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1
Part-time Student’s
Fa
culty
of M
echa
nica
l Eng
inee
ring
UndergraduateHandbook
SESSION 2017/2018
2 3
CONTENTS
1. Forward by the Dean of Faculty 42. Welcoming words by the Academic Manager 53. Philosophy, Vision & Mission of the University,
Mission, Objectives & Client’s Charter of the Faculty6
4. Organisation Structure 75. Academic Calender 86. Learning Centers & Facilities 97. FKM External Programmes Office Staff 108. Entry Requirements 129. Programme Specifications 1310. Area of Study 1611. Career Prospects 2012. Bachelor of Engineering (Mechanical) Programme 2113. Course Flowchart 2414. Pre-requisite Course Flowchart 2615. Academic Regulations & Guidelines 2816. Credit System 2917. Specific Requirement for Courses in the Faculty 3118. Appendix 40
Name
Matrix. No.
4 5
Assalamu’alaikum and Greetings
Congratulations on your decision to pursue your education at Universiti Teknologi Malaysia for Bachelor of Engineering (Mechanical) programme. Your decision to increase your knowledge can positively affect your future.
This engineering programme is offered by the Faculty of Mechanical Engineering, Universiti Teknologi Malaysia at its own campuses and at various learning centres and administered professionally by the School of Professional and Continuing Education (UTMSPACE). During the execution of the programme, you will face many challenges at many levels which require full commitment and endurance to enable success. I hope that you will strive for your utmost to be a successful Mechanical Engineer.
This Part-time Student’s Undergraduate Handbook contains brief information of the programme and serves as the main source of reference related to the curriculum and academic matters applicable to the students of the 2017/2018 session intake. You can refer to the handbook and consult your learning centre coordinators to plan your studies. The learning centre coordinators also act as the Academic Advisors to you and will provide the necessary advises related to academic issues.
I hope that your time at the university will be enriching and rewarding and will leave you with many joyful memories.
On behalf of my colleagues, I warmly welcome you.
Wassalam and thank you.
DR. ENGKU NAZIM BIN ENGKU ABU BAKAR Academic Manager for External Programmes,Faculty of Mechanical Engineering, Universiti Teknologi Malaysia.
Assalamu’alaikum and Greetings
I am grateful to the ALMIGHTY Allah S.W.T for enabling me to give a few words in this Undergraduate Handbook 2017/2018. Welcome to Faculty of Mechanical Engineering, Universiti Teknologi Malaysia (UTM). I would like to congratulate all the new students for being offered admission to various degree programs in the faculty. I hope the opportunity given will be used wisely and you will do your utmost to acquire the knowledge, experience and exposure necessary to be a successful Mechanical Engineer. The Undergraduate Handbook contains brief information of the faculty curriculum and syllabus applicable to the students of the 2017/2018 session intake. It also serves as your main source of reference related to your academic affairs and provides the required information by the students especially on the faculty’s administration implementation of programmes and courses offered. This handbook can be used by the students to plan their studies as well as a reference for the programme structure offered by the faculty. Additionally a special topic on Academic Advising is included so that both students and academic advisors can play their roles effectively. We hope all new students utilize the information provided in this handbook to benefit from all the services to enhance your educational experience and create many valuable memories. All users of this handbook are invited to submit comments and recommendations for changes through the Academic Office of the faculty. Additions, deletions and changes to this handbook may occur throughout the year. On behalf of the faculty I would like to extend my utmost appreciation and sincere gratitude to all parties involved in the publication of this Undergraduate Handbook. I wish the new students all the best in their studies at the faculty and we hope this handbook will be useful to all. The faculty and staff are very interested in your success and much of your success is depedent on you. Thank you. Best wishes, Wassalam.
PROFESSOR DR. MOHD. HASBULLAH BIN HJ IDRISDean,Faculty of Mechanical Engineering, Universiti Teknologi Malaysia.
Forward by theDean of Faculty
Welcoming words by the Academic Manager
6 7
PHILOSOPHY OF THE UNIVERSITYThe divine law of Allah is the foundation for science and technology.
Universiti Teknologi Malaysia strives with total and unified effort to develop excellence in science and technology for universal peace and prosperity,
in accordance with His will.
VISION OF THE UNIVERSITYTo be recognized as a world class centre of academic and
technological excellence
MISSION OF THE UNIVERSITYTo be a leader in the development of human capital and innovative
technologies that will contribute to the nation’s wealth creation
VISION OF THE FACULTYTo become a world-class Mechanical Engineering Faculty
MISSION OF THE FACULTYTo develop the human resource required by the nation through training,
development, dissemination of knowledge, research and consultancy
OBJECTIVES OF THE FACULTY• To develop quality human resource at undergraduate and post-graduate levels.• To assist the industry through basic and applied research.• To forge cooperative network with the industry in areas of mutual benefit.• To disseminate knowledge through the publication of research papers, journals, books and reports.• To develop its staff.
CLIENT’S CHARTERRealizing that the main role of the Faculty is developing human resources in the field of Mechanical Engineering to fulfill the needs of the country, university and society, we hereby pledge• To produce capable and ethical Mechanical Engineers;• To design and implement a world class curriculum recognized by Professional Bodies;• To provide efficient, ethical and professional staffs who are capable of executing quality academic and administrative tasks in a planned, orderly and controlled manner;• To provide suitable and conducive infrastructure for teaching and learning;• To be concerned of students self-development.
Organisation Structure
Academic administration in relation to Fac. of Mech. Eng. UTM
Academic administration in relation to UTMSPACE
DeanSPACE
General Manager of Part Time StudiesUTMSPACE
Academic Manager for External Programmes FACULTY OF MECHANICAL ENGINEERING
Coordinators
Academic MattersLearning Centers
JohorBahru
Pulau Pinang
Kuala Lumpur
Kuantan
DeanFACULTY OF MECHANICAL ENGINEERING
Deputy Dean (Academic)FACULTY OF MECHANICAL ENGINEERING
Academic Manager for External ProgrammesFACULTY OF MECHANICAL ENGINEERING
Coordinators
Academic MattersLearning Centers
JohorBahru
Pulau Pinang
Kuala Lumpur
Kuantan
Kota Kinabalu
Kota Kinabalu
Undergraduate Project
Industrial Training
IT Manager & Examination
Laboratory Courses
Undergraduate Project
Laboratory Courses
Industrial Training
IT Manager & Examination
8 9
Academic Calendar
The University Academic Year is divided into two regular semesters namely Semester I and Semester II. Each semester consists of 14 weeks. Apart from the regular semesters, the University also runs a short semester (Semester III), which is held during vacation period at the end of the academic year. This semester is not taken into account in the maximum study duration stipulated for a particular program.
THE ACADEMIC YEARSemester I
Lectures 15 weeksRevision Week 1 weekFinal Examination 3 weeksEnd of Semester I vacation 5 weeks
Semester IILectures 15 weeksRevision Week 1 weekFinal Examination 3 weeksEnd of Semester II vacation 10 weeks
Semester III (During End of Semester II vacation)
Lab courses 1 weekLectures and Examination 8 weeksEnd of Semester III vacation 1 week
Learning Centers
Currently, there are 5 Learning Centers offering the Bachelor of Engi-neering (Mechanical) programme. Locations of the Learning Centre are as follow:
Learning Centers Locations01 JOHOR BAHRU FKM UTM Skudai,
Johor03 PULAU PINANG Bangunan D’Piazza Mall, Bayan Baru, Pulau
Pinang04 KUALA LUMPUR (i) KL International Campus, Jalan Sultan
Yahya Petra, Kuala Lumpur(ii) Bangunan UTMSPACE, Jalan Tun Razak, Kuala Lumpur
05 IPOH Kolej Teknologi Perak, Ipoh, Perak08 KUANTAN IKIP International College, Kuantan, Pahang11 KOTA KINABALU Kolej Yayasan Sabah, Sembulan, Sabah
Facilities
All Learning Centers are well-equipped with lecture halls, lecture rooms and computer laboratories. All Part-Time students are eligible to make use of the libraries of the institution. UTMSPACE supplies the libraries with specific books relevant to the programs offered.
10 11
FKM External Programmes Office Staff
Academic Manager
Dr. Engku Mohammad Nazim bin Engku Abu BakarFKM External Programmes Office
Room: C24 114-02Tel: 07-5534861 019-7544816Email: [email protected] [email protected]
Administrative Assistants
(i) Izwayda binti Md Noor(ii) Huzaimah binti Jamal
Room: The Office of External Programmes (C24-114-02)Tel: 07-5534726Fax: 07-5577782Email: [email protected] [email protected]
Learning centers & Academic matters
Coordinators Contacts
JOHOR BAHRU(01)
(i) Hj Mohd Zubil bin Bahak
(ii) Afandi bin Dzakaria
(iii) Dr.-Ing. Zair Asrar bin Ahmad
07-5534737/ [email protected]
07-5534653/ [email protected]
07-5534699/ [email protected]
PULAU PINANG(03) &
IPOH (05)
(i) Mohd Kamal bin Ariffin
(ii) Zulkepli bin Hj Muhamad
07-5534738/ [email protected]
07-5534746/ [email protected]
KUALA LUMPUR
(04)
(i) Assoc. Prof. Ir. Dr. Zarhamdy bin Md. Zain
(ii) Hj Mohd. Yunus bin Abdullah
07-5534688/ [email protected]
07-5534759/[email protected]
KUANTAN(08)
Dr. Zulkarnain bin Abdul Latiff
07-5534758/ [email protected]
KOTA KINABALU(11)
Assoc. Prof. Ir. Dr. Zaini bin Ahmad
07-5534647/ [email protected]
INDUSTRIAL TRAINING
Dr. Zulkarnain bin Abdul Latiff
07-5534758/ [email protected]
UNDERGRADUATE PROJECT
Afandi bin Dzakaria 07-5534653/ [email protected]
LABORATORY COURSES
Assoc. Prof. Ir. Dr. Zarhamdy bin Md. Zain
07-5534699/ [email protected]
IT MANAGER & EXAMINATION
Zulkepli bin Hj Muhamad
07-5534746/ [email protected]
12 13
Entry Requirements For Bachelor In Engineering (Mechanical) Programme
Minimum Entry Requirements for Diploma holders/ Equivalent.
1. University General Requirements
1.1 Passed SPM or equivalent with a credit in Bahasa Melayu/ Bahasa Malaysia or a credit in Bahasa Melayu/ Bahasa Malaysia, July paper.
OR Passed SPM or equivalent with a pass in Bahasa Melayu/ Bahasa
Malaysia or a credit in Bahasa Melayu/ Bahasa Malaysia, July paper before graduating.
1.2 Obtained a Diploma or equivalent qualification recognized by the Malaysian Government (accredited by MQA) and approved by Senate with at least a CPA of 2.75 or obtained a Diploma or equivalent qualification recognized by the Malaysian Government (accredited by MQA) with a minimum of two years working experience in an engineering environment.
2. Program Specific Requirements
2.1 Passed with a credit in Mathematics and Physics at SPM level or equivalent.
OR Obtained at least ‘C’ Grade in any one of the Mathematics and Physics
courses at Diploma level.2.2 Do not have any health problems that may affect their studies.
NotesCandidates are required to submit to UTM, a detailed transcript of the examination results during the course of their study for Diploma (from the first semester to the final semester). They are also required to submit a copy of their Diploma or a letter verifying completion of their study.Successful applicants must take and obtain at least a Band 2 in Malaysian University English Test (MUET) within one (1) year from their first registration to the program. The actual year of entry and duration of study are subject to credit exemption approved by UTM.
BACHELOR OF ENGINEERING (MECHANICAL) PROGRAMME SPECIFICATIONS
1. Programme Name Bachelor of Engineering (Mechanical)
2. Final Award Bachelor of Engineering (Mechanical)
3. Awarding Institution Universiti Teknologi Malaysia4. Teaching Institution Universiti Teknologi Malaysia5. Programme Code SKMM6. Professional or Statutory
Body of AccreditationEngineering Accreditation Council
(EAC)7. Language(s) of
InstructionBahasa Melayu and English
8. Mode of Study Conventional9. Mode of operation Self-govern10. Study Scheme Part Time11. Study Duration Maximum: 10 years
Type of Semester No. of Semesters No. of Weeks/SemesterRegular 2 14
Short 1 8
12. Entry Requirements Diploma or equivalent13. Programme Objectives (PEO)
To produce graduates who are able to :i) Demonstrate their academic and technological excellence professionally
and globally, particularly in areas related to mechanical engineering practices and contribute innovatively to the nation’s wealth creation.
ii) Advance their careers by assuming increasing levels of responsibility, leadership and acquiring professional and advanced academic qualifications.
iii) Recognize and practice professional, ethical, environmental and societal responsibilities and value different global and cultural aspects of their work and society.
iv) Adapt and communicate effectively and be successful working with multi-disciplinary teams.
14 15
14. Programme Outcomes (PO)PO1 Ability to acquire and apply fundamental knowledge of mathematics,
science and engineering principles to solve complex mechanical engineering problems.Keywords: Engineering Knowledge
PO2 Ability to identify, formulate and analyse complex mechanical engineering problems.Keywords: Problem Analysis
PO3 Ability to design solutions for complex mechanical engineering problems that fulfil health, safety, societal, cultural and environmental needs.Keywords: Design/Development of solutions
PO4 Ability to investigate complex mechanical engineering problems using research-based knowledge and methods to produce conclusive results.Keywords: Investigation
PO5 Ability to use modern engineering and information technology (IT) tools in complex mechanical engineering activities, with an understanding of the limitations.Keywords: Modern Tools Usage
PO6 Ability to apply professional engineering practice related to societal, health, safety, legal and cultural issues with full responsibility and integrity. Keywords: The Engineer and Society
PO7 Ability to identify the impact of mechanical engineering solutions on sustainability and demonstrate the needs for sustainable development in societal and environmental contexts.Keywords: Environment & Sustainability
PO8 Ability to apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice.Keywords: Ethics
PO9 Ability to communicate effectively on complex mechanical engineering activities both orally and in writing.Keywords: Communication
PO10 Ability to work productively as an individual, and as a member or leader in a team that may involve multi-disciplinary settings.Keywords: Team Working
PO11 Ability to undertake life long learning and manage information including conducting literature study.Keywords: Life Long Learning
PO12 Ability to demonstrate and apply knowledge on finance and management principles and acquire entrepreneurship skill.Keywords: Project Management, Finance & Entrepreneurship
15. Classification of CoursesNo. Classification Credit Hours Percentage
i Programme Core 79 57
ii. Programme Electives 38 28iii. Compulsory University Subject 20 15
Total 137 100
Classification of courses for engineering programme
A Engineering Courses 117 85
Total credit hours for Part A 117
B Non-Engineering 2015
Total credit hours for Part B 20
Total credit hours for Part A and B 137 100
16. Total Credit Hours to Graduate 137
16 17
Areas Of Study
Mechanical engineering program makes up the core of the engineering studies at the Faculty of Mechanical Engineering. Students pursuing specialization in a particular field shall take additional elective courses. The fundamental areas of study in mechanical engineering are described as follows:
(a) Applied Mechanics
Applied Mechanics is the application of mechanics principles to real world problems. It is a field of engineering that combines the fundamental physical sciences with powerful mathematical, computational and experimental techniques. The term mechanics refers to the formulation of rules predicting the behavior of physical system under the influence of any type of interaction with its environments, particularly due to the action of forces that cause the behavior or response of the physical system at rest (statics) or in motion (dynamics). Applied Mechanics covers the following disciplines: Mechanics of Materials and Structures Mechanics of Machines Dynamic Systems and Control.
The above sub-fields provide the essential knowledge that is required by the Mechanical-based engineers to include Aeronautical, Automotive, Marine, Materials, Manufacturing and Industrial Engineering counterparts.
Examples of the elective courses in Applied Mechanics are: Mechanics of Composite Materials, Failure of Engineering Components and Structures, Mechanical Vibration, Machine Condition Monitoring, Noise, and Robotics.
(b) Thermodynamics
Thermodynamics is taught at two levels; basic and applied. In the basic level, focus is given to the understanding of the concept system, heat, work as well as material properties in relation to heat and work, and their influence on a particular thermodynamic system. The second level involves application of theories based on thermodynamic laws in studying and analyzing primary devices. Focus is on the methods of generating heat and power, minimization of fuel usage, efficiency and other parameters.
Thermodynamics is an important field, very much needed in several industrial sectors such as power generation, petro chemistry, automotive and building maintenance. It is a course which is directly involved in power generation/ energy savings, different engine designs and the supporting systems with high capability and cost effectiveness.
Examples of the elective courses in Thermodynamics are: Combustion Processes, Air-Conditioning, Internal Combustion Engine, Heat Transfer, and Power Plant Technology.
(c) Fluid Mechanics
It is a field of study that deals with fluid properties, surface hydrostatic force (examples: dam gate, reservoir, pressure and flow measurement, piping system design, potential flow and boundary layer) to determine flow type and resulting force, pumps and turbines. The principles applied include Newton’s law, thermodynamic laws and basic knowledge in Mathematics. The scope of study is based on its application in the engineering field. Examples of the elective courses in Fluid Mechanics are: Turbo-Machinery, Hydraulic and Pneumatic Systems, and Computational Fluid Dynamics (CFD).
18 19
(d) Design
Introduction to Design Students are exposed to the concepts and methods to develop an efficient design process and applying it to solve engineering design problems creatively and effectively.
Component Design Students are exposed to analysis in machine design element failure theories. This includes failures due to static and fatigue loads. It involves fatigue strength and endurance level, modified stress, Goodman diagram and fatigue design under tensile and combined stresses. The content will encompass the design and selection of bolts, welding, spring, ball and roller bearings, gears and belts. At the end of the course, students should have the capabilities to identify, make analysis and design the machine elements in the perspective of static and fatigue failure aspect.
System Design Students are exposed to design methodologies and principles specific to the practice of mechanical design. Emphasis is on developing efficient and effective design techniques as well as project-oriented skills from both technical and nontechnical considerations. Students are able to identify and apply appropriate methodology in performing design tasks, recognize the fundamental principles of mechanical design and practices and formulate and apply general problem solving strategy in the analysis of situation, problem and potential problem. Students are able to identify and apply industry standards in design communication.
(e) Materials Science and Materials Technology
This course is important to the engineer because it provides the basic knowledge in engineering materials such as metals, polymers, ceramics and composites so that proper materials can be elected for a particular design or product. This course relates the structure to the properties of materials so that the behavior of materials can be better understood.
20 21
Career Prospects
Graduates of the program are expected to work in Mechanical Engineering field, one of the oldest and broadest areas of engineering activity. The career of a Mechanical Engineer involves the efficient application of physical and human resources in improving the standard of living. A Mechanical Engineer combines the basic knowledge of physical sciences and engineering education with experience and expertise to invent, design and manufacture, run and maintain mechanical equipment,
machineries and tools in all branches of industry including automotive, aerospace, marine/
ship building, manufacturing, processing and those involving heavy machineries. Graduates in this area are capable of fulfilling the task of an engineer cum technologist in
the government, semi-government and private firms. Graduate will be able to find job opportunities in various sectors a n d industries as previously
mentioned.
A Mechanical Engineer may further his career as a
product designer (consulting firm), building contractor,
manufacturer of machines or engineering products, researcher
in Research and Development (R&D) departments/ institutes or an academician
in institutions of higher learning. Indeed, the career of a Mechanical Engineering graduates are able to take up various relevant positions without much hassle.
Bachelor Of Engineering (Mechanical) Programme
Curriculum & Pre-requisite Courses
No. Code Course Credit Pre-requisite/s
1 SKEU 1002 Electrical Technology 2 Automatic Exemption
2 SKEU 2012 Electronics 2 SKEU 1002**
3 SKMM 1013 Programming for Engineers 3
4 SKMM 1113 Mechanics of Solid I 3 SKMM 1203*
5 SKMM 1203 Statics 3
6 SKMM 1213 Dynamics 3 SKMM 1203*
7 SKMM 1503 Engineering Drawing 3 Automatic Exemption
8 SKMM 1512 Introduction to Design 2 SKMM 1503**
9 SKMM 1912 Experimental Method 2 Automatic Exemption
10 SKMM 1922 Introduction to Mechanical Engineering
2 Automatic Exemption
11 SKMM 2123 Mechanics of Solid II 3 SKMM 1113*
12 SKMM 2223 Mechanics of Machine & Vibration
3 SKMM 1213*
13 SKMM 2313 Mechanics of Fluid I 3 SKMM 1203*
14 SKMM 2323 Mechanics of Fluid II 3 SKMM 2313*
15 SKMM 2413 Thermodynamics 3
16 SKMM 2423 Applied Thermodynamics 3 SKMM 2413*
17 SKMM 2613 Materials Science 3
18 SKMM 2921 Laboratory I 1 Automatic Exemption
19 SKMM 3023 Applied Numerical Methods 3 SKMM 1013***SSCE 1793***
20 SKMM 3033 Finite Element Method 3 SKMM 2123***
21 SKMM 3233 Control Engineering 3 SKMM 1213***SSCE 1793***
22 SKMM 3242 Instrumentation 2 SKEU 2012***
23 SKMM 3252 Mechatronics 2 SKEU 2012*** SKMM 1013***
24 SKMM 3443 Heat Transfer 3 SKMM 2413*** SSCE 1793***
22 23
No. Code Course Credit Pre-requisite/s
25 SKMM 3523 Components Design 3 SKMM 1512** SKMM 2123***
26 SKMM 2713 Manufacturing Process 3
27 SKMM 3813 Industrial Engineering 3
28 SKMM 3915 Industrial Training 5 SKMM 2123*** SKMM 2223***SKMM 2323*** SKMM 2423***
29 SKMM 3931 Laboratory II 1 SKMM 2921**
30 SKMM 3941 Laboratory III 1 SKMM 3931**
31 SKMM 4533 System Design 3 SKMM 3523**
32 SKMM 4823 Engineering Management, Safety & Economics
3
33 SKMM 4902 Engineering Professional Practice
2
34 SKMM 4912 Undergraduate Project I
2 SKMM 2123*** SKMM 2223***SKMM 2323*** SKMM 2423***
35 SKMM 4924 Undergraduate Project II
4 SKMM 4912**
36 SSCE 1693 Engineering Mathematics I
3
37 SSCE 1793 Differential Equation 3 SSCE 1693**
38 SSCE 1993 Engineering Mathematics II
3 SSCE 1693**
39 SSCE 2193 Engineering Statistics
3
Mechanical Electives
No. Code Course Credit Pre-requisite/s
40 SKMM 4ww3 Elective I 3
41 SKMM 4xx3 Elective II 3
42 SKMM 4yy3 Elective III 3
43 SKMM 4zz3 Elective IV 3
University Courses
No. Code Course Credit Pre-requisite/s
44 UHAS 1172 Malaysian Dynamics 2
45 UICI 1012 Islamic & Asian Civilization 2
46 UICI 2022 Science, Technology & Mandkind
2
47 Uxxx xxx2 Humanities Development & Globalization Cluster Electives
2
48 Uxxx xxx2 Entrepreneurship Cluster Electives
2
49 Uxxx xxx2 Innovation & Creativity Cluster Electives
2
50 ULAB 1122 English for Academic Communication
2
51 ULAB 2122 Advance English for Academic Communication
2 ULAB 1122**
52 ULAB 3xx2 English Electives 2 ULAB 2122**
53 UKQx 1xx1 Co-curriculum Electives 1 Automatic Exemption
54 UKQx 1xx1 Co-curriculum Electives 1 Automatic Exemption
TOTAL CREDITS 137
Notes:
* Core courses (passing grade is C, pointer 2.0)
** Minimum grade for pre-requisite courses is D+ (pointer 1.0)
*** Minimum grade for pre-requisite courses is D- (with pointer)
24 25
Co
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Bac
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Of
Eng
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Mec
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) P
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UTM
SPA
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2017
/201
8
@arm
SKEU 2012
SSCE 1693
UHAS 1172
SKMM 1013
SKMM 1203
SKMM 1503
SKMM 1922
UKQx1xx1
ULAB 1122
SKMM 1213
SKMM 1113
SKMM 1512
SKMM 1912
UICI 1012
SKMM 2413
SKMM 2423
SSCE 1993
SKMM 2323
SSCE 2193
SKMM 2613
SKMM 3252
SKMM 3023
SKMM 3233
SKMM 3931
SKMM 2713
Uxxx xxx2
ULAB 3xx2
UICI 2022
SKMM 3813
SKMM 3941
SKMM 3523
SKMM 3033
SKMM 3443
SKMM 3242
SKMM 3915SKMM 4912
SKMM 4xx3
SKMM 4xx3
SKMM 4533
SKMM 4823
UKQx 1xx1
SKMM 4924
SKMM 4xx3
SKMM 4xx3
SKMM 4902
Uxxx xxx2
Uxxx xxx2
SSCE 1793
SKMM 2313
SKMM 2123
SKMM 2223
ULAB 2122
SKMM 2921
Total Credits
137
Automatic Credit Exemption
Core Courses
SKEU 1002
26 27
Other Courses (No pre-requisites)
SKMM 1013 SKMM 3813
SKMM 1203 SKMM 4823
SKMM 2413 SKMM 4902
SKMM 2613 SKMM 4xx3
Semester I & II
SKMM 2713 SSCE 2193
UHAS 1172
Semester III
UICI 1012
UKQX 1xx1
Numerical Courses
SKMM 1013
SSCE 1793 SKMM 3023
Instrumentation Courses
SKEU 2012 SKMM 3242SKEU 1002
FEM Courses
SKMM 2123 SME 3033SKMM 1113SKMM 1203
Mechatronic Courses
SKEU 2012
SKMM 1013SKMM 3252
SKEU 1002
Laboratory Courses
SKMM 3931 SKMM 3941SKMM 2921SKMM 1912
Design Courses
SKMM 4533SKMM 2123
SKMM 3523SKMM 1512SKMM 1503
English Courses
ULAB 3xx2ULAB 2122ULAB 1122
Heat Transfer Courses
SKMM 2413
SSCE 1793SKMM 3443
SSCE 1693
Mathematical Courses
SSCE 1993
SSCE 1793SSCE 1693
Control Courses
SSCE 1793SKMM 3233
SSCE 1693
SKMM 1213SKMM 1203
UICI 2022
ULAB 1112
Uxxx xxx2
Undergraduate Project Courses and Industrial Training Course
SKMM 1113 SKMM 2123SKMM 3915
SKMM 1213 SKMM 2223
SKMM 2313 SKMM 2323
SKMM 2413 SKMM 2423SKMM 4912 SKMM 4924
SKMM 1203
Pre-requisite Course Flowchart Bachelor Of Engineering (Mechanical)
Programme UTMSPACE Intake 2017/2018
General Guidelines for Course Registration
• Ensure the course that you want to register has fullfilled the pre-requisite requirements (if applicable). Do not register the course without passing the pre-requisite courses as the final results will be cancelled.
• When comparing courses to register, priotize the pre-requisite courses.
• It is advisable to take only two core courses with one accompanying course per semester.
@arm
28 29
Academic Regulations & Guidelines
Programme & Course Registration
All students are required to register their courses on the dates specified by the university.
Course registration for senior students MUST be done ONLINE. Please check the correct code and the required pre-requisites (where applicable) for the course.
The maximum number of credits to be registered by a Part-Time student is 10 for the normal semester and 6 for the short semester. Students who wish to take more will have to get the Dean’s permission.
With the knowledge of the Course Lecturer and with the agreement of the Academic Advisor, a student can apply to withdraw from any course which has been registered for the semester not later than the specified date set by the university.
Course Codes & Abbreviations
The course code offered by the faculty is made up of three letters and four numbers. For example:
Course credit = 3
Course sequence = 1st
Field of course = Applied Mechanics
Year of program = 1st
Area of specialization = Mechanical
Faculty offering the programme = Mechanical
Type of award = Bachelor
Credit System
Every course is accorded a credit value except those specified by the university.
Credit Value
The credit value is based on the number of meeting hours per semester.
Lectures and Practical Period1 credit = 14 lecture hours per semester1 credit = 28 – 42 meeting hours per semester for practical/ studio
Example: Determination of credits for lectures and equivalent for practical period• 42 lecture hours per semester, or• 28 lecture hours per semester + 28 - 42 hours of practical/studio
work per semester, or• 14 lecture hours per semester + 56 - 84 hours of practical/studio
work per semester, or• 84 - 126 hours of practical/studio work per semester
Credits Obtained
Credits Obtained is the total number of credits for courses for which a student has passed. Credits Obtained is computed for each semester and all semesters. For students with credit exemption, the credits will be added to the passed course credits in order to determine the overall Credits Obtained. The Credit Obtained is very closely related to the Credits for Course Graduation.
Credits Counted
Credit Counted is the total number of credits taken by a student in a semester and in all semesters. The number of credits is used in the computation of GPA and CPA for the student concerned.
30 31
Credits For Programme Year
The stage of study or the year of the program for a student is determined by the total number of Credits Obtained. A student is deemed to have progressed a particular year program if the Credits Obtained is not less than value in the following table;
To Progress to Year Minimum Total Credits ObtainedSecond 27Third 60
Fourth 93
Specific Requirements For Courses In The Faculty
Pre-requisites Courses
Passing grade for all courses is 40% (D+) except for core courses; the passing grade is 50% (C). A student must fulfil the pre-requisite course before taking the next course.
For courses with final exam, a student needs to obtain a minimum of 20% from their final exam marks to be considered passing the courses regardless of coursework marks.
Core Courses for SKMM Programme
SKMM 1203 StaticsSKMM 1213 DynamicsSKMM 2223 Mechanics of Machines & VibrationSKMM 1113 Mechanics of Solid ISKMM 2123 Mechanics of Solid IISKMM 2313 Mechanics of Fluid ISKMM 2323 Mechanics of Fluid IISKMM 2413 ThermodynamicsSKMM 2423 Applied Thermodynamics
Industrial Training
Students have to register and complete a 12 weeks industrial training. The 5 credit registration will be counted in the 10 credit/semester maximum. A lecturer will be appointed to act as supervisor. Students have to submit the log book, the Training Report, and the Organization Evaluation Form to the Faculty.
32 33
Undergraduate Project (UGP)
The undergraduate project is divided into 2 parts, namely Undergraduate Project 1 (SKMM 4912) and Undergraduate Project 2 (SKMM 4924). Refer to UGP FME UTM Guidelines for more details.
Implementation of UGP• Student must have fulfilled all pre-requisite requirements.• Student must have accumulated at least 98 credits.• Student proposes the subject area which will be evaluated by the
relevant Head of Panel.• A lecturer will be assigned as supervisor of the project.• Meetings with supervisors minimum of 3 times/ semester.• Seminar presentation at the end of the semester at FKM UTM Johor
Bahru.• Students are required to submit the bounded thesis in order to
graduate.
Credit Exemption
A student may get credit exemption limited to a maximum of 30% (41 credits) of the total number of credits for graduation.
Part I: Faculty CoursesExemption of a particular course is subject to the requirements set by the faculty. Part II: University CoursesExemptions are processed by and under the jurisdiction of the relevant faculty/ department.
Part III: Industrial TrainingStudents who have at least 2 years working experience in an engineering environment after the Diploma are eligible to apply for exemption for Industrial Training. Application can only be forwarded (by filling in the relevant forms and submitting an Industrial Experience Report) to the
Industrial Training Coordinator after passing all pre-requisite courses.
Course Implementation
Semester I & Semester IICourses are conducted on SATURDAY and SUNDAY at all Learning Centers except for Johor Bahru which are conducted on FRIDAY and SATURDAY. Implementation is based on the same Credit Value according to Full Time Program.
Semester IIIThis semester is dedicated for the University Courses and Laboratory Courses. All Laboratory Courses are carried out at UTM Johor Bahru campus before the start of the Semester III. Credits for the registration of Laboratory Courses are included in the 6 credits maximum allowable for each Short Semester.
Lecture Attendance
Students who do not attend lectures or whose attendance is less than 70% without acceptable reasons will not be allowed to sit for the final examination, and a zero mark (grade E) will be given to the course.
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Grading System
A student’s performance in a course is indicated by the grade obtained. The relationship between marks, grades and grade points are as shown below. Generally the passing grade for any course is D+ except for core courses which are C. However, the passing grade for a particular course is subject to the Faculty’s requirement with the approval of the University Senate.
Mark Grade Grade Point90 – 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
Apart of the above grades, the following course grades are also used:
TD (Withdraw)
This grade is given to courses withdrawn during a specified duration as stipulated by the Senate. Credits will not be taken into account when computing Credits Counted, Credits Obtained, GPA and CPA.
UM (Repeat Course)
For core courses students are required to pass with at least a C grade. However, the credits for a failed UM course will not be counted in the CPA computation since they have been taken into consideration during the previous semester. This is to avoid duplication. A student who fails an elective course and substitute with another elective course, the credits and grade of the original course will be taken into account in Credits Counted and the CPA.
UG(Repeat Grade)
A student may improve any course with a B- grade or lower using the UG status. For a particular course this permission is given once only. The better grade between the previous and current grade will be awarded and used in the computation of GPA and CPA.
HL(Passed
Attendance)
Pass grade given for the course that is registered as HW status.
HG(Failed
Attendance)
Fail grade given for the course that is registered as HW status.
TS (Incomplete)
Grade given to students who are unable to sit for the final examination or to complete the coursework for a particular course due to illness as certified by a Medical Officer of the University or of a government hospital or due to other reasons acceptable by the Senate. Students must submit the medical certificate to the faculty not later than 24 hours before the commencement of the examination of the said course. The grade is also given to students who are unable to submit their undergraduate project theses within the stipulated time allocated by the faculty. Credits will not be taken into account when computing Credit Counted, Credits Obtained, GPA and CPA.
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Examinations
The end of semester examinations are the final examinations for courses taught through lectures. The allocation of marks for this should not exceed 50% of the overall evaluation mark for the course. Grades for each course will be displayed by the course lecturer and students may submit an appeal for re-evaluation of the examination grade for any course to the faculty within a specified duration and following a specified procedure. Appeals will not be entertained after the expiry date. Students will be charged with a specific amount for each of the courses appealed. Implementations of the final examinations procedure are also applicable to Part-Time students. The question papers, duration, time and dates are identical to Full-Time students but the location is at the relevant Learning Centers. UTMSPACE will provide qualified staff to invigilate and administer the examinations at the Learning Centers. Special examination may be held for any student who is unable to sit for the end of semester examination due to illness as certified by the University Medical Officer or by a government hospital.
Special examination may not be held in the following cases:• Courses which do not have final examinations.• Students who do not sit for the final examination without a valid
reason acceptable to the University/ or being barred from sitting for the final examination, or any other reasons approved by the University Senate.
Academic Performance
The student’s performance is evaluated based on GPA and CPA.
GPA – Grade Point AverageGPA is the grade point average obtained by a student in a particular semester. GPA is computed as follows:
Grade Point Average (GPA) = (Total Point Value for the semester)/ (Total Credits Counted for the semester)
CPA – Cumulative Grade Point AverageCPA is the cumulative grade point average obtained by a student for all semesters studied. CPA is computed as follows:
Cumulative Grade Point Average (CPA) = (Total Point Value for all semesters)/ (Total Credits Counted for all semesters)
Example of GPA & CPA calculations
Semester I
Courses GradePoint Value
CreditTotal Point Value
Credits Counted
Credits Obtained
SSCE 1893 B+ 3.33 3 9.99 3 3SKMM 2512 B 3.00 2 6.00 2 2SKMM 2713 A- 3.67 3 11.01 3 3
Total 8 27.00 8 8
For Semester I, GPA = 27.00/8 = 3.38For Semester I, CPA = 27.00/8 = 3.38
Semester II
Courses GradePoint Value
CreditTotal Point Value
Credits Counted
Credits Obtained
SKMM 1313 A 4.00 3 12.00 3 3SKMM 3813 B+ 3.33 3 9.99 3 3SKEU 2012 A- 3.67 2 7.34 2 2
Total 8 29.33 8 8
For Semester II, GPA = 29.33/8 = 3.67
For Semester II, CPA = (27.00+29.33)/(8+8) = 56.33/16 = 3.52
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Academic Performance Rating
The academic rating of a student is determined at the end of a regular semester using CPA as the following:
Academic Performance Rating CPAKB – Satisfactory CPA ≥ 2.00
TM – Unsatisfactory CPA < 2.00
Procedure of Awarding Degree
Degrees are awarded during the two regular semesters. However, under special circumstances, the Senate may allow the awarding of degrees during the short semester. Students are required to submit an application for graduation (award of degree) in a particular semester within a specified duration. A penalty will be imposed on late application of degree award. Students who do not submit their application for the award of a degree during the specified duration will be given a Satisfactory Rating (Program Completed) or KB (TK).
Students, who do not submit their application for the award of degree within five years of completion of their program, will not be awarded with a degree. Students who are not eligible for degrees but submit an application will be asked to pay a penalty.
A student must pass all courses specified for his/ her program of study. The total minimum credits and the maximum duration to complete and pass the program are as follow:
Degree Award Minimum Credits Maximum SemesterDegree of Engineering
(Mechanical) 137 20
A student is eligible to be awarded a degree after fulfilling the following conditions:• Obtained Satisfactory Rating or KB (with a minimum CPA of 2.00)• Has passed all courses specified.• Has applied for graduation and has been certified by the faculty.• Other conditions as specified.
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Appendix
- UTMSPACE Student’s Academic Exellences- - UTMSPACE Website & Student Portal -
UTMSPACE ACADEMIC EXELLENCES
Penerima Anugerah Dekan; Lukmanulhakim bin Mohd Daud.
Penerima Anugerah Dekan; Hilmi bin Nandan.
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Penerima Anugerah Dekan; Tan Beng Chiat. Kini menyambung pengajian di peringkat PhD di UTM.
Penerima Anugerah Dekan; Azmarini binti Ahmad Nazri. Kini menyambung pengajian di peringkat PhD di UTM.
UTMSPACE WEBSITE (http://www4.utmspace.edu.my/)
1. First, click “Student Portal”
2. Next, click “Student Portal”
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Or, go directly to the link:
STUDENT PORTAL (https://www.utmspace.edu.my/info/)
Too complicated?Just scan me ! :)
The content of this handbook is true and correct at the time of publication. Further information can be obtained from
Undergraduate Handbook 2017/2018.
The Faculty of Mechanical Engineering, Universiti Teknologi Malaysia reserves the right to change any information contained herewith.
Please forward any queries to:
THE DEANFaculty of Mechanical Engineering
Universiti Teknologi Malaysia81310 Johor Bahru
Johor Darul TakzimEmail: [email protected]
Telephone: 07-5534567Fax: 07-5566159
or
ACADEMIC MANAGERThe Office of External ProgrammesFaculty of Mechanical Engineering
Universiti Teknologi Malaysia81310 Johor Bahru
Johor Darul TakzimEmail : [email protected]
Telephone : 07-55344726
2017/2018-zair-April2018