembentangan, tugasan bertulis, penyelidikan, laporan amali.

(b) Kemahiran Insaniah

PO4Pemikiran Kritis dan Penyelesaian

Masalah

Keupayaan untuk mengamalkan pengetahuan dan kemahiran prinsip fizik dan teori untuk menyelesaikan masalah saintifik. (P4)

Kuliah, tutorial, kerja makmal, pembacaan terarah, latihan simulasi, latihan berasaskan komputer, pembelajaran berasaskan masalah

Laporan Projek Tahun Akhir, peperiksaan, laporan makmal, pembentangan, tugasan


Kebolehan berkomunikasi secara berkesan dan yakin menerusi penulisan dan lisan kepada pelbagai lapisan khalayak. (P4)

Projek yang diselia, kuliah, kerja makmal, tugasan individu, latihan dan penyelidikan.

Laporan Projek Tahun Akhir, peperiksaan, laporan makmal, pembentangan, tugasan bertulis, penyelidikan, laporan amali.

PO6Kerja Berpasukan

Berkebolehan untuk berfungsi secara berkesan dan dengan tanggungjawab sebagai ahli pasukan untuk mencapai matlamat yang sama dan menyesuaikan diri dengan situasi dan keutamaan yang berubah. (A 3)

Perbincangan berkumpulan, kerja -kerja makmal, tugasan kumpulan, latihan penyelidikan.

Laporan makmal,tugasan kumpulan, laporan projek kumpulan, penyelidikan laporan amali.

PO7Pembelajaran

sepanjang hayat dan Pengurusan

Maklumat


Projek tahun akhir, tugasan individu, latihan penyelidikan

Laporan projek tahun akhir, tugasan bertulis, penyelidikan, laporan latihan penyelidika n.

PO8 Kepimpinan

Berkebolehan untuk menunjukkan kepimpinan,untuk mengambil tindakandan untuk mempengaruhiyang lain untuk mencapai matlamat yang sama (A3 )

Projek-projek, tugasan kumpulan, kerja makmal

Laporan projek, tugasan kumpulan, laporan amali.


Keupayaan untuk menyesuaikan diri nilai -nilai etika dan integriti dalam interaksi sosial dan sains, berfikiran positif dan mempunyai harga diri (A3)

Kuliah, kerja makmal, projek tahun akhir, tugasan, latihan penyelidikan

Tugasan bertulis, laporan makmal, laporan projek tahun akhir, penyelidikan laporan amali

PO10Keusahawanan

Kesedaran tentang peluang perniagaan, keusahawanan, dan kerjaya (P2)

Kuliah, projek, latihan penyelidikan

Tugasan bertulis,laporan projek, laporan latihan penyelidikan

15. Pengkelasan Kursus

Bil. Pengkelasan Jam Kredit Peratus (%)

i. Asas Sains dan Matematik 2358.9

ii. Program Teras 53

iii. Program Elektif 33 25.6

iv. Kursus Wajib Universitia. Kemanusiaanb. Bahasac. Kokurikulumd. Keusahawanan

10622

15.5

Jumlah 129 100Untuk program Sains, sila isikan klasifikasi berikut. (Lain - lain sila rujuk kepada garis panduan )

Bil. Pengkelasan Jam Kredit Peratus (%)

A 1.1 Kursus Fizik(a) Kuliah(b) Makmal / Bengkel(c) Projek Tahun Akhir(d) Latihan Penyelidikan

77665

60.64.74.73.9

Jumlah Jam Kredit untuk Bahagian A 94 72.9

B 1.2 Kursus Berkaitan(a) Matematik(b) Kemanusiaan / Etika(c) Ko kurikulum(d) Bahasa Inggeris(e) Keusahawanan

1510262

11.67.81.64.71.6


16. Jumlah jam kredit untuk penganugerahan ijazah 129 jam kredit

17. Struktur Program dan ciri -ciri, Kurikulum dan Syarat Penganugerahan

Kursus ini ditawarkan dalam mod sepenuh masa dan berdasarkan sesi akademik 2 Semester .Beberapa kursus dijalankan dan dinilai setiap semester. Penilaian adalah berdasarkan peperiksaan akhir dan kerja kursus yang dijalankan sepanjang semester.

Syarat penganugerahan:

Untuk pengijazahan, pelajar perlu:

Mencapai jumlah tidak kurang dari pada 129 jam kredit dengan minimum CPA 2.0.Lulus Latihan Penyelidikan

Tamat dan lulus Projek Sarjana Muda.




Communications 2


SSCP 1102 Pengenalan K epada Fizik 2 SSCM 1033 Kaedah Matematik II 3








SSCM 1703 Persamaan Terbitan I 3 ULAB2112Advanced English for Academic Communications

2

SSCP 2213 Fizik Nukleus 3 UQ_1XX1 Service Learning 2

SSCP 2313 Elektronik Asas 3 SSCP2113 Termodinamik 3

SSCP 2333 Penganturcaraan Komputer 3 SSCP2413 Fizik K eadaan Pepejal 3

SSCP 2811 Amali Fizik III 1 SSCP2613 Fizik Matematik 3

UICI 2022 Sains Teknologi dan Manusia 2 SSCP2821 Amali Fizik IV 1

Jumlah Jam Kredit untuk Bahagian B 33 25.6

1.3 Jumlah Jam Kredit untuk Bahagian A dan B 129 100%




Jumlah Jam Kredit 15 16


Kod/ code Nama Kursus kr Kod/ code Nama Kursus kr

SSCP 3113 Keelektromagnetan 3 SSCP3643 Mekanik Kuantum I 3

SSCM 3503 PembolehubahKompleks 3 SSCP3821 Amali Fizik 1

SSCP 3123 Mekanik Klasik 3 Elektif Fizik (Pilih 9 kredit)

SSCP 3133 Fizik Terma dan Statistik 3 SSCP3143 Kerelatifan 3

SSCP 3811 Amali Fizik V 1 SSCP3153 Zarah Keunsuran 3

Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) SSCP3163 Fizik Tenaga dan Alam

Sekitar 3

UHAS 2032 Teknokrat dan Pembangunan 2 SSCP3333 Fizik Berkomputer 3

UHAS 2092 Etika profesional Organisasi 2 SSCP3523 Optik Moden 3


Elektif ULAB (Pilih 2 kredit) Elektif Keusahawanan (Pilih 2 kredit)

ULAB 3112 English for Career Search 2 UHAS 3012 Keusahawanan dan






Jumlah Jam Kredit 17 Jumlah Jam kredit 15

SEMESTER PENDEK

Kod Nama Kursus kr


Jumlah Jam Kredit 5



SSCU 4902 Projek Sarjana Muda I 2 SSCU4904 Projek Sarjana Muda II 4

Elektif Fizik (Pilih 12 kredit) Elektif Fizik (Pilih 12 kredit)

SSCP 4163 Astrofizik 3 SSCP 4173 Mekanik Kuantum II 3

SSCP 4323 Elektronik dan Instrumentasi 3 SSCP 4213 Fizik Nukleus Lanjutan 3


18. Pemetaan Hasil Pembelajaran Terancang untuk Kursus

HASIL PEMBELAJARAN

KURSUS DITAWARKAN

Peng

etah

uan

Asas

Fizik

Peng

guna

anPe

nget

aahu

an

dan

kem

ahira

n fiz

ik

Kem

ahira

n m

enga

nalis

is da

n Uj

ikaji

Pem

ikira

n K

ritika

l dan

Pe

nyele

saian

Mas

alah

Kem

ahira

n B

erko

mun

ikasi

Kerja

Ber

pasu

kan

Pem

belaj

aran

Sep

anjan

g Ha

yat

Kepi

mpi

nan

Etika

dan

Inte

griti

Keus

ahaw

anan

Kod Kursus PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 P09 PO10Kursus Teras

SSCP1102 Pengenalan kepada Kursus Fizik

SSCM1023 Kaedah Matematik ISSCM1523 Algebra LinearSSCM1033 Kaedah Matematik IISSCM1703 Persamaan Terbitan ISSCM3503 Pembolehubah KompleksSSCP1143 MekanikSSCP1153 Elektrik dan MagnetSSCP1811 Amali Fizik ISSCP1163 Bunyi, Gelombang dan OptikSSCP1223 Fizik ModenSSCP1821 Amali Fizik IISSCP2313 Elektronik AsasSSCP2213 Fizik NukleusSSCP2333 Pengaturcaraan KomputerSSCP2811 Amali Fizik IIISSCP2113 TermodinamikSSCP2613 Fizik MatematikSSCP2413 Fizik Keadaan PepejalSSCP2821 Amali Fizik IVSSCP3123 Mekanik Klasik

SSCP3113 Keelektromagnetan

SSCP3811 Amali Fizik VSSCU3915 Latihan Penyelidikan (HW)

SSCP 4333 Pemprosesan Isyarat Berdigit 3 SSCP 4433 Kemagnetan 3

SSCP 4413 Fizik Semikonduktur 3 SSCP 4453 Fizik Suhu Rendah dan Kesuperkonduksian 3

SSCP 4423 Fizik Jirim Termampat 3 SSCP 4513 Fizik Laser 3


SSCP3643 Mekanik Kuantum 1SSCP3133 Fizik Terma dan StatistikSSCP3821 Amali Fizik VISSCU4902 Projek Sarjana Muda ISSCU49 04 Projek Sarjana Muda IIKursus ElektifSSCP3523 Optik ModenSSCP3333 Fizik BerkomputerSSCP3153 Zarah KeunsuranSSCP3143 Kerelatifan

SSCP3163 Fizik Tenaga dan Alam Sekitar

SSCP4323 Elektronik dan InstrumentasiSSCP4163 AstrofizikSSCP4333 Pemprosesan Isyarat BerdigitSSCP4413 Fizik Semikonduktor

SSCP4423 Fizik Jirim Termampat

SSCP4433 KemagnetanSSCP4513 Fizik Laser

SSCP4453 Fizik Suhu Rendah dan Kesuperkonduksian

SSCP4173 Mekanik Kuantum IISSCP4213 Fizik Nukleus LanjutanKursus Universiti

UICI 1012 Tamadun Islam dan Tamadun Asia

UHAS 1172 Dinamika Malaysia

UICI 2022 Sains, Technologi dan Manusia

UHAS 2092 Etika Profesional UHAS 2023 Teknokrat dan PembangunanUHAS 2122 Pemikiran Kritis dan KreatifUXXX 2xx2 Inovasi dan kreativitiULAC 2xx2 Bahasa Asing

UHAS 3012Keusahawanan dan Pembangunan Usahawan

ULAB 1112 Bahasa Inggeris untuk Komunikasi Akademik

ULAB 2112 Bahasa Inggeris lanjutan untuk Komunikasi Akademik

ULAB 3112 Bahasa Inggeris untuk Kerjaya

ULAB 3122 Bahasa Inggeris untuk Komunikasi Tempat Kerja

ULAB 3132 Membaca untuk Tujuan Khusus

ULAB 3142 Penulisan untuk Tujuan Khusus

ULAB 3152 Kemahiran Komunikasi Lisan Berkesan

UQ_ 1xx1 Ko -kurikulum IUQ_ 1xx1 Ko -kurikulum II


PO1-PO3 = Kemahiran TeknikalPO4-PO10 = Kemahiran Generik

19. Keunikan ProgramProgram ini menekankan kepada kemahiran penyelidikan dan pengalaman dalam latihan penyelidikan dalam fizik tulen kontemporari untuk siswazah. Menjalin hubungan dengan universiti -universiti tempatan dan antarabangsa/ institusi penyelidikan.

20. Prospek Kerjaya dan Laluan KerjayaSiswazah dari program ini boleh bekerja sebagai

Pegawai penyelidik - institut penyelidikan, universiti dan industriPegawai Sains - institut penyelidikan, universiti dan industriGuru Fizik - sekolah dan kolejPegawai kawalan kualiti - industri

21. Program Merentas Kampus (Cross Campus Program)

Pelajar diberi peluang untuk mendaftar kursus tertentu di universiti yang terlibat di dalam dan luar negera.Mana-mana gred atau kredit sehingga 1/3 daripada jumlah kredit dalam kurikulum boleh dipindahkan.

22. Program UTM Degree ++

Pelajar diberi peluang untuk mendaftar dalam program sijil yang ditawarkan oleh Pusat Kecemerlangan di Universiti, dengan kebanyakan kursus-kursus yang ditawarkan oleh Pusat Pengajian Profesional dan Pendidikan Berterusan (SPACE) semasa cuti semester mereka.

23. Kemudahan Sedia Ada

A: Makmal

1. Makmal Optik2. Makmal Elektronik Asas & Lanjutan3. Makmal Optoelektronik 4. Makmal Fizik Nuklear5. Makmal Dosimetri Sinaran6. Makmal Penyelidikan dan Teknologi Laser 7. Makmal Teknologi Fiber Optik8. Makmal Filem Tipis & Suhu Rendah9. Makmal Vakum10. Makmal Sains Bahan & Analisis Bahan11. Makmal Komputer & Mikrokomputer12. Makmal Latihan Fotonik & Penyelidikan13. Makmal Penyelidikan Kristal Optik14. Bengkel Elektronik & Mekanikal

B: Peralatan Utama1. Diffractometer sinar-X (XRD)2. Mesin pertumbuhan hablur menggunakan kaedah CZ.3. Spektrofotometer inframerah4. Spektrometer UV -VIS5. Mesin CNC 6. Spektrometer Photoluminiscence7. Ellipsometer8. Relau Suhu Tinggi

9. Differential Thermal Analyzer (DTA)10. Peralatan Kekerasan Vickers - Vickers Hardness Equipment11. Mesin Ujian Mekanikal Am12. Pengesan Germanium Hyper tulen - Hyper pure Germanium Detector13. Mikroskop Daya Atom (AFM) - Atomic Force Microscope (AFM)14. Rapid Thermal Process (RTP)15. Mesin tegangan - Tensile Machine16. Mesin kakisan - Corrosion Machine

24. Sokongan untuk Pelajar dan pembelajaran mereka

a. Dua minggu program induksi bagi suaikenal dan pengenalan kepada kemahiran pembelajaran. b. Buku panduan pelajar serta Modul Bimbinganc. Nisbah staf dan pelajar 1: 12d. Kemudahan perpustakaan dan sumber pembelajaran yang lain.e. Semua pelajar disediakan penasihat akademik yang mempunyai tugas membantu dalam masalah

peribadi serta menasihati program pembelajaran.

25 Kaedah Penilaian dan Peningkatan kualiti dan Piawaian Pengajaran dan Pembelajaran. Mekanisma bagi semakan dan penilaian pengajaran, pembelajaran, penilaian, kurikulum dan hasil piawaian.

1. Prestasi Pelajar dari segi:KS / KBCPAPrestasi pelajar graduatSiswazah pada masanya (GOT)Tempoh tamat belajarAnalisis prestasi kursus

2. KebolehpasaranKajian KeluarKajian Alumni Kajian Pasaran

3. Prestasi Pensyarah Penilaian pengajaran oleh pelajar (OMR)Senarai semakan kompetensi untuk kakitangan (CV)Sasaran Kerja Tahunan (SKT)

4. Semakan semula kurikulumJawatankuasa akademikFakultiPSM (projek tahun akhir sarjana muda) Laporan pemeriksa luar Semakan semula pencapaian hasil pembelajaran kursus oleh pelajarE-Portfolio PelajarPenilaian kemahiran generik (Performance Criteria Report)

5. Sistem penyampaianJawatankuasa Jaminan Kualiti AkademikCSI (Indeks kepuasan pelanggan)


SSI (Indeks kepuasan pelajar)Laporan audit AKNC Piawaian MQA

27. Kaedah Penilaian

Kaedah PengukuranHasil Pembelajaran

Tempoh Tindakan olehPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10

e-Portfolio x x x x x x x x x x berterusan PelajarHasil kaji selidik Kursus x x x x x x x x x x Akhir-sem Pensyarah

Laporan Hasil Pembelajaran Kursus

x x x x x x x x x x Akhir-sem Pensyarah

Kaji selidik Projek Tahun Akhir x x x x x x x Akhir-

-

sem Fakulti

Kaji selidik PO oleh pelajar tahun akhir x x x x x x x x x x Akhir sem Fakulti

Kaji selidik Latihan Penyelidikan x x x x x x x Akhir sesi Fakulti

Kaji selidik Alumni x x x x x x x x x x Sekali / tahun

Ketua -Jabatan

Kaji selidik Majikan x x x x x x x x x x Sekali / tahun

Ketua-Jabatan

26 Peraturan taksiran

Ringkasan markah, gred dan mata nilaian

Gred Mata Nilaian

90-100 A+ 4.0080-89 A 4.0075-79 A - 3.6770-74 B+ 3.3365-69 B 3.0060-64 B- 2.6755-59 C+ 2,3350-54 C 2.0045-49 C- 1.6740-44 D+ 1.3335-39 D+ 1.0030-34 D- 0.6700-29 E 0.00

Peranan Pemeriksa Luar (Pemeriksa Pelawat)Pemeriksa Pelawat dilantik oleh Jawatankuasa Akademik FakultiSemakan semula dan menilai kurikulum program.

Semakan semula dan menilai prosedur dan kaedah penilaian.Mencadangkan syor yang perlu kepada Jawatankuasa Akademik.

1. Institusi Penganugerah Universiti Teknologi Malaysia2. Institusi Pendidikan Universiti Teknologi Malaysia3. Nama Program Sarjana Muda Sains dalam Kimia

4. Anugerah Akhir Sarjana Muda Sains (Kimia)

5. Kod Program TS16 (SSCA)

6. Badan Akreditasi Berkanun atau Profesional Kementerian Pendidikan Malaysia

7. Bahasa Pengantar Bahasa Malaysia and Bahasa Inggeris

8. Mod Pengajian (Konvensional, pembelajaran jarak jauh, dan lain-lain

Konvensional

9. Mod Operasi (Francais, Urustadbir sendiri, dan lain -lain

Urustadbir Sendiri

10. Skema Pengajian (sepenuh masa/separuh masa Sepenuh Masa

11. Tempoh Pengajian Minimum : 4 tahunMaximum : 6 tahun

Jenis Semester Bilangan Semester Bilangan minggu dalam semester

Sepenuh Masa Separuh Masa Sepenuh Masa Separuh MasaLazim 8 - 14 -Pendek (Latihan Industri) - - - -

12. Syarat Kemasukan Memenuhi semua syarat Universiti dan syarat keperluan program yang berikut:(1) Lulus Matrikulasi/STPM/Asasi Sains UM dengan gred minimum B

dalam Kimia dan minimum C dalam Matematik dan Fizik atau Biologi Atau(2) Diploma Sains atau Kejuruteraan dengan CPA minimum 2.70 daripada

institusi yang diiktiraf.

13. Objektif Program

Objektif Program Sarjana Muda Sains (Kimia) adalah untuk memberikan pengetauan, kemahiran dan atribut yang harus dicapai oleh graduat untuk berjaya dalam kerjaya. Program direka untuk: -


2. Mendidik graduat menjalankan penyelidikan untuk menyelesaikan masalah kini dan isu masa akan datang demi untuk pembangunan dan kebaikan negara dan manusia sejagat.

3. Melatih graduat yang berupaya menggunakan pengetahuan dan kemahiran dalam merancang, menganalisis, mereka dan menyelia kerja berasaskan kimia.

4. Membentuk graduat yang berkemahiran teknikal dalam menyelesaikan masalah secara logik, analitikal dan kreatif berdasarkan fakta dan idea bernas


6. Menyediakan graduat yang boleh berkerja secara berpasukan dalam masyarakat berbilang bangsa untuk mencapai sesuatu objektif.

7. Melatih graduat yang boleh berkomunkasi secara berkesan merentasi pelbagai bentuk perhubungan dan audian.

SARJANA MUDA SAINS (KIMIA) - SSCA



(a) Pengetahuan dan Kecekapan Teknikal

Hasil Pembelajaran (PO)

Matlamat Hasil Pembelajaran

Kaedah Pengajaran dan Pembelajaran

Penilaian

PO1Pengetahuan Asas

Kimia

Kemampuan memperoleh ilmu pengetahuan berkaitan hukum dan prinsip asas kimia yang berkaitan dengan penggunaan semasa serta ilmu pengetahuan sains sosial dan pembangunan diri (C2, P2, A2)

Kuliah, tutorial, kerja makmal, pembacaan terarah, dan perbincangan berkumpulan

Peperiksaan, ujian, kuiz dan laporan.

PO2Aplikasi

pengetahuan dan kemahiran kimia

Kemampuan mengguna, mengamal dan menganalisis hukum asas, prinsip dan teknik kimia menggunakan kaedah saintifik yang berkaitan dengan aplikasi kimia (C4, P4, A3)

Kuliah, kerja makmal, tugasan pembacaan, perbincangan berkumpulan, dan tugasan penyelesaian masalah, kemahiran peralatan, perisian berkaitan denga kimia.

Peperiksaan, ujian, kuiz, tugasan, dan laporan makmal, persembahan oral, projek berkumpulan, dan simulasi komputer.

PO3Kajian Saintifik

dan Penyelidikan

Kemampuan merancang, menilai, dan melaksanakan kajian saintifik dan penyelidikan berkaitan kimia. (C6, P6, A3)

Kuliah, kerja makmal, tugasan pembacaan, perbincangan berkumpulan, dan tugasan penyelesaian masalah, kemahiran peralatan, perisian berkaitan dengan kimia, projek penyelidikan, kerja makmal, persembahan parojek dan laporan, latihan penyelidikan.

Peperiksaan, ujian, kuiz, tugasan, dan laporan makmal, persembahan oral, projek berkumpulan, simulasi komputer, cadanga penyelidikan, persembahan laporan projek tahun akhir, dan laporan Penyelia Latihan Penyelidikan.

(b) Kemahiran Generik

PO4Pemikiran Kritis & penyelesaian

Masalah

Kemampuan belajar secara bersendirian dan mengamalkan ilmu dan kefahaman prinsip serta teori kimia dan menilai kajian semasa (P4)

Projek penyelidikan bersendirian, projek penyelidikan bekumpulan, latihan penyelidikan.

Laporan projek bersendirian, laporan makmal, laporan projek penyelidikan tahun akhir.

15. Klasifikasi Kursus

No. Klasifikasi Jam Kredit Peratus (%)(i) Asas Sains dan Matematik 13

58.5(ii) Teras program 62(iii) Elektif program 33 25.8(iv) Kursus Wajib Universsiti

Kemanusiaan 1015.7Bahasa Inggeris 6

Ko-kurikulum 2Keusahawaanan 2Jumlah 128 100

Untuk program sains, sila isi klasifikasi berikut (Lain -lain, sila rujuk peraturan badan rasmi berkaitan)

PO5Kemahiran

Berkomunikasi

Kemampuan membentangkan maklumat teknik, saintifik dan maklumat dan hujah kimia secara jelas dan tepat, secara bertulis dan secara oral kepada pelbagai khalayak ramai. (P4)

Projek berkumpulan, penyelidikan bersendirian, latihan penyelidikan.

Persembahan oral, tugasan bertulis, laporan makmal,laporan projek tahun akhir.

PO6Kerja

Berkumpulan

Kemampuan menunjukkan kemahiran interpersonal yang baik dengan kemampuan bekerja secara berkumpulan sebagai bahagian daripada pasukan melaksanakan pelbagai peranan pasukan yang berlainan. (A3)

Tutorial, kerja makmal, tugasan berkumpulan

Laporan makmal dan persembahan berkumpulan

PO7Pembelajaran

Sepanjang Hayat dan Pengurusan

Maklumat

Kemampuan memperoleh ilmu pengetahuan, kemahiran baru dan mengurus pelbagai maklumat daripada sumber yang berlainan. (LL3)

Tutorial, projek penyelidikan, kerja makmal

Laporan makmal, laporan projek penyelidikan

PO8Kepimpinan

Kemampuan menunjukkan kepimpinan, mengambil tindakan dan menggerakkan penglibatan orang lain. (A3)

Tugasan berkumpulan persembahan

Laporan tugasan berkumpulan dan persembahan


Kemampuan bertindak secara berintegriti dan beretika yang baik dalam profesion dan tanggungjawab mereka kepada mesyarakat. (A3)

Peperiksaan, tugasan berkumpulan dan projek penyelidikan bersendirian

Persembahan laporan dan seminar.

PO10Keusahawanan

Kesedaran terhadap peluang perniagaan dan keusahawanan

Projek tahun akhir, kerja makmal, latihan penyelidikan

Tugasan bertulis, laporan makmal, esei, laporan projek tahun akhir


A. Kursus Kimia59.47.03.94.7

(a) Kuliah 76(b) Makmal/Bengkel/ Kerja Lapangan

9

(c) Latihan Penyelidikan 5(d) Projek Tahun Akhir 6Jumlah Jam Kredit Untuk Bahagian A 96 75.0

17. Struktur dan Ciri Program, Kurikulum dan Syarat Penganugerahan

Program ini ditawarkan dalam mod sepenuh masa dan berdasarkan sesi akademik 2 Semester. Kursus dilaksanakan dan dinilai mengikut semester yang telah ditetapkan. Penilaian kursus dilakukan berdasarkan peperiksaan akhir dan kerja kursus yang dilaksanakan sepanjang semester.

* Syarat penganugerahan:Untuk dianugerahkan ijazah, pelajar seharusnya:

Memperoleh tidak kurang daripada 128 jam kredit dengan CPA minimum 2.00.Lulus Latihan Industri (menyamai 5 jam kredit).Menyempurna dan lulus Projek Sarjana Muda T ahun Akhir.




Communication 2

SSCC 1322 Pengenalan Program Kimia 2 UHAS 1172 Dinamika Malaysia 2

SSCC 1003 Prinsip Kimia 3 SSCC 1413 Termodinamik Kimia 3

SSCC 1901 Amali Kimia 1 SSCC 1841 Amali Kimia Fizik I 1

SSCC 1703 Kimia Tak Organik 3 SSCC 1603 Kimia Organik - Kumpulan Berfungsi 3

SSCC 1851 Amali Kimia Tak Organik I 1 SSCC 1831 Amali Kimia Organik I 1

SSCM1023 Kaedah Matematik I 3 SSCM1103 Statistik 3




B. Kursus Berkaitan9.47.81.64.61.6

(a) Matematik 12(b) Kemanusiaan/ Etika 10(c) Ko -Kurikulum 2(d) Bahasa Inggeris 6(e) Keusahawanan 2Jumlah Jam Kredit Untuk Bahagian B 32 25.0Jumlah jam kredit untuk Bahagian A dan B 128 100

16. Jumlah jam kredit untuk bergraduan 128 jam kredit

Klasifikasi Jam Kredit Peratus(%) SSCC 2613 Kimia Organik - Biomolekul 3 ULAB 2112 Advanced English for Academic Communication 2





SSCM1033 Kaedah Matematik II 3 SSCC 2861 Amali Kimia Analisis I 1








UQ_1XX1 Service Learning 2 SSCC 3463 Kimia Kuantum 3

SSCC 3233 Analisis Berinstrumen 3 SSCU 3623 Metodologi Penyelidikan dan Pemerolehan Maklumat 3

SSCC 3871 Amali Kimia Analisis II 1 Elektif (Pilih 9 kredit)

SSCC 3323 Prinsip Kimia Polimer 3 SSCC 3243 Kaedah Pemisahan 3

SSCM 1303 Literasi Komputer 3 SSCC 3533 Penggunaan Komputer dalam Kimia 3

Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) SSCC 3643 Penggunaan Spektorskopi 3

UHAS 2032 Teknokrat dan Pembangunan 2 SSCP 4453 Fizik Suhu Rendah dan

Kesuperkonduksian 3

UHAS 2092 Etika profesional Organisasi 2 SSCC 4603 Kimia Perubatan 3


Elektif ULAB (Pilih 2 kredit) Elektif Keusahawanan



ULAB 3132 Reading for SpecificPurposes 2




SEMESTER PENDEKKod Nama Kursus kr



Jumlah 5





SSCC 4233 Analisis Elektrokimia 3 SSCC 4263 Analisis Terma 3

SSCC 4773 Polimer Tak Organik dan Organologam 3 SSCC 4473 Kimia Keadaan Pepejal 3

SSCC 4443 Proses Tindak Balas Kimia 3 SSCC 4693 Metabolisme Biomolekul 3

SSCC 4653 Sintesis Organik 3 SSCC 4763 Nanokimia 3

SSCC 4733 Radiokimia 3 SSCC 4493 Kimia Permukaan dan Koloid 3

SSCC 4723 Kimia Organologam 3 SSCP 4403 Mikroskopi dan Analisis Bahan 3

SSCC 4363 Kimia Hijau 3 SSCP 4603 Teknologi Vakum dan Filem Tipis 3


18. Pemetaan Hasil Pembelajaran Program dengan Kursus

HASIL PEMBELAJARAN

TAWARAN KURSUS

Peng

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Kod Kursus PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10Kursus TerasSSCC 1322 Pengenalan Program KimiaSSCC 1003 Prinsip KimiaSSCC 1901 Amali KimiaSSCC 1703 Kimia Tak OrganikSSCC 1851 Amali Kimia Tak Organik ISSCM 1023 Kaedah Matematik I SSCM 1103 StatistikSSCC 1413 Termodinamik KimiaSSCC 1841 Amali Kimia Fizik I

SSCC 1603 Kimia Organik – Kumpulan Berfungsi

SSCC 1821 Amali Kimia Organik ISSCM 1033 Kaedah Matematik II

SSCC 2613 Kimia Organik - BiomolekulSSCC 2891 Amali Kimia Organik IISSCC 2453 Kinetik Kimia dan ElektrokimiaSSCC 2841 Amali Kimia Fizik II

SSCC 2312 Pengurusan dan Keselamatan Makmal

SSCC 2713 Kimia KoordinatanSSCC 2851 Amali Kimia Tak Organik IISSCC 2473 Spektroskopi MolekulSSCC 2243 Prinsip Kimia AnalisisSSCC 2861 Amali Kimia Analisis ISSCC 3233 Analisis BerinstrumenSSCC 3871 Amali Kimia Analisis IISSCC 3323 Prinsip Kimia Polimer

SSCU 3623 Metodologi Penyelidikan dan Pemerolehan Maklumat

SSCC 3463 Kimia KuantumSSCU 3915 Latihan PenyelidikanSSCU 4902 Projek Sarjana Muda ISSCU 4904 Projek Sarjana Muda IIKursus ElektifSSCC 3283 Kaedah Pemisahan

SSCC 3533 Penggunaan Komputer dalam Kimia

SSCC 3643 Penggunaan SpektroskopiSSCC 4723 Kimia OrganologamSSCC 4233 Analisis ElektrokimiaSSCC 4493 Kimia Koloid dan Permukaan

SSCC 4773 Polimer Tak Organik dan Organologam

SSCC 4443 Proses Tindak Balas KimiaSSCC 4653 Sintesis OrganikSSCC 4473 Kimia Keadaan PepejalSSCC 4693 Metabolisma BiomolekulSSCC 4763 NanokimiaSSCC 4263 Analisis Terma SSCC 4733 RadiokimiaSSCC 4603 Kimia PerubatanSSCC 4363 Kimia HijauSSCP 4403 Mikoskopi dan Analisis Bahan

SSCP 4453 Fizik Suhu Rendah dan Kesuperkonduksian

Kursus Universiti


UHAS 1172 Dinamika MalaysiaUICI 2022 Sains, Technologi dan ManusiaUHAS 2092 Etika Profesional UHAS 2023 Teknokrat dan PembangunanUHAS 2122 Pemikiran Kritis dan KreatifUXXX 2xx2 Inovasi dan kreativitiULAC 2xx2 Bahasa Asing

UHAS 3012 Keusahawanan dan Pembangunan Usahawan


ULAB 1112 English for Academic Communication

ULAB 2112 Advanced English for AcademicULAB 3112 English For Career SearchULAB 3122 English for WorkplaceULAB 3132 Reading for Specific PurposesULAB 3142 Writing for Specific Purposes

ULAB 3152 Effective Oral Communication Skills

UQ_ 1xx1 Ko-Kurikulum IUQ_ 1xx1 Ko-Kurikulum II

Petunjuk:PO1-PO3 = Kemahiran Teknikal: PO4-PO10 = Kemahiran Generik

19. Keunikan Program

Program membenarkan pelajar menjalankan latihan penyelidikan mereka di organisasi tempatan dan antarabangsa.Makmal pengajaran untuk kursus amali dilengkapi dengan kemudahan terkini dan instrumen yang lengkap.Program diiktiraf oleh badan profes ional; Institut Kimia Malaysia.Jalinan hubungan sedia ada dengan industri tempatan dan antarabangsa mengukuhkan lagi kurikulum program.Program membenarkan pelajar melakukan pemindahan kredit kursus yang setara yang ditawarkan oleh universiti lain sama ada di dalam atau di luar negara.

20. Prospek dan Laluan Kerjaya

Graduan program ini dapat bekerja sebagai:

Ahli kimia atau saintis di institut penyelidikan kerajaan seperti MARDI, Malaysia Palm Oil Board (MPOB), RRI, PRSS, SIRIM, Jabatan Kimia Malaysia dan Agensi Nuklear Malaysia (Nuclear Malaysia).Ahli kimia atau jurutera proses di sektor swasta yang meliputi industri seperti petrokimia, getah , kelapa sawit, farmaseutik, pewarna dan tekstil, kosmeseutik, elektronik, rawatan air dan pemprosesan makanan.Ahli akademik atau penyelidik di institusi pengajian tinggi, dengan peluang mengikuti program lanjutan pasca siswazah di peringkat Master dan PhD.Pegawai kawalan kualiti, jaminan kualiti dan pemasaran di agensi dan industri yang memerlukan pengetahuan kimia dan kemahiran berkaitan yang baik.

21. Program Rentas Kampus

Pelajar dibenarkan untuk mengikuti kursus tertentu di universiti tempatan atau antarabangsa yang berlainan. Maksimun gred dan jumlah kredit yang boleh dipindahkan adalah 1/3 daripada jumlah kredit keseluruhan program.

22. Program Professional Skills CertificatePelajar diwajibkan mengikuti kursus tambahan yang diiktiraf oleh universiti melalui anjuran SPACE UTM . Contoh: ISO 9001:2008, OSHE, How to manage your personal finance, How to get yourself employed dan lain-lain

23. Kemudahan yang ada

Senarai Kemudahan:1. Makmal Penyelidikan2. Bengkel Peniup Kaca3. Makmal Bioteknologi4. Makmal Makromolekul5. Stor Kimia6. Pusat Sumber Jabatan Kimia7. Bilik Aktiviti Pelajar8. Bilik Komputer Pelajar9. Makmal Kimia Tak Organik 1&210. Makmal Kimia Fizik 1&211. Makmal Kimia Organik 1&212. Makmal Analisis 1 & 213. M akmal Forensik14. Bilik Instrumen

Senarai Instrumen:1. Spektrometer Resonans Magnet Nukleus 2. Kromatografi Gas - Spektrometer Jisim 3. Spektrometer Inframerah-Transformasi Fourier 4. Kromatografi Penelapan Gel5. Spektrometer UL -Nampak6. Spektrometer Pantulan Tersebar UL -Nampak7. Kromatografi Cecair Berprestasi Tinggi8. Kromatografi Gas9. Kromatografi Gas – Pengesan Spektroskopi Jisim10. Spektrometer Serapan Atom11. Mikroskop Imbasan Elektron12. Mikroskop Imbasan Elektron -Pemancaran Medan 13. Mikroskop Transmisi Elektron14. Kromatografi Ion15. Elektroforesis Rerambut16. Penganalisis Permukaan BET 17. Kalorimeter Imbasan Pembeza18. Penganalisis Termogravimetri19. Sistem Voltametri20. Spektrometer Pendarfluor21. Sistem Penjerapan/Nyahjerapan Permukaan22. Penganalisis Jumlah Karbon Organik 23. Fotometer Nyala24. Spektrometer Putaran Elektron25. Pembelauan Sinar X26. Spektrometer Jisim – Gandingan Aruhan Plasma (ICP-MS)27. Kotak Glove

24. Sokongan kepada Pelajar dan Pembelajaran

(a) Pegawai Sokongan Penasihat Akademik


KaunselorPersatuan Pelajar (PESAT)

(b) Sokongan PrasaranaCapaian Internet (Tanpa Wayar)e-PembelajaranPerpustakaan DigitalKafetariaPusat KesihatanKemudahan Sukan dan RekreasiBilik Kuliah BestariBilik Aktiviti PelajarSudut Pembacaan

(c) Sokongan KewanganPerbadanan Tabung Pendidikan Tinggi Negara (PTPTN)MARAJPA dan lain-lain

25. Kaedah Penilaian dan Penambahbaikan Kualiti dan Piawaian Pengajaran dan Pembelajaran

Mekanisma semakan semula pengajaran, pembelajaran, penilaian, kurikulum dan piawaian hasil.

1. Prestasi pelajar berdasarkan:KB/KS/KG –Lulus/Lulus Bersyarat/GagalCPA – Purata Mata KumulatifPrestasi Pelajar akan BergraduanGOT – Graduasi Pada MasaKadar PenyelesaianAnalisa Prestasi Kursus

2. KebolehpekerjaanSoal selidik pengeluaranSoal selidik alumniSoal selidik pasaran

3. Prestasi PensyarahPengajaran oleh pelajar (e-PPP)\Senarai semak kompetensi staf (CS).Laporan Penilaian Prestasi Tahunan (LPPT)

4. Kajian Semula KurikulumJawatankuasa Akademik FakultiSoal selidik latihan industriSoal selidik Projek Sarjana MudaLaporan Penilai LuarSoal selidik pencapaian CO oleh pelajare-Portfolio pelajarPenilaian Kemahiran Generik (Laporan Kriteria Prestasi)

5. Sistem PenyampaianJawatankuasa Jaminan Kualiti AkademikIndeks Kepuasan Pelanggan (CSI) Indeks Kepuasan Majikan (ESI)Audit Anugerah Kualiti Naib Canselor (AKNC)Piawai Agensi Kelayakan Malaysia (MQA)

26. Peraturan Penilaiana. Gred dan Markah

Markah Gred Mata Penilaian90-100 A+ 4.0080 – 89 A 4.0075 – 79 A - 3.6770 – 74 B+ 3.33

65 – 69 B 3.0060 – 64 B- 2.6755 – 59 C+ 2.3350 – 54 C 2.0045 – 49 C- 1.6740 – 44 D+ 1.3335 – 39 D 1.0030 34 D- 0.670 – 29 E 0

(b) Peranan Pemeriksa Luar (Pemeriksa Pelawat)

Pemeriksa Pelawat di lantik oleh Jawatankuasa Akademik Fakulti untuk:

Mengkaji semula dan menilai kurikulum program Mengkaji semula dan menilai kaedah penilaian pelajar Mencadangkan penambahbaikan kurikulum kepada Jawatankuasa Akademik.

27. Kaedah Penilaian Program

Kaedah Pengukuran

Hasil PembelajaranTempoh Tindakan

PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10

e- Portfolio x x x x x x x x x x Sepanjang masa Pelajar

Soal selidik Hasil Kursus x x x x x x x x x x Setiap

semester Pensyarah

Laporan Hasil Kursus x x x x x x x x x x Setiap

semester Pensyarah

Soal selidik Projek Sarjana Muda

x x x x x x xSetiap

semester Fakulti

Soal selidik PO oleh pelajar tahun akhir

x x x x x x x x x x Setiap semester Fakulti

Soal selidik latihan penyelidikan

x x x x x x xSetiap sesi Fakulti

Soal selidik alumni x x x x x x x x x x Sekali

setahunKetua

JabatanSoal selidik majikan x x x x x x x x x x Sekali

setahunKetua

Jabatan


1. Institusi Penganugerah Universiti Teknologi Malaysia2. Institusi Pengajaran Universiti Teknologi Malaysia3. Nama Program Sarjana Muda Sains dalam Matematik4. Anugerah Muktamad Sarjana Muda Sains (Matematik)5. Kod Program TS08 (SSCE)6. Badan Profesional atau Berkanun Pentauliahan Kementerian Pengajian Tinggi7. BahasaPengantar Bahasa Melayu dan Inggeris8. Mod Pengajian (Konvensional, pembelajaran jarak

jauh, dll)Konvensional

9. Mod Operasi (Francais, Pentadbiran-kendiri, dll) Pentadbiran-kendiri10. Skim Pengajian (Sepenuh Masa /Separuh Masa) Sepenuh Masa11. Tempoh Pengajian Minimum : 4 tahun

Maksimum : 6 tahun

Jenis SemesterBil. Semester Bil. Minggu per semester

Sepenuh Masa Separuh Masa Sepenuh Masa Separuh MasaBiasa 8 14Pendek12. Syarat Kemasukan Memenuhi semua syarat universiti dan syarat program seperti berikut:

1. Lulus Matrikulasi / STPM / Asasi Sains UM dengan sekurang-kurangnya gred B dalam mata pelajaran Matematik dan sekurang-kurangnya C dalam mata pelajaran Kimia dan Fizik atau Biologi.atau

2. Diploma Sains atau Kejuruteraan dengan PNGK sekurang-kurangnya 2.70 dari institusi diiktiraf

13. Objektif Pendidikan Program

Objektif program BSc (Matematik Industri) adalah untuk memberi pengetahuan, kemahiran dan atribut yang perlu dicapai oleh graduan untuk berjaya dalam kerjaya. Oleh itu, adalah dijangka bahawa, graduan program ini akan1. menjadi ahli profesional matematik yang kompeten yang mampu menggunakan pengetahuan dan

kemahiran dalam industri berkaitan terutamanya dalam pengajaran, penyelidikan dan pembangunan pengetahuan baru.

2. mempunyai kemahiran dalam menulis dan komunikasi lisan untuk menyebarkan pengetahuan matematik dengan berkesan.

3. mempunyai kemahiran dan motivasi untuk pendidikan yang berterusan sepanjang hayat dalam pemerolehan pengetahuan baru dan kemahiran matematik secara mendalam.


Kod Hasil Pembelajaran dihasratkan

Kaedah Pengajaran danPembelajaran Penilaian


SARJANA MUDA SAINS (MATEMATIK) - SSCEPO1

Pengetahuan Asas

Berkebolehan memperoleh pengetahuan tentang konsep asas matematik, teori dan teknik yang berkaitan dengan isu-isu semasa serta pengetahuan dalam bidang sains sosial dan pembangunan peribadi. (C2,P2,A2)

Kuliah, tutorial, pembacaanterarah.

Peperiksaan, kuiz, ujian, tugasan.

PO2Penggunaan Ilmu Matematik serta

Teknik Berpengiraan dan

Analisis

Berkebolehan menggunakan dan mengamalkan kemahiran dalam taakulan matematik, membina bukti -bukti matematik dan memapar kecekapan penggunaan pelbagai teknik matematik dalam menjalankan analisis matematik(C4,P4,A3)

Kuliah, tutorial, projek (Projek Sarjana Muda (PSM), berkumpulan / individu), pembacaan terarah, latihan berasaskan komputer, latihan simulasi, latihan penyelidikan.

Peperiksaan, kuiz, ujian, output perkomput eran, pembentangan, laporan projek, laporan latihan penyelidikan.

PO3Diskriminasi/

Membeza dan Organisasi/

Menyusun Konsep Matematik

Keupayaan untuk menilai dan menunjukkan kemahiran dalam memilih kaedah yang sesuai untuk menyelesaikan masalah teori dan aplikasi dalam sains matematik(C6,P6,A3)

Kuliah, projek (PSM, berkumpulan / individu), pembacaan terarah, pembelajaran berasaskan komputer, pembelajaran berasaskan masalah, latihan penyelidikan .

Peperiksaan, kuiz, ujian, output perkomputeran, pembentangan, laporan projek, laporan latihan penyelidikan.

b) KemahiranInsaniah


Masalah

Berkebolehan untuk memahami, mengekstrak, menganalisis dan mengenalpasti masalah dari pelbagai sumber dan membangunkan pendekatan berasaskan pengetahuan matematik untuk menyelesaikan masalah. (P4)

Pembelajaran aktif, projek (PSM, berkumpulan / individu), latihan penyelidikan.

Tugasan bertulis, pembentangan lisan, laporan projek, portfolio pembelajaran, laporan latihan penyelidikan.

PO5KemahiranKomunikasi

Kebolehan untuk menyampaikan idea dengan jelas dan berkesan dalam bentuk penulisan dan lisan kepada pelbagai khalayak. (P4)

Pembelajaran aktif, projek (PSM, berumpulan / individu), latihan penyelidikan.

Pembentangan lisan, laporan projek, laporan latihan penyelidikan.

PO6Kerja Berpasukan

Keupayaan untuk menyesuaikan diri dan bekerjasama sebagai sebahagian daripada pasukan. (A3)

Pembelajaran aktif, projek (PSM, berumpulan), latihan penyelidikan.

Pembentangan lisan, laporan projek, penilaian rakan sebaya, laporan latihan penyelidikan.

PO7Pembelajaran


Maklumat

Berkebolehan pembelajaran kendiri dan menunjukkan kesedaran untuk pembangunan peribadi dan profesional yang berterusan.

Pembelajaran aktif, projek (PSM, berkumpulan / individu), kursus-kursus pembangunan

Tugasan bertulis, pembentangan lisan, laporan projek, portfolio pembelajaran, laporan latihan penyelidikan.


(A3) profesional, latihan penyelidikan.

PO8Kepimpinan

Berkebolehan memimpin, mengambil tindakan dan mempengaruhi orang lain untuk mencapai matlamat yang sama.(A3)

Pembelajaran aktif, projek kumpulan, pembelajaran perkhidmatan, aktiviti kokurikulum, kerja berkumpulan.

Pembentangan lisan, laporan projek, penilaian rakan sebaya.

PO9Etikadan Integriti

Berkebolehan menyesuaikan nilai etika dan integriti dalam konteks profesion dan kewajipan kepada masyarakat.(A3)

PSM, aktiviti kokurikulum, kerja berkumpulan, latihan penyelidikan.

Laporan PSM, portfolio pembelajaran, laporan latihan penyelidikan.

P10Keusahawanan

Memperoleh kesedaran tentang peluang perniagaan, keusahawanan dan kerjaya.(P2)

Kuliah, tugasan, kajian kes, PSM, seminar, bengkel, aktiviti ko-kurikulum, kerja berkumpulan.

Tugasan bertulis, pembentangan lisan, laporan PSM, peperiksaan, laporan latihan penyelidikan.

15. Pengelasan KursusBil. Pengelasan Jam Kredit Peratusan (%)

i. Sains Asas dan Matematik 957.9ii. Teras Program 64

iii. Elektif Program 33 26.2iv Kursus Wajib Universiti

KemanusiaanBahasa InggerisKo -KurikulumKeusahawanan

10622

15.9

1.4 Jumlah 126 100Bagi program Sains, sila isi klasifikasi berikut. (Lain -lain, sila rujuk kepada garis panduan Badan Berkanun berkaitan)Bil. Klasifikasi Jam Kredit Peratusan (%)

AKursus Matematik

(a) Kuliah(b) LatihanPenyelidikan(c) Projek Sarjana Muda

9556

74.53.94.8

Jumlah Jam Kredit Bahagian A 106 84.1B Kursus Berkaitan

(a) Kemanusiaan/Etika(b) Ko -Kurikulum(c) Bahasa Inggeris(d) Keusahawanan

10262

7.91.64.81.6

Jumalah Jam Kredit Bahagian B 20 15.9Jumlah Jam Kredit Bahagian A dan B

126 100

16. Jumlah jam kredit untuk bergraduat 126

17. Struktur dan Ciri Program, Kurikulum dan Keperluan Penganugerahan IjazahKursus ini ditawarkan dalam mod sepenuh masa dan berdasarkan Sesi Akademik dua Semester dengan beberapa kursus yang diajar dan dinilai setiap Semester. Penilaian adalah berdasarkan peperiksaan akhir dan kerja kursus yang dijalankan di seluruh semester.

Keperluan Penganugerahan:Untuk bergraduat, pelajar perlu:

Mencapai sejumlah tidak kurang daripada 126 jam kredit dengan minimum PNGK 2.0.Lulus latihan penyelidikan.Tamat dan lulus projek sarjana muda.




Communication 2

SSCM 1012 Pengenalan kepada Program Matematik 2 UHAS 1172 Dinamika Malaysia 2

SSCM 1023 Kaedah Matematik I 3 SSCM 1033 Kaedah Matematik II 3

SSCP 1143/ SSCC 1003

Mekanik/Prinsip Kimia 3 SSCM 1313 Pengaturcaraan Komputer 3








SSCM 2793 Kakulus Vektor 3 SSCM 2613 Kalkulus Lanjutan 3

SSCM 2673 Matematik Diskret 3 SSCM 2803 Pemodelan Matematik I 3

SSCM 2773 Persamaan terbitan II 3 SSCM 2833 Pengaturacaraan Linear 3


UKQU 2202 Inovasi dan Kreativiti 2





SSCM 3423 Kaedah Berangka II 3SSCM 3703 Persamaan Terbitan Separa 3

UKQL 3012 Service Learning 2


Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) SSCU 3623 Kaedah Penyelidikan dan

Pencarian Maklumat 3

UHAS 2032 Teknokrat dan Pembangunan 2 Elektif Keusahawanan (Pilih 2 kredit)

UHAS 2092 Etika Profesional 2 UHAS 3012 Keusahawanan dan Pembangunan Usahawan 2


Electif ULAB (Pilih 2 kredit) Elektif (Pilih 6 kredit)

ULAB 3112 English for Career Search 2 SSCM 3353 Pengaturcaraan C++ 3

ULAB 3122 English for Workplace Communication 2 SSCM 3553 Teori Gelanggang dan Medan 3

ULAB 3132 Reading for Specific Purposes 2 SSCM 3543 Teori Nombor 3

ULAB 3142 Writing for Specific Purposes 2 SSCM 3673 Analisis Fungsian 3



SSCM 3503 Pembolehubahan Kompleks 3




SSCM 3523 Aljabar Moden 3


SEMESTER PENDEK

Kod Nama Kursus kr


Jumlah Jam Kredit 5





SSCM 4633 Teori Set Kabur 3 SSCM 4783 Mekanik Kuantum 3

SSCM 4653 Aljabar Niskala Gunaan 3 SSCM 4623 Geometri Tak Euklidan 3

SSCM 4683 Topologi 3 SSCM 4733 Sistem Dinamik 3

SSCM 4763 Dinamik Bendalir Berkomputeran 3 SSCM 3153 Statistik Pentaabiran 3

SSCM 4163 Proses Stokastik 3 SSCM 4813 Kawalan Optimal 3


18. Pemetaan Hasil Pembelajaran Program kepada Kursus

KURSUS DITAWARKAN

HASIL PEMBELAJARANPengetahuan Asas

dan Kecekapan Kemahiran Insaniah

Peng

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Kod Nama Kursus PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO1OKursus TerasSSCM 1012 Pengenalan kepada Program

Matematik / - - - / - - - / -

SSCM 1023 Kaedah Matematik I / / - - / - - - - -SSCP 1143 Mekanik / / - - - / - - - -SSCC 1003 Prinsip Kimia / / - - - / - - - -SSCM 1103 Statistik / / - - - / - - - -SSCM 1303 Literasi Komputer / / - - / - - - - -SSCM 1033 Kaedah Matematik II / / - - / - - - - -SSCM 1313 Pengaturcaraan Komputer / / - - - / - - - -SSCM 1523 Aljabar Linear / / / - - - - - -SSCM 2673 Matematik Diskret / / - - / - - - -SSCM 2103 Statistik Bermatematik / / - - - / - - - -SSCM 2423 Kaedah Berangka I / / - / - - - - - -SSCM 1703 Persamaan Terbitan I / / - - - / - - - -SSCM 2793 Kalkulus Vektor / / / - - - - - -SSCM 2833 Pengaturcaraan Linear / / / - / / - - - -SSCM 2043 Kaedah Matematik III / / / - - - - - -SSCM 2613 KalkulusLanjutan / / - / - - - - -SSCM 2773 Persamaan Terbitan II / / - - / - - - -SSCM 2803 Pemodelan Matematik I / / / / / - / - -SSCU 3623 Kaedah

Penyelidikan & PencarianMaklumat

/ / - - - - / - / -

SSCU 4902 Projek Sarjana Muda I / / - / / - / - / -SSCU 4904 Projek Sarjana Muda II / / - / / - / - / -SSCU 3915 Latihan Penyelidikan (HW) / / / - / / - - - /SSCM 3423 Kaedah Berangka II / / - / - - - - - -Kursus ElektifSSCM 3503 Pembolehubah Kompleks / / / - - - - - - -SSCM 3533 Teori Set dan Mantik / / - / - - - - - -SSCM 3703 Persamaan Terbitan Separa / / - / - - - - - -SSCM 3793 Kalkulus Ubahan / / - - / - - - - -SSCM 3353 Pengaturcaraan C++ / / - - - - / - - -SSCM 3553 Teori Medan & Gelanggang / / - - - / - - - -SSCM 3543 Teori Nombor / / - - - - / - - -SSCM 3673 Analisis Fungsian / / - / - - - - - -SSCM 4733 Sistem Dinamik / / / - - - - - - -SSCM 3753 Mekanik Bendalir / / - - / - - - - -SSCM 4623 Geometri Bukan Euklid / / - - - / - - - -SSCM 4633 Teori Set Kabur / / / / - - - - - -


19. Keunikan ProgramProgram khas ini bertujuan untuk melahirkan ahli matematik muda cemerlang dan berbakat.Mewujudkan hubungan dengan fakulti matematik tempatan dan antarabangsa untuk tujuan latihan penyelidikan di luar negara.Satu-satunya program Sarjana Muda Matematik yang menawarkan latihan penyelidikan di makmal penyelidikan sama ada di dalam atau di luar negara.Program ini membenarkan perpindahan kredit daripada kursus setaraf yang ditawarkan di institusi tempatan atau luar negara.Menyediakan pelajar untuk membangun dan mengaplikasi p engetahuan dan kemahiran matematik mereka secara beretika dalam bidang matematik atau bidang lain.

SSCM 4653 Aljabar Abstrak Gunaan / / - - - / - - - -SSCM 4683 Topologi / / - / - - - - - -SSCM 4763 Dinamik Bendalir

Berkomputeran / / / - - - / - - -

SSCM 4783 Mekanik kuantum / / - / - - - - - -SSCM 4163 Proses Stokastik / / / / - - - - - -SSCM 3153 Statistik Pentadbiran / / - - / - - - - -SSCM 4813 Kawalan Optimum / / / - - / - - - -SSCM 3523 Aljabar Moden / / - / - - - - - -UKQL 3012 Servis Komuniti / / / / / / / / / -

Kursus Universiti

UICI 1012 Tamadun Islam dan Tamadun Asia / / /



UHAS 2092 Etika Profesional / / /UHAS 2023 Teknokratdan PembangunanUHAS 2122 Pemikiran Kritis dan Kreatif / / /UXXX 2xx2 Inovasidan KreativitiULAC 2xx2 Bahasa Asing


/ / /


/ / /

ULAB 2112 Bahasa Inggeris Lanjutan untuk Komunikasi Akademik

/ /

ULAB 3122 Bahasa Inggeris untuk Komunikasi di Tempat Kerja

/ /

ULAB 3132 Pembacaan untuk TujuanKhusus

/ /

ULAB 3142 Penulisan untuk TujuanKhusu

/ /

ULAB 3152 Komunikasi Lisan Berkesan / /

UQ_ 1xx1 Ko-Kurikulum I /UQ_ 1xx1 Ko-Kurikulum II /ULAB 3112 English for Career Search /

20. Prospekdan Laluan Kerjaya

Graduat program ini boleh bekerja sebagaiAhli akademik dan penyelidik di institusi pengajian tinggiPenyelidik di jabatan R&D di dalam syarikat berkaitan kerajaan (GLC) atau syarikat multi nasionalEksekutif kewangan dalam institusi kewanganPegawai pentadbiran dalam pertubuhan kerajaan atau sektor swastaEksekutif jualan dan pemasaran

21. Program Silang Kampus

Pelajar diberi peluang untuk mendaftar kursus tertentu di institusi yang menyertai sama ada tempatan atau luar negara. Mankala gred atau kredit boleh dipindahkan sehingga 1 / 3 daripada jumlah kredit dalam kurikulum.


Pelajar diberi peluang untuk mendaftar dalam program-program sijil yang ditawarkan oleh Pusat Kecemerlangan di universiti semasa cuti semester mereka. Sebagai contoh, Sijil Pengurusan Kualiti Menyeluruh (TQM).

23. Kemudahan Disediakan

Senarai makmal komputer dan bilik -bilik dengan kemudahan IT15. Makmal Komputer 116. Makmal Komputer 217. Makmal Komputer 318. Makmal Komputer 419. Bilik Kuliah Bijak20. Pusat Sumber

24. Sokongan untuk Pelajar dan Pembelajaran Mereka

Program induksi untuk tujuan orientasi dan pengenalan kemahiran belajar selama dua mingguBukudan Modul Panduan PelajarNisbah staf - pelajar 1:15 dalam pengajaranPerpustakaan yang ekstensif/lengkap dan lain -lain kemudahan sumber pembelajaran.Pelajar diberikan penasihat akademik untuk membantu mereka dalam perancangan pendidikan.

25. Kaedah untuk menilai dan meningkatkan kualiti dan piawaian mekanisma pengajaran dan pembelajaran untuk semakan dan penilaian pengajaran, pembelajaran, penilaian, kurikulum dan piawaian hasil

1. Prestasi pelajar dari segi:KS/KBPNGKPrestasi pelajar graduatGraduat Tepat Masa, GOTKadar SelesaiAnalisis Prestasi Kursus


2. Keboleh PekerjaanKaji selidik keluarKaji selidik alumniKaji selidik pasaran

3. Prestasi pensyarahPenilaian Pengajaran oleh Pelajar (OMR)Senarai semakan kecekapan untuk staf (CV)Penilaian tahunan staf (SKT)

4. Semakan KurikulumJawatankuasa Akademik FakultiKaji selidik PSM Laporan pemeriksaluarKaji selidik pencapaian hasil pembelajaran oleh pelajare-Portfolio pelajarPenilaian Kemahiran Insaniah (Kriteria Laporan Prestasi)

5. Sistem PenyampaianJawatankuasa Jaminan Kualiti AkademikCSI SSILaporan audit AKNC Piawaian MQA

26. Peraturan Taksiran

a) Ringkasan markah, gred matanilai masing-masing

Markah Gred Matanilai90-100 A+ 4.0080-89 A 4.0075-79 A - 3.6770-74 B+ 3.3365-69 B 3.0060-64 B- 2.6755-59 C+ 2.3350-54 C 2.0045-49 C- 1.6740-44 D+ 1.3335-39 D 1.0030-34 D- 0.6700-29 E 0.00

b) Peranan Pemeriksa Luar (Pemeriksa Pelawat) Pemeriksa Pelawat dilantik oleh Jawatankuasa Akademik Fakulti

Menyemak dan menilai kurikulum program,Menyemak dan menilai prosedur dan kaedah penilaian,Membuat syor kepada Jawatankuasa Akademik.

27. Alat Penilaian

Alat PengukuranHasil Pembelajaran

Jangkamasa TindakanPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10

e- Portfolio x x x x x x x x x x berterusan Pelajar

Soal Selidik HasilPembelajaran kursus x x x x x x x x x x Hujung

Semester PensyarahLaporan HasilPembelajaran x x x x x x x x x x Hujung

Semester PensyarahSoal Selidik Projek Sarjana Muda x x x x x x x Hujung

Semester Fakulti

Soal selidik Hasil Pembel-ajaran Program (PO) oleh pelajar tahun akhir

x x x x x x x x x x Hujung Semester Fakulti

Soal selidik LatihanIndustri x x x x x x x Hujung

Sesi Fakulti

Soal Selidik Alumni x x x x x x x x x x SekaliSetahun

KetuaJabatan

Soal Selidik Majikan x x x x x x x x x x SekaliSetahun



Objektif Program Sarjana Muda Sains (Fizik Industri) adalah untuk memberi pengetahuan, kemahiran dan ciri - ciri yang perlu dicapai oleh graduan untuk kerjaya yang berjaya. Program ini direka untuk :

1. Melatih ahli fizik yang berketerampilan untuk keperluan industri dan institusi penyelidikan.

2. Menyediakan graduan yang mampu menerajui satu pasukan dan mengambil tanggungjawab utama di tempat kerja dan masyarakat.

3. Menyediakan graduan yang mempunyai personaliti tersohor, melalui hujah yang kritikal dan analisisserta kemahiran komunikasi bertulis dan lisan yang berkesan.

4. Menyediakan graduan berfikiran kreatif dan inovatif dalam menempuh cabaran baru.

5. Menyediakan graduan yang berintegriti profesional dan mampu menguruskan pembelajaran kendiri.

6. Menyediakan graduan yang berkemahiran keusahawanan dan mampu memandang kehadapan terhadap kekayaan dan peluang pekerjaan.

1. Institusi Penganugerahan Universiti Teknologi Malaysia2. Institusi Pengajaran Universiti Teknologi Malaysia3. Nama Program Sarjana Muda Sains Fizik Industri4. Anugerah Akhir Sarjana Muda Sains (Fizik Industri)5. Kod Program TS336. Akreditasi Badan Berkanun atau Profesional Kementerian Pendidikan Malaysia7. Bahasa Penghantar Bahasa Malaysia dan Bahasa Inggeris8. Mod Pengajian ( Konvensional, jarak jauh, dll) Konvensional9. Mod Operasi ( Francais, Tadbir Kendiri, dll) Tadbir Kendiri10. Skim Pengajian ( Sepenuh masa/ Separuh masa) Sepenuh masa11. Tempoh Pengajian Minimum : 4 tahun

Maksimum : 6 tahun

Jenis semesterBil. Semester Bil. minggu per semester

Sepenuh masa Separuh Masa Sepenuh masa Separuh MasaNormal 8 - 14 -Pendek - - - -12. Syarat Kemasukkan Memenuhi syarat Universiti dan program seperti berikut:

1. Lulus matrikulasi / STPM/ASASI Sains UM dengan sekurang - kurangnya gred B dalam Fizik dan sekurang - kurangnya C dalam kimia dan matematik.

atau2. Diploma Sains atau Kejuruteraan dengan sekurang - kurangnya CPA 2.70

dari institusi yang di iktiraf.

PO1Pengetahuan Asas

Fizik

Kebolehan menggarap pengetahuan mengenai hukum dan prinsip asas fizik dalam penggunaan terkini serta pengetahuan dalam sains sosial dan pembangunan diri (C2,P2,A2)

Kuliah, tutorial, seminar, kerja makmal, pembacaan terarah, pembelajaran aktif.

Peperiksaan, ujian, kuiz, laporan makmal, pembentangan, tugasan bertulis, latihan berasaskan masalah, laporan projek.

PO2Penggunaan

pengetahuan dan kemahiran Fizik

Kebolehan mengguna, mempraktiskan dan menganalisis hukum dan prinsip asas fizik menerusi kaedah eksperimen, teknik pengkomputeran dan matematik dalam menyelesaikan permasalahan fizik yang berkaitan dengan industri.(C4, P4, A3)

Kuliah, tutorial, kerja makmal, sesi hands on komputer, latihan industry

Peperiksaan, laporan makmal, pembentangan, tugasan - tugasan bertulis, latihan berasaskan masalah, laporan projek, Laporan Latihan Industri, Latihan Simulasi

PO3Kajian Saintifik dan Penyelidikan dalam

Bidang Fizik

Kebolehan merancang, menilai dan menunjukcara kajian dan penyelidikan saintifik dalam bidang fizik yang berkaitan dengan penggunaannya di industri.(C6, P6, A3)

Projek yang diselia, kuliah, kerja makmal, pembacaan terarah, latihan simulasi, latihan berasaskan komputer, pembelajaran berasaskan masalah, latihan ind ustri.

Laporan Projek Tahun Akhir,Peperiksaan, laporan makmal, Pembentangan, tugasan bertulis, laporan latihan industri.

(b) Kemahiran insaniah


Kebolehan mempraktikkan pengetahuan dan kemahiran prinsip dan teorifizik bagi menyelesaikan permasalahan saintifik dengan berkesan.(P4)

Projek yang diselia, kuliah, kerja makmal, pembacaan terarah, latihan simulasi, latihan berasaskan komputer, pembelajaran berasaskan masalah, latihan industri, tutorial.

Laporan Projek t ahun akhir, peperiksaan laporan makmal, pembentangan, tugasan bertulis, laporan latihan industri.


Kebolehan berkomunikasi secara berkesan dan yakin menerusi penulisan dan lisan kepada pelbagai lapisan khalayak (P4)

Projek yang diselia, kuliah, kerja makmal, tugasan individu, latihan industri.

Laporan Projek tahun akhir, peperiksaan, laporan makmal, pembentangan, tugasan bertulis, laporan latihan industri.

PO6Kerja Berpasukan

Kebolehan berperanan secara berkesan dan bertanggungjawab sebagai ahli kumpulan bagi mencapai matlamat bersama dan mampu menyesuaikan diri dalam situasi dan keutamaan yang berubah.(A3)

Projek tahun akhir, tugasan berkumpulan, latihan industri, kerja makmal

Laporan Makmal,Lapuran Projek tahun akhir, lapuran latihan industri.

14. Hasil Pembelajaran ProgramKod Matlamat Hasil

pembelajaran Kaedah Pengajaran

Pembelajaran Penilaian

(a) Kemahiran teknikal dan kopetensi

SARJANA MUDA SAINS (FIZIK INDUSTRI) - SSCF


Kemampuan

bersama. (A3)

PO7Pembelajaran

Sepanjang Hayat dan Pengurusan Maklumat


Projek tahun akhir, tugasan individu, latihan industry.

Lapuran Projek tahun akhir, tugasaan bertulis, lapuran latihan industri.

PO8Kepimpinan

mempamerkan kepeimpinan, bertindak balas dan mengajak mempengaruhi yang lain untuk mencapai matlamat

Projek, tutorial, tugasan berkumpulan, kerja makmal.

Pembentangan, tugasan berkumpulan


Kebolehan mengadaptasinilai -nilai etika dan integritidalam interaksi sosial dan saintifik, berfikiran positif dan memiliki jati diri.(A3)

Kuliah, projek tahun akhir, latihan industri.

Lapuran Projek tahun akhir, tugasaan bertulis, lapuran latihan industri.

PO 10Keushawanan

Mempunyai kesedaran dan kecenderungan kepada peluang perniagaan dan keushawanan. (P2)

Kuliah, latihan industry, project

Tugasan bertulis,projek report

15. Pengkelasan KursusBil. Pengkelasan Jam kredit Peratus (%)i. Asas sains dan matematik 20 58.9ii. Program Teras 56iii. Program Elektif 33 25.6

iv. Kursus Wajib Universiti a. Kemanusianb. Bahasac. Ko -kurikulumd. Keusahawanan

10622

15.5

Jumlah 129 100Untuk program Sains, sila isikan klasifikasi berikut. (Lain -lain sila rujuk kepada garis panduan)

Bil. Pengkelasan Jam Kredit Peratus %A

1.1 Kursus Fizik

(a) Kuliah(b) Makmal / bengkel(c) Projek Tahun Akhir(d) Latihan Industri

71665

55.04.74.73.8

Jumlah jam kredit untuk Bahagian A 88 68.2

B

1.2 Kursus berkaitan

(a) Matematik(b) Pengurusan dan Pemasaran(c) Kemaknusian /Etika(d) Ko -Kurrikulum(e) Bahasa Inggeris

129

1026

9.37.07.81.64.7

17. Struktur dan Ciri - ciri Program, kurikulum dan syarat penganugerahanKursus ini ditawarkan dalam mod sepenuh masa dan berdasarkan Sesi Akademik 2 Semester dengan beberapa kursus dijalankan dan dinilai di setiap semester. Penilaian adalah berdasarkan kepada peperiksaan akhir dan kerja kursus yang dijalankan sepanjang semester.

Syarat Penganugerahan:Untuk pengijazahan, pelajar perlu:

Mencapai jumlah tidak kurang 129 jam kredit dengan minimum CPA 2.0Lulus Latihan Industri

Tamat dan lulus Projek Sarjana muda.




Communications 2










SSCM 1703 Persamaan Terbitan I 3 UQ_1XX1 Service Learning 2

SSCP 2213 Fizik Nukleus 3 ULAB 2112 Advanced English for Academic Communications 2

SSCP 2313 Elektronik Asas 3 SSCP 2113 Termodinamik 3

SSCP 2333 Pengaturcaraan Komputer 3 SSCP 2413 Fizik Keadaan Pepejal 3

SSCP 2811 Amali Fizik III 1 SSCP 2613 Fizik Matematik 3

UICI 2022 Sains Teknologi dan Manusia 2 SSCP 2821 Amali Fizik IV 1




(f) Keusahawanan 2 1.6

Jumlah jam kredit untuk Bahagian B 41 31.8

1.3 Jumlah Jam Kredit untuk Bahagian (A +B) 129 100%

16. Jumlah Jam Kredit untuk penganugerahan 129 jam kredit





SSCP 3113 Keelektromagnetan 3 SSCP 3343 Instrumentasi dan Pemerolehan Data 3

SSCP 3133 Fizik Terma dan Statistik 3 SSCP 3613 Mekanik Kuantum I 3

SSCP 3323 Elektronik Lanjutan 3 SSCP 3821 Amali Fizik VI 1

SSCP 3811 Amali Fizik V 1

Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) Elektif Keusahawanan (Pilih 2 kredit)







ULAB 3122 English for Workplace Communications 2 SHAS 1043 Tabiat Organisasi 3

ULAB 3132 Reading for Specific Purposes 2 SSCP 3433 Kawalan Kualiti 3




SHC 1163 Prinsip Perakaunan 3

SHA D 1033 Prinsip Pengurusan 3


SEMESTER PENDEK

Kod Nama Kursus kr


Jumlah jam kredit 5





Elektif A Elektif A

SSCP 4123 Penilaian dan Ujian Tanpa Musnah 3 SSCP 4013 Pemprosesan Data 3

SSCP 4133 Elektronik Industri 3 SSCP 4303 Kawalan Proses 3

SSCP 4143 Simulasi Litar Elektronik 3 SSCP 4353 Teknik Ultrasonik 3

SSCP 4383 Pemprosesan Isyarat 3 SSCP 4363 Pengujian dan Penyengaraan Elektronik 3

SSCP 4393 Perantaramukaan Komputer 3 SSCP 4373 Elektronik Komunikasi 3

Elektif B Elektif B

SSCP 4223 Pengesanan Sinaran 3 SSCP 4253 Fizik Perubatan 3

SSCP 4233 Perlindungan Sinaran 3 SSCP 4263 Keselamatan dan Kesihatan Pekerjaan 3

SSCP 4243 Fizik Sinaran Gunaan 3 SSCP 4273 Tenaga Nuklear 3

SSCP 4293 Dosimetri Sinaran 3 SSCP 4283 Perlindungan Sinaran Alam Sekitar 3

SSCP 4913 Radiobiologi 3 SSCP 4203 Perlindungan Sinaran Perubatan 3

Elektif C Elektif C

SSCP 4623 Sains Bahan 3 SSCP 4463 Sains Kakisan 3

SSCP 4633 Bahan Seramik dan Amorfos 3 SSCP 4473 Spektroskopi dan Analisis

Bahan 3

SSCP 4643 Bahan Polimer 3 SSCP 4483 Peranti Semikonduktor 3

SSCP 4603 Teknologi Vakum dan Saput Tipis 3 SSCP 4443 Bahan Magnet 3

SSCP 4493 Kajilogam 3 SSCP 4403 Mikroskopi dan Analisis Bahan 3

18. Pemetaan hasil pembelajaran program kepada kursus

Hasil Pembelajaran

KURSUS DITAWARKAN

Peng

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Kem

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Peny

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Kom

unik

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Kerja

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panj

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Keus

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Kod Kursus P01 P02 P03 P04 P05 P06 P07 P08 P09 P010Kursus TerasSSCP 1102 Pengenalan kepada Kursus

FizikSSCP 1143 MekanikSSCP 1153 Elektrik dan KemangnetanSSCM 1023 Kaedah Matematik ISSCM 1523 Algebra LinearSSCM 1033 Kaedah Matematik IISSCM 1703 Persamaan Terbitan ISSCP 1811 Amali Fizik ISSCP 1163 Bunyi, Gelombang dan OptikSSCP 1223 Fizik ModenSSCP 1821 Amali Fizik IISSCP 2313 Elektronik AsasSSCP 2213 Fizik NukleusSSCP 2333 Pengaturcaraan KomputerSSCP 2811 Amali Fizik III


SSCP 3323 Elektronik LanjutanSSCP 2613 Fizik MatematikSSCP 2413 Fizik Keadaan PepejalSSCP 2821 Amali Fizik IVSSCP 3113 Keelektromagnetan SSCP 2113 TermodinamikSSCP 3343 Instrumentasi dan

Pemerolehan DataSSCP 3811 Amali Fizik VSSCP 3821 Amali Fizik VISSCP 3613 Mekanik KuantumSSCP 3133 Fizik Terma dan StatistikSSCU 4902 Projek Sarjana Muda ISSCU 4904 Projek Sarjana Muda IISSCU 3905 Latihan Industri (HW)ELEKTIF (Pilih 33 Kredit)Kursus Elektif Pengurusan (Pilih 9 Kredit)SSCP 3433 Kawalan KualitiSSCD 1043 Tabiat OrganisasiSHAC 1163 Prinsip PerakaunanSHAF 1013 Prinsip PemasaranSHAD 1033 Prinsip PengurusanElektif Fizik (Pilih 24 kredit dari satu kumpulan)

Elektif ASSCP 4123 Penilaian dan Ujian Tanpa

MusnahSSCP 4133 Elektronik IndustriSSCP 4143 Simulasi Litar ElektronikSSCP 4383 Pemprosesan IsyaratSSCP 4393 Pengantaramukaan KomputerSSCP 4353 Teknik UltrasonikSSCP 4363 Pengujian dan

Penyenggaraan ElektronikSSCP 4373 Elektronik KomunikasiSSCP 4303 Kawalan ProsesSSCP 4013 Pemprosesan Data

Elektif BSSCP 4913 RadiobiologiSSCP 4223 Pengesanan SinaranSSCP 4233 Perlindungan SinaranSSCP 4243 Fizik Sinaran GunaanSSCP 4293 Dosimetri SinaranSSCP 4253 Fizik PerubatanSSCP 4263 Keselamatan dan Kesihatan

Pekerjaan SSCP 4273 Tenaga NuklearSSCP 4283 Perlindungan Sinaran Alam

SekitarSSCP 4203 Perlindungan Sinaran

PerubatanElektif C

SSCP 4623 Sains BahanSSCP 4633 Bahan Seramik dan AmorfusSSCP 4643 Bahan PolimerSSCP 4603 Teknologi Vakum dan Saput

TipisSSCP 4493 Kajilogam

SSCP 4463 Sains KakisanSSCP 4473 Spektroskopi dan Analisis

BahanSSCP 4483 Peranti SemikondukturSSCP 4443 Bahan MagnetSSCP 4403 Mikroskopi dan Analisis

Bahan

PO1-PO3 = Kemahiran Teknikal:PO4-PO10 = Kemahiran Generik

19. Keunikan Program

Program ini digubal dan dirancang menepati kehendak semasa industri.Program ini membenarkan pelajar mengikuti latihan industri sama ada di dalam atau di luar negara.Wujud hubungan universiti dengan industri sama ada dalam dan luar negara. Program ini membenarkan pemindahan kredit daripada kursus setara daripada institusi pengajian tinggi

Elektif DSSCP 4523 Teknologi LaserSSCP 4533 Teknologi Gentian OptikSSCP 4543 OptoelektronikSSCP 3523 Optik ModenSSCP 4713 Pengenalan kepada Optik Tak

LinearSSCP 4553 Optik GunaanSSCP 4563 FotonikSSCP 4573 Laser dalam PerubatanSSCP 4583 FotometrikSSCP 4593 Kejuruteraan Laser Keadaan

PepejalKursus Universiti




UHAS 2092 Etika Profesional UHAS 2023 Teknokrat dan PembangunanUHAS 2122 Pemikiran Kritis dan KreatifUXXX 2xx2 Inovasi dan KreativitiULAC 2xx2 Bahasa Asing


ULAB 1112 English for Academic Communications

ULAB 2112 Advanced English for Academic Communications

ULAB 3112 English for Career Search

ULAB 3122 English for Workplace Communication

ULAB 3132 Reading for Specific PurposesULAB 3142 Writing for Specific Purposes

ULAB 3152 Effective Oral Communication Skills

UHAS 3012 KeusahawananUQ_ 1xx1 ko-kurrikulum IUQ_ 1xx1 ko-kurrikulum II

yang lain.Makmal – makmal kami dilengkapi dengan peralatan dan kemudahan terkini.


13. Pengesan Germanium Hyper tulen -Hyper pure Germanium Detector14. Mikroskop Daya Atom (AFM) - Atomic Force Microscope 15. Rapid Thermal Process (RTP)16. Mesin Tegangan - Tensile Machine17. Mesin Kakisan - Corrosion Machine

24. Sokongan untuk pelajar dan pembelajarannya

a) Dua minggu program induksi bagi suaikenal dan pengenalan kepada kemahiran pembelajaranb) Buku panduan pelajar serta Modul Bimbinganc) Nisbah staf dan pelajar 1:12d) Kemudahan perpustakaan dan sumber pembelajaran yang laine) Semua pelajar disediakan penasihat akademik yang mempunyai tugas membantu dalam masalah

peribadi serta menasihati program pembelajaran.

25. Kaedah Penilaian dan Peningkatan Kualiti dan Piawaian Pengajaran dan Pembelajaran. Mekanisma bagi semakan dan penilaian pengajaran, pembelajaran, penilaian, kurikulum dan hasil piawaian.

1. Pencapaian pelajar dari segi:KS/KBCPAPrestasi pelajar graduatGraduat pada masanyaTempoh tamat belajarAnalisis prestasi kursus

2. Keboleh pasaranKajian keluar Kajian AluminiKajian Pasaran

3. Prestasi Pensyaraha. Penilaian pengajaran oleh pelajarb. Senarai semak kompetensi staf (CV).c. Sasaran Kerja Tahunan (SKT)

4. Semakan semula KurikulumJawatankuasa akademik fakultiKajian Latihan industriKajian Projek Sarjana MudaLaporan pemeriksa luarSemakan semula pencapaian hasil pembelajaran kursus oleh pelajare-Portfolio pelajarPenilaian kemahiran Generik (Performance Criteria Report)

5. Sistem penyampaianJawatankuasa Jaminan Kualiti AkademikCSI (Indeks kepuasan pelanggan) SSI(Indeks kepuasan pelajar)Laporan audit AKNC Piawaian MQA

20. Prospek dan laluan kerajayaProgram Ijazah Sarjana Muda Sains Fizik Industri menyediakan graduan yang boleh dan mampu melaksanakan tugasan penyelidikan dan pembangunan di industri, makmal -makmal penyelidikan sama ada kerajaan atau swasta sebagai penyelidik dan ahli s ains, jurutera kawalan kualiti. Antara profesyen yang biasa diceburi oleh graduan program ini ialah Jurutera Jaminan Kualiti dan Jurutera Kawalan di Industri Pembuatan, Penyelia Jaminan Kualiti Ujian Tanpa Musnah, Pengurus Instrument, Pegawai OSHA, Penyelidik di Institusi Penyelidikan Kerajaan dan Swasta, Jurutera Pemasaran dan jualan. Di sektor awam graduan Fizik industri boleh meneroka kerjaya sebagai Pegawai Sains, Saintis, Ahli Meteorologi dan sebagainya.

21. Program merentas kampus (Cross Campus Program)

Pelajar diberi peluang untuk mendaftar kursus tertentu di universit i yang terlibat di dalam dan luar negara. Mana-mana gred atau kredit sehingga 1/3 daripada jumlah kredit dalam kurikulum boleh dipindahkan.

22. Program UTM Degree ++ Pelajar diberi peluang untuk mendaftar dalam program sijil yang ditawarkan oleh Pusat Kecemerlangan di Universiti, dengan kursus - kursus yang ditawarkan oleh Pusat Pengajian Profesional dan Pendidikan Berterusan (SPACE) semasa cuti semester mereka .

23. Kemudahan Sedia AdaA: Makmal

1. Makmal Fizik Moden2. Makmal Optik3. Makmal Elektronik Asas & Lanjutan4. Makmal Optoelektronik5. Makmal Fizik Nuklear6. Makmal Dosimetri Sinaran7. Makmal Penyelidikan dan Teknologi Laser8. Makmal Teknologi Fiber Optik9. Makmal Filem Tipis & Suhu Rendah10. Makmal Vakum11. Makmal Sains Bahan & Analisis Bahan12. Makmal Komputer & Mikrokomputer13. Makmal Latihan Fotonik & Penyelidikan14. Makmal Penyelidikan Kristal Optik15. Bengkel Elektronik & Mekanikal

B: Peralatan Utama1. Diffractometer Sinar - X (XRD)2. Mesin Pertumbuhan hablur menggunakan kaedah CZ3. Spektrofotometer inframerah4. Spektrometer UV -VIS5. Mesin CNC6. Spektrometer Photoluminiscence7. Mesin Pengilap dan Pengisar Berkejituan Tinggi8. Ellipsometer9. Relau Suhu Tinggi10. Differential Thermal Analyzer (DTA)11. Peralatan kekerasan Vickers -Vickers Hardness Equipment12. Mesin Ujian Mekanikal Am


26 Peraturan Penaksiran

a) Ringkasan markah, gred dan mata nilaian.

Markah Grad Mata nilai90-100 A+ 4.0080-89 A 4.0075-79 A- 3.6770-74 B+ 3.3365-69 B 3.0060-64 B- 2.6755-59 C+ 2,3350-54 C 2.0045-49 C- 1.6740-44 D+ 1.3335-39 D+ 1.0030-34 D- 0.6700-29 E 0.00

b) Peranan Pemeriksa Luar (Pemeriksa Pelawat)Pemeriksa Pelawat dilantik oleh Jawatankuasa Akademik Fakulti bagi

Semakan semula dan nilai kurikulum programSemakan dan menilai prosedur dan kaedah penilaianMencadangkan syor yang perlu kepada Jawatankuasa Akademik



Tempoh Tindakan olehLO1 LO2 LO3 LO4 LO5 LO6 LO7 LO8 LO9 LO10

e- Portfolio x x x x x x x x x x beterusan pelajar

Hasil kaji selidik kursus x x x x x x x x x x Akhir Sem pensyarahLaporan hasil pembelajaran kursus x x x x x x x x x x Akhir Sem pensyarah

Kaji selidik Projek Tahun Akhir x x x x x x x Akhir Sem Fakulti

Kaji Selidik PO oleh pelajar tahun akhir x x x x x x x x x x Akhir Sem Fakulti

Kaji selidik Latihan Industri x x x x x x x Akhir sesi Fakulti

Kaji selidik Alumni x x x x x x x x x x sekali/ tahun KJ

Kaji selidik Majikan x x x x x x x x x x sekali/ tahun KJ

1. Institusi Penganugerah Universiti Teknologi Malaysia

2. Institusi Pendidikan Universiti Teknologi Malaysia

3. Nama Program Sarjana Muda Sains dalam Kimia industri

4. Anugerah Akhir Sarjana Muda Sains (Kimia Industri)

5. Kod Program TS07 (SSC)

6. Badan Akreditasi Berkanun dan Profesional Kementerian Pendidikan Malaysia

7. Bahasa Pengantar Bahasa Melayu dan Bahasa Inggeris

8. Mod Pengajian (Konvensional, pembelajaran jarak jauh, dan lain -lain

Konvensional

9. Mod Operasi (Francais, Urustadbir sendiri, dan lain-lain)

Urustadbir sendiri

10. Skema Pengajian (sepenuh masa/separuh masa) Sepenuh masa

11. Tempoh Pengajian Minimum : 4 tahunMaksimum : 6 tahun

Jenis SemesterBilangan Semester Bilangan minggu dalam semester

Sepenuh Masa Separuh Masa Sepenuh Masa Separuh MasaLazim 8 - 14 -Pendek (Latihan Industri) - - - -

12. Syarat Kemasukan Memenuhi syarat kemasukan ke Universiti dan syarat keperluan program seperti berikut:(1) Lulus Sijil Matrikulasi/STPM/Asasi UM dengan Minimum Gred B

dalam subjek Kimia dan minimum C dalam Matematik dan Fizik atau Biologi.

atau,

(2) Diploma Sains atau Kejuruteraan dengan minimum CPA 2.70 yang diperoleh dari mana-mana institusi yang diiktiraf.


Objektif Program Sarjana Muda Sains (Kimia Industri) adalah untuk memberikan pengetauan, kemahiran dan atribut yang harus dicapai oleh graduat untuk berjaya dalam kerjaya. Program direka untuk: -


2. Melatih graduat yang berkebolehan mencari penyelesaian masalah berkaitan isu semasa industri kimia untuk kebaikan dan pembangunan negara dan manusia sejagat.

3. Mendidik graduat yang boleh menganalisis dan mengenalpasti peluang perniagaan dan menceburi bidang keusahawanan.

4. Menyediakan graduat yang boleh menyumbang dalam pasukan atau kumpulan yang terlibat dalam projek kimia.

5. Melatih graduat supaya mempunyai kuali ti kepimpinan, etika dan profesional menyumbang kepada negara dan manusia sejagat.

6. Menyediakan graduat yang boleh berkerja secara berpasukan dalam masyarakat berbilang bangsa untuk mencapai sesuatu objektif.

7. Melatih graduat yang boleh berkomunkasi secara b erkesan merentasi berbagai bentuk perhubungan dan audian.

SARJANA MUDA SAINS (KIMIA INDUSTRI) - SSCC


14. Hasil Pembelajaran Program (PO)

Kod Matlamat Hasil Pembelajaran Kaedah pengajaran dan pembelajaran Penilaian


PO1.Pengetahuan asas

Kimia

Berkebolehan untuk mendapatkan pengetahuan tentang hukum dan prinsipasas kimia yang berkaitan dengan penggunaan semasa(C2, P2, A2 )

Kuliah, tutorial, kerja makmal, pembacaan terarah, perbincangankumpulan

Peperiksaan, ujian, kuiz,dan laporan makmal.

PO2.Aplikasi

pengetahuan dan kemahiran Kimia

Berkebolehan untuk mengaplikasi , mengamal dan menganalisis hukum-hukum asas dan prinsip -prinsip kimia menggunakankaedah saintifik yangberkaitan dengan aplikasiindustri (C4, P4, A3 )

Kuliah, kerja makmal , pembacaanyang diberikan , perbincangan kumpulan danpenyelesaian masalahtugasan, “ hands-on”instrumen, dan perisiankimia yang berkaitan.

Peperiksaan, ujian, kuiz, tugasan, laporan makmal, pembentangan lisan danprojek kumpulan.

PO3.Kemahiran

menganalisis danmelakukan eksperimen

Kebolehan untuk merancang, menilai danmenunjukkan kajian saintifik yang berkaitandengan industri kimia (C6, P6, A3 )

Kuliah, kerja makmal , pembacaanyang diberikan , perbincangan kumpulan danpenyelesaian masalah, tugasan, hands-oninstrumen, perisian kimiadan projek penyelidikan. Cadangan penyelidikan, pembentangan projek danlaporan.

Peperiksaan, ujian, kuiz,tugasan,dan laporanmakmal, Kumpulan projek , simulasikomputer.Cadangan projek, pembentangan , laporan projek tahunakhir , dan laporanPenyelia Industri.

.

(b) Kemahiran Insaniah

PO4. Pemikiran Kritis dan

Penyelesaian Masalah

Keupayaan untuk mengamalkan pengetahuandan kemahiran prinsipkimia dan teori untukmenyelesaikan masalahsaintifik. (P4)

Projek penyelidikan bebas,projek penyelidikanberkumpulan, latihanindustri

Laporan projek Bebas,laporan tugasan individudan laporan trainngindustri

PO5.Kemahiran

Berkomunikasi

Berkebolehan untukmenyampaikan maklumatteknikal, saintifik dan kimiadan hujah-hujah denganjelas dan betul, secarabertulis dan secara lisan kepada pelbagai khalayak. (P4)

Projek berkumpulan, kerjaMakmal , penyelidikan bebas, latihan industri.

Persembahan lisan,tugasanbertulis , laporan makmal, penyelidikan, laporan projek , laporan latihan Industri

PO6. Kerja

Berkumpulan

Berkebolehan untuk menggambarkan kemahiran interpersonal yang baikdengan keupayaan yang tinggi untuk bekerjasamasebagai sebahagian daripada pasukan yangmelaksanakan pelbagaiperanan pasukan yangberbeza. (A3)

Kerja makmal dan tugasan berkumpulan

Laporan makmal, buku log dan laporan tugasan berkumpulan

PO7. Pembelajaran

berterusan dan Pengurusan Maklumat

Keupayaan untuk mencaripengetahuan baru, kemahiran dan menguruskan maklumat yang relevan daripada pelbagai sumber. (A3)

Projek Tahun Akhir, tugasan individu, kerjamakmal, latihan Industri

Laporan Projek Tahun akhir, laporan tugasanbertulis , laporan Makmal, dan laporan latihanIndustri

PO8. Kemahiran Memimpin

Berkebolehan untuk menunjukkan kepimpinan,mengambil tindakan danmempengaruhi orang lainbagi mencapai matlamatyang sama. (A3)

Tugasan berkumpulan dan kerja makmal

Laporan tugasan berkumpulan dan laporan makmal

PO9 Etika dan Integriti

Keupayaan untuk menyesuaikan diri dengan beretika dan berintegritidalam profesion dan kewajipan masing-masingkepada masyarakat. (A3)

Kuliah, tugasan individu, Kerja Makmal ProjekTahun Akhir dan latihan industri

Laporan makmal, tugasanindividu, laporanpembentangan seminardan laporan projek tahunakhir

PO10. Keusahawanan

Kesedaran peluangperniagaan, keusahawanandan kerjaya. (P2)

Kuliah, kerja-kerja makmal, kajian kes dan latihanIndustri

Tugasan bertulis, laporan tahun akhir dan laporanlatihan industri

15. Klasifikasi KursusNo. Klasifikasi Jam Kredit Peratus (%)1 Asas sains dan matematik 13

58.52 Teras Program 623 Elektif Program 33 25.84 Kursus Wajib Universiti

15.6Kemanusiaan 10Bahasa Inggeris 6Ko-kurikulum 2Keusahawanan 2Jumlah jam kredit 128 100%

Untuk program sains, sila isi klasifikasi berikut (Lain -lain, sila rujuk peraturan badan rasmi berkaitan)

A.Klasifikasi Jam Kredit Peratus (%)Kursus Kimia(a) Syarahan 70 54.7(b) Makmal/Bengkel/Kerja Lapangan 9 7.0(c) Latihan Industri 5 3.9


(d) Projek Tahun Akhir 6 4.7Jumlah Jam Kredit Untuk Bahagian A 93 70.3

B. Kursus Berkaitan(a) Matematik 9 7.0(b) Kemanusiaan/Etika 10 7.8(c) Ko -Kurikulum 2 1.6(d) Bahasa Inggeris 6 4.7(e) Keusahawanan 2 1.6(f) Pengurusan 9 7.0Jumlah Jam Kredit Untuk Bahagian B 38 29.7Jumlah Jam Kredit Untuk Bahagian A dan B 128 100%

16. Jumlah Jam Kredit Untuk Bergraduasi 128 jam kredit

17. Struktur dan Ciri Program, Kurikulum dan Syarat Penganugerahan

Program ini ditawarkan dalam mod sepenuh masa dan berdasarkan sesi akademik 2 Semester. Kursus dilaksanakan dan dinilai mengikut semester yang telah ditetapkan. Penilaian kursus dilakukan berdasarkan peperiksaan akhir dan kerja kursus yang dilaksanakan sepanjang semester.

Syarat Penganugerahan:Untuk dianugerahkan ijazah, pelajar seharusnya:

Memperoleh tidak kurang daripada 128 jam kredit dengan CPA minimum 2.00.Lulus Latihan Industri (setara 5 jam kredit).Menyempurnakan dan lulus Projek Sarjana Muda Tahun Akhir.




Communication 2

SSCC 1003 Prinsip Kimia 3 UHAS 1172 Dinamika Malaysia 2

SSCC 1901 Amali Kimia 1 SSCC1413 Termodinamik Kimia 3

SSCC 1703 Kimia Tak Organik 3 SSCC 1841 Amali Kimia Fizik I 1

SSCC 1851 Amali Kimia Tak Organik I 1 SSCC 1603 Kimia Organik - Kumpulan Berfungsi 3

SSCM 1023 Kaedah Matematik I 3 SSCC 1821 Amali Kimia Organik I 1

SSCC 1332 Pengenalan Program kimia Industri 2 SSCM 1103 Statistik 3




SSCC 2613 Kimia Organik -Biomolekul 3 ULAB 2112 Advanced English for Academic Communication 2





SSCC 2861 Amali Kimia Analisis I 1

SSCM 1303 Literasi Komputer 3







UQ_ 1xx1 Service Learning 2 SSCC 3423 Proses Kimia Industri 3

SSCC 3233 Analisis Berinstrumen 3 SSCC 3533 Penggunaan Komputer dalam Kimia 3

SSCC 3871 Amali Kimia Analisis II 1 SSCC 3243 Kaedah Pemisahan 3

SSCC 3323 Prinsip Kimia Polimer 3

Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit)

UHAS 2032 Teknokrat dan Pembangunan 2

UHAS 2092 Etika Profesional 2 Elektif Keusahawanan (Pilih 2 kredit)

ULAC 2xx2 Bahasa Asing 2 UHAS 3012 Keusahawanan dan Pembangunan Usahawan 2

ElektifULAB (Pilih 2 kredit) Elektif Pengurusan (Pilih 6 kredit)


ULAB 3122 English for Workplace Communication 2 SHAS 1043 Tabiat Organisasi 3

ULAB 3132 Reading for Specific Purposes 2 SSCP 3433 Kawalan Mutu 3



Elektif Pengurusan (Pilih 3 kredit)

SHA D 1033 Prinsip Pengurusan 3

SHAC 1123 Pengantar Perakaunan Kewangan 3


SEMESTER PENDEK

Kod Nama Kursus kr


Jumlah Jam Kredit 5




Elektif (Pilih 12 kredit ) Elektif (Pilih 12 kredit)

SSCC 3643 Penggunaan Spektroskopi 3 SSCC 4253 Analisis Makanan 3

SSCC 4223 Sains Alam Sekitar 3 SSCC 4673 Kimia Organik Industri 3

SSCC 4663 Kimia Hasil Semulajadi 3 SSCC 4293 Kimia Radioanalisis 3

SSCC 4273 Sains Forensik 3 SSCC 4353 Kimia Pengguna 3

SSCC 4483 Kimia Kakisan 3 SSCC 4493 Kimia Permukaan dan Koloid 3

SSCC 4683 Bioteknologi 3 SSCC 4753 Kimia Pemangkinan 3

SSCC 4743 Kimia Bahan 3


18. Pemetaan Hasil Pembelajaran Program dengan Kursus

HASIL PEMBELAJARAN

KURSUS

Peng

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Aplik

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Kem

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Peny

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Sep

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Kepi

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Kod Kursus PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10Kursus TerasSSCC 1332 Pengenalan Program Kimia

IndustriSSCC 1003 Prinsip Kimia SSCC 1901 Amali Kimia SSCC 1703 Kimia Tak OrganikSSCC 1851 Amali Kimia Tak Organik I

SSCM 1023 Kaedah Matematik ISSCM 1103 StatistikSSCC 1413 Termodinamik KimiaSSCC 1841 Amali Kimia Fizik ISSCC 1603 Kimia Organik – Kumpulan

BerfungsiSSCC 1821 Amali Kimia Organik ISSCM 1303 Literasi KomputerSSCC 2613 Kimia Organik -BiomolekulSSCC 2891 Amali Kimia Organik IISSCC 2453 Kinetik Kimia dan

ElektrokimiaSSCC 2841 Amali Kimia Fizik IISSCC 2312 Pengurusan dan Keselamatan

Makmal SSCC 2713 Kimia Koordinatan

SEMESTER 7 SEMESTER 8 SSCC 2851 Amali Kimia Tak Organik IISSCC 2473 Spektroskopi MolekulSSCC 2243 Prinsip Kimia Analisis SSCC 2861 Amali Kimia Analisis ISSCC 3213 Analisis BerinstrumenSSCC 3871 Amali Kimia Analisis IISSCC 3323 Prinsip Kimia PolimerSSCC 3243 Kaedah PemisahanSSCC 3423 Proses Kimia IndustriSSCC 3533 Penggunaan Komputer dalam

KimiaSSCU 4902 Projek Sarjana Muda ISSCU 4904 Projek Sarjana Muda II 2SSCU 3905 Latihan Industri 2Kursus Elektif PengurusanSHAD 1033 Prinsip PengurusanSSCP 3433 Kawalan KualitiSHAD 1043 Tabiat OrganisasiSHAD 1053 Prinsip MakroekonomiSHAF 1013 Prinsip PemasaranKursus Elektif KimiaSSCC 3643 Penggunaan SpektroskopiSSCC 4223 Sains Alam SekitarSSCC 4683 BioteknologiSSCC 4663 Kimia Hasil SemulajadiSSCC 4353 Kimia PenggunaSSCC 4253 Analisis MakananSSCC 4293 Kimia Radioanalisis 2SSCC 4273 Sains ForensikSSCC 4483 Kimia KakisanSSCC 4673 Kimia Organik IndustriSSCC 4743 Kimia Bahan 2SSCC 4493 Kimia Koloid dan PermukaanSSCC 4753 Kimia PemangkinanKursus Universiti


UHAS 1172 Dinamika MalaysiaUICI 2022 Sains, Teknologi dan ManusiaUHAS 2092 Etika Profesional UHAS 2023 Teknokrat dan PembangunanUHAS 2122 Pemikiran Kritis dan KreatifUXXX 2xx2 Inovasi dan kreativitiULAC 2xx2 Bahasa Asing


ULAB 1112 English for Academic Communication

ULAB 2112 Advanced English for Academic Communication

ULAB 3112 English for Career Search

ULAB 3122 English for Workplace Communication

ULAB 3132 Reading for Specific PurposesULAB 3142 Writing for Specific Purposes


ULAB 3152 Effective Orals Communication Skills

UQ_ 1xx1 Ko-Kurikulum IUQ_ 1xx1 Ko-Kurikulum II

Petunjuk:PO1-PO3 = Kemahiran Teknikal: PO4-PO10 = Kemahiran Generik:

19. Keunikan ProgramProgram direkabentuk dengan pengkhususan diberikan kepada kehendak dan keperluan semasa industri berkaitan. Program membolehkan pelajar mendapat pengalaman latihan industri di syarikat tempatan ataupun antarabangsa.Program diiktiraf oleh badan profesional; Institut Kimia Malaysia.Jalinan hubungan dengan industri tempatan dan antarabangsa mengukuhkan lagi kurikulum program.Program membenarkan pelajar melakukan pemindahan kredit kursus yang setara ditawarkan dari universiti tempatan atau antarabangsa yang lain.Makmal pengajaran untuk kursus amali dilengkapi dengan kemudahan terkini dan instrumen yang lengkap.

20. Masa Depan and Laluan Kerjaya

Graduan program boleh bekerja sebagai:

Ahli kimia atau saintis di institut penyelidikan kerajaan seperti MARDI, Malaysia Palm Oil Board (MPOB), RRI, PRSS, SIRIM, Jabatan Kimia Malaysia dan Agensi Nuklear Malaysia (Nuclear Malaysia).Ahli kimia atau jurutera proses di sektor swasta yang meliputi industri seperti petrokimia, getah, kelapa sawit, farmaseutikal, pewarna dan tekstil, kosmeseutikal, elektronik, rawatan air dan pemeprosesan makanan.Ahli akademik atau penyelidik di institusi pengajian tinggi, dengan peluang mengikuti program lanjutan pasca siswazah di peringkat Master dan PhD.Pegawai kawalan kualiti, jaminan kualiti dan pemasaran di agensi dan industri yang memerlukan pengetahuan kimia dan kemahiran berkaitan yang baik.

21. Program Rentas Kampus

Pelajar dibenarkan untuk mengikuti kursus tertentu di universiti tempatan atau antarabangsa yang berlainan. Maksimun gred dan jumlah kredit yang boleh dipindahkan adalah 1/3 daripada jumlah kredit keseluruhan program.

22. Program Professional Skills Certificate

Pelajar diwajibkan mengikuti kursus tambahan yang diiktiraf oleh universiti melalui anjuran SPACE UTM dan lain -lain pusat kecemerlangan. Contoh: ISO 9001:2008, OSHE, How to manage your personal finance, How to get yourself employed dan lain -lain.

23. KemudahanSenarai kemudahan:1. Makmal Kimia Tak Organik 1 & 22. Makmal Kimia Fizik 1 & 23. Makmal Kimia Organik 1 & 24. Makmal Analisis 1, & 2

5. Makmal Forensik6. Bilik Instrumen (10)7. Makmal Penyelidikan (10)8. Bengkel Peniup Kaca9. Makmal Bioteknologi10. Makmal Makromolekul11. Stor Bahan Kimia12. Pusat Sumber Jabatan Kimia13. Bilik Aktiviti Pelajar14. Bilik Komputer Pelajar

Senarai Instrumen:1. Spektrometer Resonans Magnet Nukleus 2. Kromatografi Gas - Spektrometer Jisim 3. Spektrometer Inframerah-Transformasi Fourier 4. Krom atografi Penelapan Gel5. Spektrometer UL - Nampak6. Spektrometer Pantulan Tersebar UL-Nampak7. Kromatografi Cecair Berprestasi Tinggi8. Kromatografi Gas9. Spektrometer Serapan Atom10. Mikroskop Imbasan Elektron11. Mikroskop Imbasan Elektron - Pemancaran Medan 12. Mikroskop Transmisi Elektron13. Kromatografi Ion14. Elektroforesis Rerambut15. Penganalisis Permukaan BET 16. Kalorimeter Imbasan Pembeza17. Penganalisis Termogravimetri18. Sistem Voltametri19. Spektrometer Penrdarfluor20. Sistem Penjerapapan/Nyahjerapan Permukaan21. Penganalisis Jumlah Karbon Organik22. Fotometer Nyala23. Spektrometer Putaran Elektron24. Pembelauan Sinar-X25. Spektrometer Jisim-Gandingan Aruhan Plasma (ICP-MS)26. Kotak Glove

24. Sokongan Pelajar dan Pembelajaran

(b) Pegawai Sokongan Penasihat AkademikKaunselorPersatuan Pelajar (PESAT)

(b) Sokongan PrasaranaCapaian Internet (Tanpa Wayar)e-pembelajaranPerpustakaan DigitalKafetariaPusat KesihatanKemudahan Sukan dan RekreasiBilik Kuliah Bestari


Bilik Aktiviti PelajarSudut PembacaanAnjung Kimia

(d) Sokongan KewanganPerbadanan Tabung Pendidikan Tinggi Negara (PTPTN)MARAJPA dan lain-lain

25. Kaedah Penilaian dan Peningkatan Kualiti Pengajaran dan Pembelajaran

Mekanisma untuk piawai kajian semula dan penilaian pengajaran, pembelajaran, penilaian, kurikulum dan hasil pembelajaran

1. Prestasi pelajar berdasarkan:KB/KS/KG –Lulus/Lulus Bersyarat/GagalCPA – Purata Mata KumulatifPrestasi Pelajar akan BergraduanGOT – Graduasi Pada MasaKadar PenyelesaianAnalisa Prestasi Kursus

2. Keboleh pekerjaanSoal selidik pengeluaranSoal selidik alumniSoal selidik pasaran

3. Prestasi PensyarahPengajaran oleh pelajar (e-PPP)Senarai semak kompetensi staf (CS).Laporan Penilaian Prestasi Tahunan (LPPT)

4. Kajian Semula KurikulumJawatankuasa Akademik FakultiSoal selidik latihan industriSoal selidik Projek Sarjana MudaLaporan Penilai LuarSoal selidik pencapaian CO oleh pelajare-Portfolio pelajarPenilaian Kemahiran Generik (Laporan Kriteria Prestasi)

5. Sistem PenyampaianJawatankuasa Jaminan Kualiti AkademikIndeks Kepuasan Pelanggan (CSI) Indeks Kepuasan Majikan (ESI)Audit Anugerah Kualiti Naib Canselor (AKNC)Piawai Agensi Kelayakan Malaysia (MQA)

26. Peraturan Penilaian

Gred dan Markah

Markah Gred Mata Penilaian

90 100 A+ 4.0080 – 89 A 4.0075 – 79 A - 3.6770 – 74 B+ 3.3365 – 69 B 3.0060 – 64 B- 2.6755 – 59 C+ 2.3350 – 54 C 2.0045 – 49 C- 1.6740 – 44 D+ 1.3335 – 39 D 1.0030 34 D- 0.670 – 29 E 0

–

–

(b) Peranan Pemeriksa Luar (Pemeriksa Pelawat)

Pemeriksa Pelawat di lantik oleh Jawatankuasa Akademik Fakulti untuk:

Mengkaji semula dan menilai kurikulum program Mengkaji semula dan menilai kaedah penilaian pelajar Mencadangkan penambahbaikan kurikulum kepada Jawatankuasa Akademik.



Tempoh TindakanPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10

e- Portfolio x x x x x x x x x x Sepanjang masa Pelajar

Soalselidik Hasil Kursus x x x x x x x x x x Setiap

semester Pensyarah

Laporan Hasil Kursus x x x x x x x x x x per

semester Pensyarah

Soal selidik Projek Sarjana Muda x x x x x x x Setiap

semester Fakulti

Soal selidik PO oleh pelajar tahun akhir x x x x x x x x x x Setiap

semester Fakulti

Soal selidik latihan industri x x x x x x x Akhir sesi Fakulti

Soal selidik alumni x x x x x x x x x x Sekali setahun

Ketua Jabatan

Soal selidik majikan x x x x x x x x x x Sekali setahun

Ketua Jabatan


1. Institusi Penganugerah Universiti Teknologi Malaysia2. Institusi Pengajaran Universiti Teknologi Malaysia3. Nama Program Sarjana Muda Sains dalan Matematik

Industri4. Anugerah Muktamad Sarjana Muda Sains (Matematik Industri)5. Kod Program TS34 (SSCM)6. Badan Profesioanl atau Berkanun Pentauliahan Kementerian Pengajian Tinggi 7. Bahasa Pengantar Bahasa Melayu dan Inggeris8. Mod Pengajian (Konvensional, pembelajaran jarak jauh, dll)

Konvensional

9. Mod Operasi (Francais, Pentadbiran- kendiri, dll) Pentadbiran-kendiri10. Skim Pengajian (Sepenuh Masa /Separuh Masa) Sepenuh Masa11. Tempoh Pengajian Minimum : 4 tahun

Maksimum : 6 tahun

Jenis SemesterBil. Semester Bil. Minggu per semester



Biasa 8 17Pendek12. Syarat Kemasukan Memenuhi semua syarat universiti dan syarat program seperti berikut:

3. Lulus Matrikulasi / STPM / Asasi Sains UM dengan sekurang -kurangnya gred B dalam mata pelajaran Matematik dan sekurang -kurangnya C dalam mata pelajaran Kimia dan Fizik atau Biologi.atau

4. Diploma Sains atau Kejuruteraan dengan PNGK sekurang-kurangnya 2.70 dari institusi diiktiraf.

13. Objektif Pendidikan Program Objektif program Sarjana Muda Sains (Matematik Industri) adalah untuk memberi pengetahuan, kemahiran dan atribut yang perlu dicapai oleh graduan untuk berjaya dalam kerjaya. Oleh itu, adalah dijangka bahawa, graduan program ini akan1. menjadi ahli profesional dalam matematik yang kompeten, mampu berhadapan dengan masalah

kualitatif dan kuantitatif dalam industri berkaitan.2. berupaya memainkan peranan dan kedudukan/lantikan yang produktif dalam membuat keputusan,

analisis dan pengawasan kerja dalam sektor industri dan awam.3. mempamerkan kemahiran kerja berpasukan dan kepimpinan dengan komunikasi yang berkesan dan

kemahiran antara personal yang wajar.4. meneruskan pembelajaran sepanjang hayat untuk membolehkan mereka mengenal pasti, menyesuaikan

diri dan merebut peluang perniagaan.


Kod Hasil Pembelajaran dihasratkan

Kaedah Pengajaran dan Pembelajaran Penilaian


SARJANA MUDA SAINS (MATEMATIK INDUSTRI) - SSCMPO1

Pengetahuan Asas

Keupayaah memperoleh ilmu berkenaan konsep asas, teori dan teknik matematik berhubung isu semasa serta pengetahuan dalam sains social dan pembangunan diri. (C2,P2,A2)

Kuliah, tutorial, pembacaan terarah.

Peperiksaan, kuiz, ujian, tugasan.

PO2Penggunaan Ilmu Matematik serta

Teknik Berpengiraan dan

Analisis

Keupayaan mengguna pengetahuan dan teknik matematik secara berkesan untuk menyelesaikan masalah matematik dan statistic dan membuat analisis yang meyakinkan ke atas keputusan yang diperoleh. (C4,P4,A3)

Kuliah, tutorial, projek (Projek Sarjana Muda (PSM), berkumpulan / individu), pembacaan terarah, latihan berasaskan komputer, latihan industri.

Peperiksaan, kuiz, ujian, output perkomputeran, pembentangan, laporan projek, laporan latihan industri.

PO3Diskriminasi/Membeza dan

Organisasi/Menyusun Konsep Matematik

Keupayaan menilai, mencadang dan menunjukcara kaedah bersesuaian untuk menyelesaikan masalah penggunaan dalam Sains Matematik dan industry penyusunan semula pengetahuan dan teknik matematik.(C6,P6,A3)

Kuliah, projek (PSM, berkumpulan / individu), pembacaan terarah, pembelajaran berasaskan komputer, pembelajaran berasaskan masalah, latihan industri.

Peperiksaan, kuiz, ujian, output perkomputeran, pembentangan, laporan projek, laporan latihan industri.

b) Kemahiran Insaniah


Masalah

Berkebolehan untuk memahami, mengekstrak, menganalisis dan mengenalpasti masalah dari pelbagai sumber dan membangunkan pendekatan berasaskan pengetahuan matematik untuk menyelesaikan masalah. (P4)

Pembelajaran aktif, projek (PSM, berkumpulan / individu), latihan industri.

Tugasan bertulis, pembentangan lisan, laporan projek, portfolio pembelajaran, laporan latihan industri.


Kebolehan untuk menyampaikan idea dengan jelas dan berkesan dalam bentuk penulisan dan lisan kepada pelbagai khalayak. (P4)

Pembelajaran aktif, projek (PSM, berumpulan / individu), latihan industri.

Pembentangan lisan, laporan projek, laporan latihan industri.

PO6Kerja Berpasukan

Keupayaan untuk menyesuaikan diri dan bekerjasama sebagai sebahagian daripada pasukan. (A3)

Pembelajaran aktif, projek (PSM, berumpulan), latihan industri.

Pembentangan lisan, laporan projek, penilaian rakan sebaya, latihan industri laporan.

PO7Pembelajaran


Maklumat

Berkebolehan pembelajaran kendiri dan menunjukkan kesedaran untuk pembangunan peribadi dan profesional yang berterusan. (A3)

Pembelajaran aktif, projek (PSM, berkumpulan / individu), kursus-kursus pembangunan profesional, latihan industri.

Tugasan bertulis, pembentangan lisan, laporan projek, portfolio pembelajaran, laporan latihan industri.


PO8Kepimpinan

Berkebolehan memimpin, mengambil tindakan dan mempengaruhi orang lain untuk mencapai matlamat yang sama. (A3)

Pembelajaran aktif, projek kumpulan, pembelajaran perkhidmatan, aktiviti kokurikulum, kerja berkumpulan.

Pembentangan lisan, laporan projek, penilaian rakan sebaya.


Berkebolehan menyesuaikan nilai etika dan integriti dalam konteks profesion dan kewajipan kepada masyarakat.(A3)

PSM, aktiviti kokurikulum, kerja berkumpulan, latihan industri.

Laporan PSM, portfolio pembelajaran, laporan latihan industri.

P10Keusahawanan

Memperoleh kesedaran tentang peluang perniagaan, keusahawanan dan kerjaya.(P2)

Kuliah, tugasan, kajian kes, PSM, seminar, bengkel, aktiviti ko -kurikulum, kerja berkumpulan.

Tugasan bertulis, pembentangan lisan, laporan PSM, peperiksaan, laporan latihan industri.

15. Pengelasan KursusBil. Pengelasan Jam Kredit Peratusan (%)

i. Asas Sains dan Matematik 958.9ii. Teras Program 67

iii. Elektif Program 33 25.6iv Kursus Wajib Universiti

KemanusiaanBahasa InggerisKo -KurikulumKeusahawanan

10622

15.5

1.4 Jumlah 129 100Bagi program Sains, sila isi klasifikasi berikut. (Lain - lain, sila rujuk kepada garis panduan Badan Berkanun berkaitan)Bil. Klasifikasi Jam Kredit Peratusan

AKursus Matematik

(d) Kuliah(e) Latihan Industri(f) Projek Sarjana Muda

9856

763.94.7

Jumlah Jam Kredit Bahagian A 109 84.5B Kursus Berkaitan

(e) Kemanusiaan/Etika(f) Ko -Kurikulum(g) Bahasa Inggeris(h) Keusahawanan

10262

7.81.54.71.5

Jumalah Jam Kredit Bahagian B 20 15.5Jumlah Jam Kredit Bahagian A dan B

129 100

16. Jumlah jam kredit untuk bergraduat 129 jam kredit

17. Struktur dan Ciri Program, Kurikulum dan Keperluan Penganugerahan Ijazah

Kursus ini ditawarkan dalam mod sepenuh masa dan berdasarkan Sesi Akademik dua Semester dengan beberapa kursus yang diajar dan dinilai setiap Semester. Penilaian adalah berdasarkan peperiksaan akhir dan kerja kursus yang dijalankan di seluruh semester.

Keperluan Penganugerahan:Untuk bergraduat, pelajar perlu:

Mencapai sejumlah tidak kurang daripada 129 jam kredit dengan minimum PNGK 2.0.Lulus latihan industri.Tamat dan lulus projek sarjana muda.




Communication 2

SSCM 1002Pengenalan kepada Program Matematik Industri

2 UHAS 1172 Dinamika Malaysia 2

SSCM 1023 Kaedah Matematik I 3 SSCM 1033 Kaedah Matematik II 3SSCP 1143/ SSCC 1003 Mekanik/Prinsip Kimia 3 SSCM 1313 Pengaturcaraan Komputer 3








SSCM 2773 Persamaan Terbitan II 3 SSCM 2613 Kalkulus Lanjutan 3

SSCM 2793 Kalkulus Vektor 3 SSCM 2803 Pemodelan Matematik I 3

SSCM 2673 Matematik Diskret 3 SSCM2833 Pengaturcaraan Linear 3


UKQU 2202 Inovasi dan Kreativiti 2





SSCM 3133 Kawalan MutuBerstatistik 3 SSCM 3103 Rekabentuk Ujikaji 3

SSCM 3423 Kaedah Berangka II 3 SSCM 3803 Pemodelan Matematik II 3

UKQL 3012 Servis Komuniti 2

Elektif Pembangunan Individu/Masyarakat/Globalisasi (Pilih 2 kredit) Elektif Keusahawanan (Pilih 2 kredit)







ULAB 3112 English for Career Search 2 SSCM 3123 Analisis Multivariat 3

ULAB 3122 English for Workplace Communication 2 SSCM 3353 Pengaturcaraan C++ 3

ULAB 3132 Reading for Specific Purposes 2 SSCM 3753 Mekanik Bendalir 3

ULAB 3142 Writing for Specific Purposes 2 SSCM 3843 Kaedah Pengoptimuman 3

ULAB 3152 Effective Oral Communication Skills 2 SHAF 10 13 Prinsip Pemasaran 3

Elektif (Pilih 6 kredit) SSCM 3153 Statistik Pentadbiran 3

SSCM 3143 Teori Kata Putus 3




SSCM 3883 Membuat Keputusan Berbilang Objektif 3

SHAS 1043 Tabiat Organisasi 3


SEMESTER PENDEK kr


Jumlah Jam Kredit 5SEMESTER 7 SEMESTER 8

Nama Kursus kr Kod/CodeKod/Code Nama Kursus kr



SSCM 3523 Aljabar Moden 3 SSCM 4863 Matematik Kewangan 3

SSCM 3503 Pembolehubah Kompleks 3 SSCM 4213 Model Linear Teritlak 3

SSCM 4113 Siri Masa 3 SSCM 4813 Kawalan Optimal 3

SSCM 4163 Proses Stokastik 3 SSCM 4833 Simulasi Peristiwa Diskret 3

SSCM 4763 Dinamik Bendalir Berkomputeran 3 SSCM 4243 Teknik Pensampelan 3

SSCM 4823 Penjadualan 3

SHD 1513 Prinsip Pengurusan 3


18. Pemetaan Hasil Pembelajaran Program

KURSUS DITAWARKANHASIL PEMBELAJARAN

Pengetahuan Asas dan Kecekapan Kemahiran Insaniah

Peng

etah

uan

Asas

Peng

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an T

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atem

atik

Kem

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k Pe

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an

Pem

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n Kr

itis

dan

Peny

eles

aian

Mas

alah

Kom

unik

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Kerja

Ber

pasu

kan

Pem

bela

jara

n Se

panj

ang

Haya

t

Kem

ahira

n Ke

pim

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n

Etik

a da

n In

tegr

iti

Keus

ahaw

anan

Kod Nama Kursus PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10Kursus Teras

SSH1002 Pengenalan kepada Program Matematik Industri

/ - - - / - - - / -

SSCM 1023 Kaedah Matematik I / / - - / - - - - -SSCP 1143 Mekanik / / - - / / - - -SSCC 1003 Prinsip Kimia / / - - - / - - - -SSCM 1103 Statistik / / - - - / - - - -SSCM 1303 Literasi Komputer / / - - / - - - - -SSCM 1033 Kaedah Matematik II / / - - / - - - - -SSCM 1313 Pengaturcaraan Komputer / / - - - / - - - -SSCM 1523 Aljabar Linear / / - / - - - - - -SSCM 2673 Matematik Diskret / / - - - / - - - -SSCM 2103 Statistik Bermatematik / / - - - / - - - -SSCM 2423 Kaedah Berangka I / / - / - - - - - -SSCM 1703 Persamaan Terbitan I / / - - - / - - - -SSCM 2793 Kalkulus Vektor / / - / - - - - - -SSCM 2833 Pengaturcaraan Linear / / / - / / - - - -SSCM 2043 Kaedah Matematik III / / - / - - - - - -SSCM 2613 Kalkulus Lanjutan / / - - / - - - - -SSCM 2773 Persamaan Terbitan II / / - - - / - - - -SSCM 2803 Pemodelan Matematik I / / / / / - / - -SSCM 3103 Rekabentuk Ujikaji / / / / - - / - - -SSCU 4902 Projek Sarjana Muda I / / - / / - / - / -SSCU 4904 Projek Sarjana Muda II / / - / / - / - / -SSCU 3905 Latihan Industri (HW) / / / - / / - - - /SSCM 3133 Kawalan Mutu Berstatistik / / - - - - / - - -SSCM 3423 Kaedah Berangka II / / - / - - - - - -SSCM 3803 Permodelan Matematik II / / / / - - - - - -Kursus ElektifSSCM 3143 Teori Kataputus / / - - - / - - - -SSCM 3153 Statistik Pentadbiran / / - - / - - - - -SSCM 3503 Pembolehubah Kompleks / / / - - - - - - -SSCM 3533 Teori Set dan Mantik / / - / - - - - - -SSCM 3703 Persamaan Terbitan Separa / / - / - - - - - -SSCM 3793 Kalkulus Ubahan / / - - / - - - - -SSCM 3883 Membuat Keputusan

Berbilang -Objektif / / / - / / - - - -

SSCM 4113 Siri Masa / / / - / - - - - -SSCM 3123 Analisis Multivariat / / - / - - - - - -SSCM 3353 Pengaturcaraan C++ / / - - - - / - - -SSCM 3753 Mekanik Bendalir / / - - / - - - - -SSCM 3843 Kaedah Pengoptimuman / / - - - / - - - -SSCM 4863 Matematik Kewangan / / / / - - - - - -SSCM 4163 Proses Stokastik / / / / - - - - - -SSCM 4213 Model Linear Teritlak / / / / - - - - - -SSCM 4243 Kaedah Pensampelan / / / - / - - - - -SSCM 3523 Aljabar Moden / / - / - - - - - -


SSCM 4763 Dinamik Bendalir Berpengiraan

/ / / - - - / - - -

SSCM 4813 Kawalan Optimum / / / - - / - - - -SSCM 4823 Penjadualan / / / / - - - - - -SSCM 4833 Simulasi Acara Diskret / / - / - / - - - -SHAD 1033 Prinsip Pengurusan - - - / / - - / -SHAD 1043 Tabiat Organisasi - - - / / / - - - -SHAF 1013 Prinsp Pemasaran - - - / / / - - - -Kursus Universiti


/ / /

UHAS 1172 Dinamika Malaysia /


/

UHAS 2092 Etika Profesional / / /UHAS 2023 Teknokrat dan Pembangunan /UHAS 2122 Pemikiran Kritis dan Kreatif / / /

UXXX 2xx2 Inovasi dan kreativiti /ULAC 2xx2 Bahasa Asing /


/ / /


/ / /

ULAB 2112 Bahasa Inggeris Lanjutan untuk Komunikasi Akademik

/ /

ULAB 3112 Bahasa Inggeris Untuk Carian Kerjaya

/ /

ULAB 3122 Bahasa Inggeris untuk Komunikasi di Tempat Kerja

/ /

ULAB 3132 Pembacaan untuk Tujuan Khusus / /

ULAB 3142 Penulisan untuk Tujuan Khusus

/ /

ULAB 3152 Komunikasi Lisan Berkesan / /UQ_ 1xx1 Ko-Kurikulum I /UQ_ 1xx1 Ko-Kurikulum II /

19. Keunikan ProgramProgram khas ini bertujuan untuk melahirkan ahli matematik industri muda cemerlang dan berbakat.Mewujudkan hubungan dengan pusat-pusat matematik industri antarabangsa untuk latihan industri di luar negara.Satu -satunya program Matematik Industri di negara ini yang menawarkan latihan industri selama satu semester sama ada tempatan atau di luar negara.Program ini membenarkan perpindahan kredit daripada kursus setaraf yang ditawarkan di institusi tempatan atau luar negara.Menyediakan pelajar untuk mengaplik asi pengetahuan dan kemahiran matematik mereka secara beretika dalam perancangan, membuat keputusan, analisis dan penyeliaan kerja yang berkaitan dengan industri dan sektor awam atau swasta.

20. Prospek dan Laluan KerjayaGraduat program ini boleh bekerja sebagai

Pengurus jaminan kualiti, jurutera kawalan pengeluaran dan pegawai perancangan dalam industri seperti pembuatan, telekomunikasi dan minyak & gas.Ahli statistik, penganalisis penyelidikan operasi, eksekutif jualan dan pemasaran di industri perkhidmatan.

Eksekutif Kewangan dalam institusi kewangan.Pentadbir di sektor awam dan swastaAhli akademik dan penyelidik di institusi akademik dan penyelidikan

21. Program Silang Kampus

Pelajar diberi peluang untuk mendaftar kursus tertentu di institusi yang menyertai sama ada tempatan atau luar negara. Mankala gred atau kredit boleh dipindahkan sehingga 1 / 3 daripada jumlah kredit dalam kurikulum.


Pelajar diberi peluang untuk mendaftar dalam program -program sijil yang ditawarkan oleh Pusat Kecemerlangan di universiti semasa cuti semester mereka. Sebagai contoh, Sijil Pengurusan Kualiti Menyeluruh (TQM).

23. Kemudahan Disediakan

Senarai makmal komputer dan bilik -bilik dengan kemudahan IT21. Makmal Komputer 122. Makmal Komputer 223. Makmal Komputer 324. Makmal Komputer 425. Bilik Kuliah Bijak26. Pusat Sumber

24. Sokongan untuk Pelajar dan Pembelajaran Mereka

Program induksi untuk tujuan orientasi dan pengenalan kemahiran belajar selama dua mingguBuku dan Modul Panduan PelajarNisbah staf-pelajar 1:15 dalam pengajaranPerpustakaan yang ekstensif/lengkap dan lain-lain kemudahan sumber pembelajaran.Pelajar diberikan penasihat akademik untuk membantu mereka dalam perancangan pendidikan.

25. Kaedah untuk menilai dan meningkatkan kualiti dan piawaian mekanisma pengajaran dan pembelajaran untuk semakan dan penilaian pengajaran, pembelajaran, penilaian, kurikulum dan piawaian hasil

1. Prestasi pelajar dari segi:KS/KBPNGKPrestasi pelajar graduatGraduat Tepat Masa, GOTKadar SelesaiAnalisis Prestasi Kursus

2. Keboleh PekerjaanKaji selidik keluarKaji selidik alumniKaji selidik pasaran


3. Prestasi pensyarahPenilaian Pengajaranoleh Pelajar (OMR)Senarai semakan kecekapan untuk staf (CV)Penialain tahunan staf (SKT)

4. Semakan KurikulumJawatankuasa Akademik FakultiKaji selidik Latihan IndustriKaji selidikPSM Laporan pemeriksa luarkaji selidik pencapaian hasil pembelajaran oleh pelajare-Portfolio pelajarPenilaian Kemahiran Insaniah (Kriteria Laporan Prestasi)

5. Sistem PenyampaianJawatankuasa Jaminan Kualiti AkademikCSI SSILaporan audit AKNC Piawaian MQA

26. Peraturan Taksiran

b) Ringkasan markah, gred matanilai masing -masing

Markah Gred Matanilai90-100 A+ 4.0080-89 A 4.0075-79 A - 3.6770.74 B+ 3.3365-69 B 3.0060-64 B- 2.6755-59 C+ 2.3350-54 C 2.0045-49 C- 1.6740-44 D+ 1.3335-39 D 1.0030-34 D- 0.6700-29 E 0.00

b) Peranan Pemeriksa Luar (Pemeriksa Pelawat) Pemeriksa Pelawat dilantik oleh Jawatankuasa Akademik Fakulti

Menyemak dan menilai kurikulum program,Menyemak dan menilai prosedur dan kaedah penilaian,Membuat syor kepada Jawatankuasa Akademik.

27. Alat Penilaian

Alat PengukuranHasil Pembelajaran Jangka

masa TindakanPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10

e- Portfolio x x x x x x x x x x Berterusan Pelajar

Soal Selidik Hasil Pembelajaran x x x x x x x x x x Hujung

Semester Pensyarah

Laporan Hasil Pembelajaran x x x x x x x x x x Hujung

Semester Pensyarah

Soal Selidik Projek Sarjana Muda x x x x x x x Hujung

Semester Fakulti

Soal Selidik Hasil Pembelajaran Program (PO) oleh Pelajar Tahun Akhir

x x x x x x x x x xHujung

SemesterFakulti

Soal Selidik Latihan Industri x x x x x x x Hujung

SesiFakulti

Soal Selidik Alumni x x x x x x x x x x Sekali Setahun

Ketua Jabatan

Soal Selidik Majikan x x x x x x x x x x Sekali Setahun

Ketua Jabatan


SENARAAI STAF AKKADDEMMIKKK FAKKKULLTTI SSSAAINNNSSJABATAN FIZIK

Ketua JabatanDr. Wan Muhamad Saridan Wan Hassan, B.Sc.Ed (Hons) (UTM), M.Sc (California), Ph.D (Aberdeen).

ProfesorDr. Ahmad Termizi Ramli, B.Sc (Hons) (Leeds), M.Sc (Salford), Dip. (Swansea), Ph.D (Wales).

Dr. Husin Wagiran, B.Sc, Dip.Ed (UKM), M.Sc (Surrey), Ph.D (Aston), MIFM.

Dr. Rosli Hussin, B.Sc (Hons) (UKM), M.Sc (West London), Ph.D (Warwick), MASS.

Dr. Md. Rahim Sahar, B.Sc (UKM), M.Sc (Kent), Ph.D (Warwick), MASS, MMSS.

Profesor Madya Dr. Ahmad Radzi Mat Isa, B.Sc (Hons) (Malaya), M.Sc (Southampton), Ph.D (Reading).

Dr. Hazri Bakhtiar, B.Sc, M.Sc , Ph.D (Metz France).

Dr. Karim Deraman, B.Sc (Hons), M.Sc (UKM), Ph.D (UTM), MIFM, MASS.

Dr. Md Supar Rohani, B.Sc (Hons) (UKM), M.Sc (West London), Ph.D (Warwick).

Dr. Sib Krishna Ghoshal, B.Sc, M.Sc (Calcutta), Ph.D (New Delhi). – Kontrak

Dr. Yaacob Mat Daud, B.Sc (Hons) (UKM), M.Sc, Ph.D (Kent).

Dr. Yusof Munajat, B.Sc (Hons) (UKM), M.Sc (W. London), Ph.D (UTM).

Dr. Suhairul Hashim, B.Sc (UKM), M.Sc (Surrey), Ph.D (UTM).

Dr. Zuhairi Ibrahim, B.Sc (Hons), M.Sc (Essex), PhD (UTM).

Pensyarah KananAbdul Rashid Abdul Rahman, B.Sc, M.Sc (Sheffi eld).

Dr. Abdul Khamim Ismail, B.Sc (Hons), M.Sc (UTM), Ph.D (Newcaslte).

Dr. Abdul Rahman Tamuri, B.Sc (UTM), Ph.D (UTM).

Dr. Amiruddin Shaari, B.Sc (U.S.A), M.Sc (California State), Ph.D (Liverpool).

Mohamed Noor Muhammad, B.Sc (Hons) (Brimingham), M.Sc (London).

Dr. Mohammad Alam Saeed, Ph.D (Punjab) , MPHILL , M. Sc (Punjab). – Kontrak

Mohd Khalid Kasmin, B.A (Macalester College), M.Sc (UTM), MASS.

Muhammad Zaki Hj Yaakob, B.Sc (Hons) (UKM), M.Sc (Sussex).

Dr. Raja Kamarulzaman Raja Ibrahim, B.Sc (UTM), M. Phil (Southampton), PhD (Manchester)Dr. Ramli Arifi n, B.Sc (Hons) (UKM), Dip.Ed, M.Sc, PhD (UTM)

Dr. Rashid Ahmed, B.Sc , M.Sc, Ph.D (Punjab). – Kontrak

Dr. Roslinda bte Zainal, B.Sc (Hons), M.Sc , PhD (UTM).

Dr. Wan Nurulhuda Wan Shamsuri, B.Sc (Salford), M.Sc, PhD (UTM), MASS.

Dr. Rosnita Muhammad, B.Sc, M.Sc, PhD (UTM)

Dr. Mohd Arif Jalil, B.Sc, M.Sc, PhD (UTM)

Dr. Izyan Hazwani binti Hashim, B.Sc, M.Sc (UTM), PhD (Osaka)

PensyarahMasleeyati bte Yusof, B.Sc, M.Sc (UKM).

TutorNor Ezzaty Ahmad, B.Sc. (USM), M.Sc (UTM) - CB

Siti Sarah bt Safaai, B.Sc (UTM)

Norehan Mohd Nor, B.Sc (UTM) - CB

Koh Meng Hock,B.Sc (UTM), M.Sc (UM) - CB

Faizani bin Mohd Noor, B.Sc, M. Sc (UTM) - CB

Razif bin Razali, B.Sc, M.Sc (UTM) - CB

Muhammad Firdaus bin Omar, B.Sc, M.Sc (UTM)

Fairuz Diyana Ismail, B.Sc (UTM)

Husni Hani Jameela Sapingi, B.Sc (UTM)

Ho Sze Phing, B.Sc (UTM)

Maisarah Duralim, B.Sc (UTM)

Mohd Asmu’i Mohd Akil, B.Sc (UTM).

Nor Ain Husein, B.Sc (UTM), Phd (UM)

Suhaila M. Buhari, B.Sc (UTM).- CB

Nurul Aini Tarjudin, B.Sc (UTM).


SENARAAI STAF AKKADDEMMIKKK FAKKKULLTTI SSSAAINNNSSJABATAN KIMIA

Ketua JabatanDr. Zaiton Abdul Majid, B.Sc (Hons) (UTM), M.Sc (NIU), Ph.D (Malaya), AMIC.

ProfesorDr. Wan Azelee Wan Abu Bakar, B.Sc (Hons) (UKM), M.Sc (Herriot-Watt) Ph.D (Nottingham), AMIC.

Dr. Abdul Rahim Yacob, B.Sc (Hons) (USM), Ph.D (Cardiff).

Dr. Hasnah Mohd Sirat, B.Sc (UKM), Ph.D (London), AMIC.

Dr. Mohamed Noor Hasan, B.Sc (Hons) (UKM), M.Sc, Ph.D (Penn State).

Dr. Rahmalan Ahmad, B.Sc (UKM), M.Sc (Salford), Ph.D (La Trobe), AMIC. - Kontrak

Prof. Dr. Wan Aini bte Wan Ibrahim, B.Sc (Hons) (Exeter), Postgraduate Diploma Education (UKM), M.Sc, Ph.D (Loughborough), FMIC. – Dr. Wan Azlina Ahmad, B.Sc (Hons) (Malaya), Ph.D (London).

Dr. Madzlan Aziz, B.Sc (Hons) (Newcastle), M.Sc (UMIST), Ph.D (De Montfort), AMIC.-

Profesor MadyaDr. Azli Sulaiman, Dip.Sc.Ed, B.Sc.Ed (Hons)(UTM), M.Sc, Ph.D (Loughborough).

Dr. Farediah Ahmad, B.Sc (Hons) (UKM), Ph.D (Kent), AMIC.

Dr. Jafariah Jaafar, B.A (CSU), M.Sc (Kentucky, UBC Vancouver), PhD (KTI) AMIC.

Dr. Nor Aziah Buang, B.Sc (UKM), M.Sc (Sussex), Ph.D (UTM), AMIC

Dr. Razali Ismail, B.Sc, M.Sc (Ohio), Ph.D (UTM).

Dr. Rusmidah Ali, B.Sc (Hons), Dip.Ed (UKM), M. Phil. (Southampton), Ph.D (Durham), AMIC.

Dr. Umi Kalthom Ahmad, B.Sc (Hons) (Swansea), M.Sc (Strathclyde), Ph.D (UTM), AMIC.

Dr. Zainab Ramli, B.Sc (Hons) (UKM), Dip.Ed (Malaya), M.Sc (Sussex), Ph.D (UTM), AMIC.

Dr. Zainoha Zakaria, B.Sc (Wales), M.Sc (UPM), Ph.D (Loughborough), AMIC

Pensyarah KananDr. Che Rozid Mamat, B.Sc (UTM), Ph.D (Southampton), AMIC

Hashim Baharin, B.Sc (Hons), M.Sc (UTM), AMIC

Dr. Hasmerya Maarof,B.Sc (UTM), M.Sc (Cardiff) , Ph.D (Cardiff)), AMIC

Dr. Joazaizulfazli Jamalis, B.Sc. (UTM)..

Dr. Mohd Bakri Bakar, B.Sc, M.Sc (UTM) – CB , Ph.D (Trinity Collage), AMIC

Dr. Norazah Mohd Basar, B.Sc (Hons), M.Sc (UTM), Ph.D (UTM).

Dr. Roswanira Abd. Wahab, B.Sc (Hons)(UiTM), M.Sc (UTM), PhD (UPM), AMIC

Dr. Naji Arafat Haji Mahat, B. Sc (UKM), PhD (USM)

Dr. Nursyafreena Attan, B.Sc, PhD (UTM)

Rugayah Mohamed, B.Sc (Hons) (UKM), M.Sc (UTM), AMIC

Dr. Shajarahtunnur Jamil, B.Sc (Hons) (UKM), M.Sc, Ph.D (UTM),AMIC

Khairil Juhanni Abd Karim, B.Sc, M.Sc (Gifu, Japan).

Aemi Syazwani binti Abdul Keyon, B.Sc. (UTM), M.Sc. (UTM) , AMIC

Dr. Siti Aminah Setu @ Sabtu, B.Sc (UTM), PhD (Oxford)

PensyarahMohd Daniel Abdullah @ Anthony Nyangson Anak Steven, B.Sc (UiTM), M.Sc (UTM).

TutorMohd Syafi q Elias, B.Sc (UTM), MSc (UTM) - CB

Zulkifl i Idris, B.Sc (UTM), PhD (Oxford)


SENARAAI STAF AKKADDEMMIKKK FAKKKULLTTI SSSAAINNNSSJABATAN MATEMATIK

Ketua JabatanDr. Rohanin Ahmad, B.Sc, M.Sc (Indiana State), Ph.D (UTM).

ProfesorDr. Mohd Ismail Abd. Aziz, B.Sc (NSW), M.Sc (Loughborough), Ph.D (City). Timbalan Naib Canselor (HEMA)

Dr. Mohd Nor Mohamad, B.Sc (Hons) (UKM), M.Sc, Ph.D (Newcastle), APMM, C.Math MIMA - Timbalan Dekan (Akademik)

Dr. Norsarahaida Saidina Amin, B.Sc (Hons) (Adelaide), M.Sc (Northwestern), Ph.D (East Anglia). - Dekan

Dr. Nor Haniza Sarmin, B.Sc (Hons), M.A, Ph.D (Binghamton).Timbalan Dekan (Kemasukan & Hubungan Pelanggan) SPS

Dr. Zuhaimy Hj. Ismail, B.Sc (Hons) (Nottingham), PGCE (UKM), M.Sc, Ph.D (Loughborough).

Dr. Muhammad Hisyam Lee @ Lee Wee Yew, B.Sc (Hons), M.Sc (UKM), Ph.D (UTM).

Profesor MadyaDr. Ali Abd Rahman, B.Sc (Washington), M.Sc (New Mexico), Ph.D (Bradford).

Hazimah Abdul Hamid, B.Sc, M.Sc (WMU).

Dr. Ismail Mohamad, B.Sc, M.Sc (Indiana), Ph.D (Lancester).

Dr. Khairil Anuar Arshad, B.Sc (Northwest), M.Sc (Kentucky), Dip.Ed (UTM), Ph.D (Bradford).

Dr. Maizah Hura Ahmad, B.Sc (Iowa), M.Sc (Kansas), Ph.D (UTM).

Dr. Munira Ismail, B.Sc, M.Sc (Indiana State), Ph.D (UTM).

Dr. Nor’aini Aris, B.Sc (Iowa), M.Sc (Kansas), Ph.D (UTM).

Dr. Ong Chee Tiong, Dip.Ed, B.Sc.Ed (Hons), M.Sc, Ph.D (UTM).

Dr. Robiah Adnan, B.A (CSU, Chico), M.Sc (Kentucky, Lexington), Ph.D (UTM).

Dr. Shamsudin Ahmad, B.Sc (UKM), M.Sc, Ph.D (City).

Dr. Sharidan Shafi e, B.Sc (Hons), M.Sc, PhD (UTM).

Dr. Yudariah Mohammad Yusof, B.Sc.Ed (Hons) (Malaya), M.Sc (Leeds), Ph.D (Warwick).

Dr. Mukhiddin Muminov, M.Sc (Samarkand), Phd (Academy of Science , Uzbekistan)

Dr. Fadhilah Yusof, B.Sc, M.Sc, M.BA (Indiana State) Ph.D (UTM).

Dr. Normah Maan, B.Sc (Hons) (Sheffi eld), M.Sc, Ph.D (UTM).

Pensyarah KananDr. Mukheta Isa, B.Sc (UKM), M.Sc, Ph.D (Newcastle) APMM, MSEAMS.

Dr. Ani Shabri, B.Sc (Hons), M.Sc (UTM) , Ph.D (UKM).

Dr. Anati Ali, B.Sc (UTM), M.Sc (East Anglia) , Ph.D (UTM).

Dr. Arifah Bahar, B.Sc (Hons) (Manchester), M.Sc (UKM), Ph.D (Strathclyde).

Che Lokman Jaafar, B.Sc, M.Sc (Ohio).

Che Rahim Che Teh, B.Sc (Hons) (Malaya), M.Sc (UTM).

Dr. Faridah Mustapha, B.Sc (Florida State Univ.), M.Sc (E. Kentucky Univ.), Dip.Ed (UTM), Ph.D (Strathclyde).

Hamisan Rahmat, B.Sc (Hons) (Malaya), M.Sc (West London).

Halijah Osman,B.Sc (Missouri), M.Sc (Kentucky), Dip.Ed (UTM).

Ibrahim Mohd Jais,B.Sc (North Carolina), M.Sc (Western Carolina).

Ismail Kamis, B.Sc, M.Sc (North Carolina).

Mahad Ayem, B.Sc (Hons), Dip.Ed (Malaya), M.Sc (Cranfi eld).

Dr. Maslan Hj. Osman, B.Sc.Ed (Hons) (UTM), M.Sc, Ph.D (Newcastle).

Dr. Nor Muhainiah Mohd Ali, B.Sc, M.Sc (UTM)-CB , Ph.D (UTM).

Dr. Norhaiza Ahmad, B.Sc. (Hons) (UMIST), M,Sc (Sheffi eld) , Ph.D (UKM).

Dr. Norzieha Mustapha, B.Sc (UTM), M.Sc (Sussex), Ph.D (UTM).

Dr. Hazzirah Izzati Mat Hassim, B.Sc, M.Sc. PhD (UTM)

Rashidah Ahmad, B.Sc, M.Sc (NIU) - CB.

Dr. Roselainy Abd Rahman, KST

Dr. Shariffah Suhaila Syed Jamaludin, B.Sc (Carleton), M.Sc (UKM)-CB , Ph.D (UKM).

Dr. Yeak Su Hoe, B.Sc, M.Sc (UTM), Ph.D (NUS).

Zakaria Dollah, B.Sc (Hons) (Malaya), M.Sc (UTM).

Dr. Zarina Mohd Khalid, B.Sc (Hons.) (Kent), M.Sc (Warwick), Ph.D (Kent).

Dr. Amidora Idris, B.Sc, M.Sc (UKM), PhD (UTM)

Dr. Fuaada Mohd Siam, B.Sc, M.Sc (UTM), PhD (Glasgow)

Dr. Haliza Abd. Rahman, B.Sc (Hons) (UMIST), M.Sc (UKM), PhD (UTM)

Dr. Norazlina Ismail, B.Sc (Hons), M.Sc (UKM), PhD (Massey)

Dr. Nur Arina Bazilah Aziz, B.Sc (UTM), M.Sc (West London), PhD (UM)

Dr. Shazirawati Mohd Puzi, B.Sc (UTM), M.Sc (Sussex), PhD (UTM)

Dr Syarifah Zyurina Nordin, B.Sc, M.Sc (UTM), PhD (Curtin)

Dr. Zaiton Mat Isa, B.Sc, M.Sc (UTM), PhD (Queensland)

Dr. Zuhaila Ismail, B.Sc, M.Sc (UTM), PhD (Southampton)

Dr. Fong Wan Heng, B.Sc, M.Sc, PhD (UTM)

PensyarahFarhana Johar, B.Sc, M.Sc (UTM).-CB

Muhammad Fauzee Hamdan, B.Sc, M.Sc (UTM).

Noraslinda Mohamed Ismail, B.Sc (Hons) (UPM), M.Sc (UTM).

Wan Rukaida Abdullah, B.Sc, M.Sc (UTM)

Muhammad Najib Zakaria, B. Sc, M.Sc (UTM) – CB

TutorAdrian Syah bin Halifi , B.Sc (UTM).

Mohd Arif bin Admon, B.Sc (UTM)

Niki Anis Ab. Karim, B.Sc (UTM)

Taufi q Khairi bin Ahmad Khairuddin, (M.Sc (UTM) , B.Sc (UTM).

Wan Rohaizad Wan Abdullah, M.Bs (UTM) , B.Sc (UTM).


IBNU SINA INSTITUTE FOR SCIENTIFIC AND INDUSTRIAL RESEARCH (ISI – SIR)

RESEARCH INSTITUTE FOR SUSTAINABILITY ENVIRONMENT (RISE)

Pengarah KananDr. Mohd Marsin Sanagi, B.A (Macalester), M.Sc (Iowa), Ph.D (Loughborough), FMIC.

1) Laser Centre

PengarahDr. Noriah Bidin, B.Sc (Hons), Dip.Ed. (UKM), M.Sc. (Loughborough), Ph.D (UTM).

ProfesorDr. Jalil Ali, B.Sc (Hons), M.Sc (Malaya), Ph.D (UTM), MIFM.

Pensyarah KananDr. Suzairi Daud, B.Sc, M.Sc, PhD (UTM)

Dr. Kashif Tufail Chaudhary, B.Sc (Punjab), M.Sc, PhD (UTM)

Dr. Mahdi Bahadoran, B.Sc, M.Sc (Shiraz), PhD (UTM)

2) Centre for Sustainability Nanomaterials (Cs Nano)

PengarahDr. Hadi Nur, B.Sc, M.Sc (ITB), PhD (UTM)

ProfesorDr. Zulkafl i Othaman, B.Sc.Ed (Hons) (UTM), M.Sc (Oregon), Ph.D (Bath), MIFM, MASS

Dr. Tahir Ahmad, B.A, M.Sc (California State), Ph.D (Sheffi eld Hallam).Dr. Samsudi Sakrani, B.Sc (UKM), M.Tech (West London), Ph.D (Aston), MASS

Dr. Mustaffa Shamsuddin, B.Sc (Hons), M.Sc (East Anglia), Ph.D (Leeds).

Profesor MadyaDr. Norma Alias, B. Sc, M.Sc, PhD (UKM)

Dr. Sugeng Triwahyono, B. Sc, M.Sc, (KITAMI), PhD (Hokaido)

Dr. Riadh Sahnoun, B.Sc (Tunisia), Ph.D (Paul Sabatier).

Pensyarah Kanan Dr. Lee Siew Ling, B.Sc, M.Sc, PhD (UPM)

Dr. Hendrik Oktendy Lintang, B. Sc (Gadja Mada), M. Sc, PhD (Tokyo) - Kontrak

Dr. Leny Yuliati, B.Sc (Gadja Mada), M. Sc, PhD (Nagoya) – Kontrak

Dr. See Hong Heng, B.Sc, M.Sc, PhD (UTM)

Dr. Rafaqat Hussain, B.Sc, M.Sc, Ph.D (London). – Kontrak

Dr. Yap Yung Szen, B.Sc, M.Sc (UTM), PhD (Osaka)

3) Centre for Industrial and Applied Mathematics (CIAM)

PengarahDr. Zainal Abd. AzizB.Sc (Hons) (Manchester), M.Sc, Ph.D (UKM).

ProfesorDr. Shaharuddin Salleh,

B.A (CSU, Chico), M.Sc (Portland State), Ph.D (UTM)

Dr. Ali Hassan Mohamed MuridB.Sc, M.Sc (Iowa), Dip.Ed, Ph.D (UTM)

Dr. KK Viswanathan,B.Sc (India), M.Sc, Ph.D (Madras, India).- kontrak

Pengarah KananDr. Abdull Rahim Hj. Mohd Yusoff, B.Sc (Hons) (Liverpool), M.Phil (Newcastle), Ph.D (Loughborough), AMIC

Pensyarah KananDr. Norzieha Mustapha, B.Sc (UTM), M.Sc (Sussex), Ph.D (UTM)

Dr. Arifah Bahar, B.Sc (Hons) (Manchester), M.Sc (UKM), Ph.D (Strathclyde).

Dr. Zaitul Marlizawati Zainuddin, B.Sc (Southampton), M.Sc (Salford), Ph.D (Birmingham).

Untuk maklumat lanjut, sila hubungi

DekanFakulti SainsUniversiti Teknologi Malaysia81310 UTM Johor BahruJohor Darul TakzimTel: 07-553 4000 • Fax: 07-556 6162

science.utm.my

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