UČNI NAČRT PREDMETA / COURSE SYLLABUS Letnik...Predavanja Lectures Seminar Seminar Vaje Tutorial Klinične vaje work Druge oblike študija ... baker, aluminij, posebne zlitine, uporovni

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Analiza I Course title: Analysis I

Študijski program in stopnja Study programme and level

Študijska smer Study field

Letnik Academic year

Semester Semester

Elektrotehnika 1. stopnja UN

Electrical Engineering

1st cycle Academic undergraduate

1. zimski Autumn

Vrsta predmeta / Course type Univerzitetna koda predmeta / University course code:

Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vaje work

Druge oblike študija

Samost. delo

Individ. work

ECTS

45 45 120 7 Nosilec predmeta / Lecturer: Tatjana Petek Jeziki / Languages:

Predavanja / Lectures:

slovenski / Slovene

Vaje / Tutorial: slovenski / Slovene Pogoji za vključitev v delo oz. za opravljanje študijskih obveznosti:

Prerequisits:

Pogojev ni. None. Vsebina:

Content (Syllabus outline):

Osnove matematične logike. Realna in kompleksna števila: absolutna vrednost,

neenačbe, matematična indukcija, kartezični in polarni zapis kompleksnega števila, de Moivreov obrazec.

Realne funkcije: osnovne lastnosti, inverzna funkcija, pregled elementarnih funkcij, limita in zveznost.

Diferencialni račun: definicija odvoda, pravila za odvajanje, tangenta in diferencial, tangentna (Newtonova) metoda za iskanje ničel, odvodi višjega

Basics of mathematical logic. Real and complex numbers: absolute value,

inequalities, mathematical induction, cartesian and polar form of a complex number, de Moivre’s identity.

Real functions: basic properties, inverse function, overview of elementary functions, limit and continuity.

Differential calculus: definition of a derivative, derivation rules, tangent and differential, Newton’s

reda, Taylorjev polinom, lokalni in globalni ekstremi. Nedoločeni integral: definicija, vpeljava nove

spremenljivke, integracija po delih in druge metode za integracijo.

Določeni integral: Riemannova vsota, Newton-Leibnizov obrazec, uporaba določenega integrala.

iteration, higher order derivatives, Taylor’s polynomial, local and global extreme values of a function.

Indefinite integral: definition, substitution rule, integration by parts and other integration methods.

Definite integral: Riemann sum, Newton-Leibniz's rule, applications of definite integral.

Temeljni literatura in viri / Readings: T. Petek, Analiza I, Univerza v Mariboru, FERI, Maribor, 2014. G. Tomšič, B. Orel, N. Mramor-Kosta: Matematika I, 3. izdaja, Univerza v Ljubljani, Fakulteta za elektrotehniko,

Fakulteta za računalništvo in informatiko, Ljubljana, 2000. F. Brešar, B. Brešar: Analiza I, 1. ponatis, Univerza v Mariboru, Fakulteta za elektrotehniko, računalništvo in informatiko,

Maribor, 2005. P. Mizori-Oblak: Matematika za študente tehnike in naravoslovja, Del 1, 2. ponatis, 6. izdaja, Univerza v Ljubljani,

Fakulteta za strojništvo, Ljubljana, 2001. J. Glyn: Modern Engineering Mathematics, Second Edition, Addison-Wesley, Harlow, 1996. Cilji in kompetence:

Objectives and competences:

Cilj predmeta je seznaniti študenta z osnovami matematične analize.

The objective of this course is to acquaint students with the basics of mathematical analysis (calculus).

Predvideni študijski rezultati:

Intended learning outcomes:

Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben uporabljati matematično notacijo, definirati osnovne pojme diferencialnega in

integralskega računa, prepoznavati raznovrstne matematične

probleme, ki jih srečamo v naravoslovju in tehniki,

uporabljati standardne metode za reševanje osnovnih problemov matematične analize.

Knowledge and understanding: On completion of this course the student will be able to use mathematical notation, define basic notions of calculus, recognise various mathematical problems which

arise in science and technology, use standard methods for solving basic

mathematical analysis problems.

Prenosljive/ključne spretnosti in drugi atributi: Spretnosti komuniciranja: nedvoumno in

natančno izražanje. Uporaba informacijsko komunikacijske

tehnologije: uporaba programov za simbolično in numerično računanje.

Spretnosti računanja: učenje raznovrstnih računskih postopkov.

Reševanje problemov: prepoznavanje in reševanje matematičnih problemov.

Transferable/Key skills and other attributes: Communication skills: unambiguous and accurate

expression. Use of information communication technology:

using programs for symbolic and numerical computing.

Calculation skills: learning diverse calculation procedures.

Problem solving: identifying and solving mathematical problems.

Metode poučevanja in učenja:

Learning and teaching methods:

predavanja, seminarske vaje,

lectures, tutorial,

Načini ocenjevanja: Delež (v %) /

Weight (in %)

Assessment:

testi, teoretični izpit.

50 % 50%

tests, theoretical exam.

Opomba: Testi se lahko nadomestijo s pisnim izpitom. Note: The tests may be replaced with a written exam. Reference nosilca / Lecturer's references: HAN, Maoan, PETEK, Tatjana, ROMANOVSKI, Valery. Reversibility in polynomial systems of ODE's. Applied

mathematics and computation, ISSN 0096-3003. [Print ed.], 2018, vol. 338, str. 55-71. [COBISS.SI-ID 21654550] KUZMA, Bojan, PETEK, Tatjana. Maps preserving unitarily invariant norms of Jordan product of matrices. Journal of

mathematical analysis and applications, ISSN 0022-247X. [Print ed.], 2017, vol. 455, iss. 2, str. 1579-1596. http://dx.doi.org/10.1016/j.jmaa.2017.06.043, doi: 10.1016/j.jmaa.2017.06.043. [COBISS.SI-ID 18085721]

KARDER, Mahdi, PETEK, Tatjana. Maps on states preserving generalized entropy of convex combinations. Linear Algebra and its Applications, ISSN 0024-3795. [Print ed.], 1 Nov. 2017, vol. 523, str. 86-98, doi: 10.1016/j.laa.2017.06.003. [COBISS.SI-ID 20705046]

PETEK, Tatjana, RADIĆ, Gordana. Linear preservers of equivalence relations on infinite-dimensional spaces. Studia Mathematica, ISSN 0039-3223, 2017, vol. 238, no. 2, str. 101-119, doi: 10.4064/sm8356-12-2016. [COBISS.SI-ID 20705302]

KARDER, Mahdi, PETEK, Tatjana, TAGHAVI, Ali. Unitary similarity preserving linear maps on B(H). Integral equations and operator theory, ISSN 0378-620X, 2015, vol. 82, iss. 1, str. 51-60. http://dx.doi.org/10.1007/s00020-014-2189-y. [COBISS.SI-ID 17319001]

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Diferencialne enačbe Course title: Differential Equations



Letnik Academic

year

Semester Semester

Elektrotehnika 1. stopnja

UN

Electrical Engineering 1st cycle

Academic undergraduate

1. poletni Spring


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework


Samost. delo Individ. work

ECTS

45 45 90 6 Nosilec predmeta / Lecturer: Valerij Romanovskij Jeziki / Languages:


slovenski / Slovene


Prerequisits:



Zaporedja: stekališča in limita, omejena in monotona zaporedja, infimum, supremum.

Vrste: zaporedje delnih vsot, konvergenca vrst s pozitivnimi členi, pogojna in absolutna konvergenca, alternirajoče vrste, konvergenčni kriteriji.

Potenčne vrste, Taylorjeva vrsta, Z-transformacija. Fourierova vrsta, kosinusna in sinusna Fourierova vrsta,

Fourierova transformacija. Funkcije več spremenljivk, zveznost, parcialni odvodi,

diferencial, Taylorjeva vrsta, lokalni ekstremi, vezani ekstremi.

Navadne diferencialne enačbe: integralske krivulje, polje

Sequences: accumulation points and limit, bounded and monotone sequences, infimum, supremum..

Series: sequence of partial sums, convergence of positive term sequences, conditional and absolute convergence, alternating series, convergence tests.

Power series, Taylor series, Z-transformation. Fourier series, cosine and sine Fourier series, Fourier

transformation. Functions of several variables, continuity, partial

derivatives, differential, Taylor series, local extrema, local extrema subject to equality constraints.

Ordinary differential equations: integral curves, direction

smeri, začetni problem, linearna diferencialna enačba prvega reda, linearne diferencialne enačbe višjega reda s konstantnimi koeficienti, determinanta Wronskega, linearni sistemi, posebni tipi nelinearnih diferencialnih enačb, primeri uporabe.

Laplaceova transformacija: definicija, računska pravila, tabela, uporaba pri reševanju začetnih problemov.

field, initial value problem, linear first-order equation, linear equations of higher order with constant coefficients, Wronskian, linear szstems, special types of non-linear differential equations, applications.

Laplace transform: definition, computation rules, table, application in solving initial value problems.

Temeljni literatura in viri / Readings: T. Petek: Izbrana poglavja iz tehniške matematike, Univerza v Mariboru, FERI, Maribor, 2014. F. Brešar: Matematika za kemijsko tehnologijo na TF, Del 3, Univerza v Mariboru, Tehniška fakulteta, Kemijska tehnologija,

Maribor, 1994. G. Tomšič, B. Orel, N. Mramor-Kosta: Matematika II, 3. izdaja, Univerza v Ljubljani, Fakulteta za elektrotehniko, Ljubljana,

2002. F. Brešar, B. Brešar: Analiza II, Univerza v Mariboru, Fakulteta za elektrotehniko, računalništvo in informatiko, Maribor, 2005. C. H. Edwards, D. E. Penney: Differential Equations and Linear Algebra, Prentice-Hall, Upper Saddle River, 2001. Cilji in kompetence:


Cilj predmeta je seznaniti študente z vrstami, funkcijami več spremenljivk, navadnimi diferencialnimi enačbami in sistemi ter integralskimi transformacijami.

The objective of this course is to acquaint students with series, fuctions of several variables, ordinary differential equations and systems, and integral transformations.



UZnanje in razumevanje: Po zaključku tega predmeta bo študent sposoben prepoznati različne tipe diferencialnih enačb, izbrati metodo za reševanje določenega tipa enačbe ali

sistema, modelirati preproste tipe problemov iz naravoslovja in

tehnike z diferencialnimi enačbami.

UKnowledge and understanding: On completion of this course the student will be able to recognize different types of differential equations, select an appropriate method for solving certain differential

equation or system, model simple problems from science and technology using

differential equations.

UPrenosljive/ključne spretnosti in drugi atributi: Spretnosti komuniciranja: nedvoumno in natančno

izražanje, pisno in ustno. Uporaba informacijsko komunikacijske tehnologije:

uporaba programov za simbolično in numerično računanje.

Spretnosti računanja: učenje raznovrstnih računskih postopkov.

Reševanje problemov: prepoznavanje in reševanje matematičnih problemov.

UTransferable/Key skills and other attributes: Communication skills: unambiguous and accurate

expression, written and oral. Use of information communication technology: using

programs for symbolic and numerical computing. Calculation skills: learning diverse calculation procedures. Problem solving: identifying and solving mathematical

problems.



predavanja, seminarske vaje, domače naloge.

lectures, tutorial homework asignments.

Načini ocenjevanja:

Delež (v %) / Weight (in %)

Assessment:

Opravljene domače naloge. Pisni izpit – problemi. Pisni izpit - teorija.

10 % 60 % 30 %

Completed homework. Written exam - problems. Written exam – theory.

Pisni izpit - problemi se lahko nadomesti z dvema delnima testoma (sprotni obveznosti). Pisni izpit - teorja se lahko nadomesti z dvema delnima testoma (sprotni obveznosti).

Written exam – problems can be replaced by two parital tests (midterm examination). Written exam – theory can be replaced by two parital tests (midterm examination).

Reference nosilca / Lecturer's references: ROMANOVSKI, Valery, SHAFER, Douglas. Complete integrability and time-reversibility of some 3-dim systems. Applied

Mathematics Letters, ISSN 0893-9659. [Print ed.], January 2016, vol. 51, str. 27-33, doi: 10.1016/j.aml.2015.07.006. [COBISS.SI-ID 21562120].

FERČEC, Brigita, GINÉ, Jaume, ROMANOVSKI, Valery, EDNERAL, Victor F. Integrability of complex planar systems withhomogeneous nonlinearities. Journal of mathematical analysis and applications, ISSN 1096-0813. [Online ed.], feb. 2016, vol. 434, issue 1, str. 894-914, doi: 10.1016/j.jmaa.2015.09.037. [COBISS.SI-ID 84566529]

LLIBRE, Jaume, ROMANOVSKI, Valery. Isochronicity and linearizability of planar polynomial Hamiltonian systems. Journal of differential equations, ISSN 0022-0396, 2015, vol. 259, iss. 5, str. 1649-1662, doi: 10.1016/j.jde.2015.03.009. [COBISS.SI-ID 21472264].

FERČEC, Brigita, LEVANDOVSKYY, Viktor, ROMANOVSKI, Valery, SHAFER, Douglas. Bifurcation of critical periods of polynomial systems. Journal of differential equations, ISSN 0022-0396, 2015, vol. 259, iss. 8, str. 3825-3853, doi: 10.1016/j.jde.2015.05.004. [COBISS.SI-ID 2048020819],

LIU, Lingling, AYBAR, Orhan Ozgur, ROMANOVSKI, Valery, ZHANG, Weinian. Identifying weak foci and centers in the Maxwell-Bloch system. Journal of mathematical analysis and applications, ISSN 0022-247X. [Print ed.], 2015, vol. 430, iss. 1, str. 549-571, doi: 10.1016/j.jmaa.2015.05.007. [COBISS.SI-ID 21522696].

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Elektrotehnični materiali Course title: Electrical Engineering Materials



Letnik Academic

year

Semester Semester




1. zimski Autumn


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS

45 15 90 5 Nosilec predmeta / Lecturer: Anton Hamler Jeziki / Languages:


slovenski / Slovene


Prerequisits:

Pogojev ni. None.

Vsebina:


Uvod: razdelitev materialov, definicija lastnosti, preizkuševalni normativi.

Kovinski materiali: kristalna struktura, anizotropija, hladno preoblikovanje, zlitine, topnost, železo, baker, aluminij, posebne zlitine, uporovni in kontaktni materiali.

Polprevodniški materiali: lastnosti, tehnologije čiščenja in izdelave monokristalov, tehnologije dopiranja, monolitna in plastna tehnologija.

Magnetni materiali: osnovna razvrstitev, magnetne lastnosti, mehkomagnetni materiali, magnetno poltrdi materiali in trdomagnetni materiali, tehnologije izdelave

Introduction: division of materials, properties definition, testing standardisation.

Metallic materials: crystal structure, anisotropy, cold-remodelling, alloys, melting, iron, copper, aluminium, special alloys, materials for contacts and resistors.

Semiconductors materials: properties, purification technologies and composition of mono-crystals, doping technologies, monolithic and multilayer technologies.

Magnetic materials: basic classification, magnetic properties, soft magnetic materials, semi-hard magnetic materials and hard magnetic materials, technologies of

magnetnih materialov, uporaba magnetnih materialov. Izolacijski materiali: lastnosti, prebojna trdnost in

dielektričnost, toplotni razredi, anorganski in organski izolanti, predelava plastov, izolacijski in impregnacijski laki, impregnacijske tehnologije.

Korozija: vrste korozije in korozijska zaščita.

making of magnetic materials, use of magnetic materials. Insulation materials: properties, dielectric strength and

permittivity, insulation class, inorganic and organic insulation materials, plastics processing, insulation and impregnation lacquers, impregnation technologies.

Corrosion: ranks of corrosion, corrosion protection.

Temeljni literatura in viri / Readings: A. Hamler, B. Hribernik: Elektrotehnični materiali, Univerza v Mariboru, Fakulteta za elektrotehniko, računalništvo in

informatiko, Maribor, 2005. P. Osmokrović: Elektrotehnički materiali, Akademska misao, Beograd, 2003. J. F. Shackelford: Materials Science for Engineers, Sixth Edition, Pearson Prentice Hall, London, 2005. L. Solymar, D. Walsh: Electrical Properties of Materials, Sixth Edition, Oxford University Press, New York, 1999. J. M. D. Coey: Magnetism and magnetic materials, Cambridge University Press, Cambridge, 2010. Cilji in kompetence:


Cilj tega predmeta je seznaniti študente z elektrotehničnimi materiali, njihovimi lastnostmi, specifičnimi tehnologijami in možnostmi njihove uporabe v praksi.

The objective of this course is to acquaint students with the electrical engineering materials, their properties, specific technology and possibilities of their use in the praxis.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben izkazati osnovno znanje o materialih in tehnologijah

obdelave materialov, izbrati in uporabiti materiale za določene namene, argumentirati primernost uporabe določenega materiala, napovedati obnašanje materialov v določenih okoliščinah, prepoznati materiale in ovrednotiti uporabnost

posameznih materialov, pojasniti možnosti recikliranja določenega materiala.

Knowledge and understanding: On completion of this course the student will be able to demonstrate basic knowledge concerning materials and

technologies of materials treatment, select and use materials for certain intention, , recommend the suitability of the use of certain material, recommend the behaviour of the materials in certain

circumstances, recognized materials and evaluate usability of individual

materials, describe the possibilities of certain materials recycling.

Prenosljive/ključne spretnosti in drugi atributi: Spretnosti komuniciranja: pisanje strokovnega poročila o

opravljenih vajah, ustni zagovor laboratorijskih vaj, pisno izražanje pri pisnem izpitu.

Uporaba informacijske tehnologije: uporaba programskih orodij za obdelavo izmerjenih podatkov.

Spretnosti računanja: izvajanje osnovnih matematičnih operacij pri laboratorijskih vajah.

Delo v skupini: izvajanje laboratorijskih vaj.

Transferable/Key skills and other attributes: Communication skills: writing of professional report

concerning finished exercise, oral lab work defence, manner of expression at written examination.

Use of information technology: use of software tools for processing of measure data.

Calculation skills: execution of basic mathematical operations at lab exercises.

Working in a group: execution of lab exercises.



predavanja, seminarske vaje, laboratorijske vaje.

lectures, tutorials, lab work.



Assessment:

laboratorijske vaje, trije testi.

10 90

lab work, three tests.

Opmba: Testi se lahko nadomestijo s pisnim izpitom. Note: The tests may be replaced with a written exam. Reference nosilca / Lecturer's references: TRBUŠIĆ, Mislav, BEKOVIĆ, Miloš, TRLEP, Mladen, HAMLER, Anton. Nonlinear analysis of magnetic liquid free

surface deformation in a 3D space. Journal of Magnetism and Magnetic Materials, ISSN 0304-8853. [Print ed.], 15 July 2019, vol. 482, str. 364-369, doi: 10.1016/j.jmmm.2019.03.042. [COBISS.SI-ID 22216726], [JCR, SNIP, WoS do 25. 5. 2019: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0, Scopus do 8. 4. 2019: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0]

HAMLER, Anton, GORIČAN, Viktor, ŠUŠTARŠIČ, Borivoj, SIRC, Albin. The use of soft magnetic composite materials in synchronous electric motor. J. magn. magn. mater.. [Print ed.], 2006, vol. 304, iss. 2, str. e816-e819. http://dx.doi.org/10.1016/j.jmmm.2006.03.003. [COBISS.SI-ID 10817302], [JCR, WoS do 6. 2. 2012: št. citatov (TC): 5, čistih citatov (CI): 5, normirano št. čistih citatov (NC): 3, Scopus do 19. 6. 2012: št. citatov (TC): 6, čistih citatov (CI): 6, normirano št. čistih citatov (NC): 4] tipologija 1.08 -> 1.01

BEKOVIĆ, Miloš, HAMLER, Anton. FEM-based development of measurement system for magnetic fluid characterization. Prz. Elektrotech., 2011, vol. 87, iss. 3, str. 9-12. [COBISS.SI-ID 14882838], [JCR, WoS do 6. 5. 2011: št. citatov (TC): 0, čistih citatov (CI): 0, normirano št. čistih citatov (NC): 0, Scopus do 5. 6. 2011: št. citatov (TC): 0, čistih citatov (CI): 0, normirano št. čistih citatov (NC): 0]

ČREPINŠEK-LIPUŠ, Lucija, AČKO, Bojan, HAMLER, Anton. Electromagnets for high-flow water processing. Chem. eng. process.. [Print ed.], Sep. 2011, vol. 50, iss. 9, str. 952-958, doi: 10.1016/j.cep.2011.07.004. [COBISS.SI-ID 15254550], [JCR, WoS do 6. 11. 2011: št. citatov (TC): 0, čistih citatov (CI): 0, normirano št. čistih citatov (NC): 0, Scopus do 26. 9. 2011: št. citatov (TC): 0, čistih citatov (CI): 0, normirano št. čistih citatov (NC): 0]

TRLEP, Mladen, JESENIK, Marko, HAMLER, Anton. Transient calculation of electromagnetic field for grounding system based on consideration of displacement current. IEEE trans. magn., Feb. 2012, vol. 48, no. 2, str. 207-210, doi: 10.1109/TMAG.2011.2172918. [COBISS.SI-ID 15836438], [JCR, WoS do 11. 4. 2012: št. citatov (TC): 0, čistih citatov (CI): 0, normirano št. čistih citatov (NC): 0, Scopus do 10. 3. 2012: št. citatov (TC): 0, čistih citatov (CI): 0, normirano št. čistih citatov (NC): 0]

HROVAT, Gorazd, HAMLER, Anton. Determination of heat circumstances in the motor protection switch considering air flow. IEEE trans. magn., apr. 2006, vol. 42, no. 4, str. 1071-1074. [COBISS.SI-ID 10378006], [JCR, WoS do 6. 4. 2012: št. citatov (TC): 1, čistih citatov (CI): 1, normirano št. čistih citatov (NC): 1, Scopus do 19. 6. 2012: št. citatov (TC): 1, čistih citatov (CI): 1, normirano št. čistih citatov (NC): 1]

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Fizika I Course title: Physics I



Letnik Academic

year

Semester Semester




1. zimski Autumn


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS

45 30 75 5 Nosilec predmeta / Lecturer: Vladimir Grubelnik Jeziki / Languages:


slovenski / Slovene


Prerequisits:

Pogojev ni None Vsebina:


Fizikalne metode: eksperiment, analiza, sinteza, fizikalni model, meritve fizikalnih količin in sistem enot.

Mehanika: Kinematika, sile, Newtonovi zakoni, sistem teles in toga telesa, statika, gibanje togega telesa, gibalna količina, vrtilna količina, mehanska energija, Lagrangeova enačba, Hamiltonski sistemi, harmonična nihanja, sklopljeni oscilatorji, hidrostatika in hidrodinamika, kapilarnost in viskoznost.

Termodinamika: temperaturno raztezanje, idealni in realni plini, toplota in prenos toplote, notranja energija in entropija, kinetična teorija plinov.

Matematično modeliranje kompleksnih sistemov:

Physical methods: experiment, analysis, synthesis, physical model, measurement of physical quantities and system of units.

Mechanics: kinematics, forces, Newton’s laws, system of particles and rigid bodies, statica, , motion of rigid bodies, momentum, angular momentum, mechanical energy, Lagrange's equation, Hamiltonian systems, harmonic oscillations, coupled oscillators, hydrostatics and hydrodynamics, capillarity and viscosity.

Thermodynamics: thermal expansion, ideal and real gases, heat and heat transfer, internal energy and entropy, kinetic theory of gases.

konstruiranje kompleksnih matematičnih modelov v fiziki, osnove dinamičnih sistemov, numerične metode za simulacijo dinamike sistemov, aplikacije v fiziki in na drugih področjih.

Mathematical modelling of complex systems: construction of complex mathematical models in physics, fundamentals of dynamical systems, numerical methods of systems' dynamics, applications in physics and other fields.

Temeljni literatura in viri / Readings: R. Kladnik: Visokošolska fizika, DZS, Ljubljana, 1989. A. Stanovnik: Fizika I: Fakulteta za elektrotehniko, Ljubljana, 2009 D. Halliday, R. Resnick, J. Walker: Fundamentals of Physics, 9th edition, John Wiley and Sons, New York, 2011. D. C. Giancoli, Physics: Principles with applications, 6th edition, Pearson Education, New Jersey, 2005. H. P. Schecker, Physik-Modellieren, Grafikorientierte Modellbildungssysteme im Physikunterricht, Ernst Klett Verlag, Stuttgart,

1998. Cilji in kompetence:


Cilj predmeta je, da bodo študentje razumeli osnovne fizikalne principe in jih znali uporabiti v tehniki.

The objective of the course is that the students will be able to undestand the fundamental physical principles and to use them in technics.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben razložiti osnovne fizikalne zakone narave, uporabiti pridobljeno znanje pri reševanju lažjih tehniških

problemov.

Knowledge and understanding: On completion of this course the student will be able to explain the bacic physical laws of nature, apply this knowledge at solving some simple technical

problems.

Prenosljive/ključne spretnosti in drugi atributi: Spretnosti komuniciranja: izražanje pri pisnem in ustnem

izpitu. Uporaba informacijske tehnologije: iskanje fizikalnih tem

na spletu. Spretnosti računanja: uporaba matematike in fizike v

tehniških znanostih. Reševanje problemov: prenos znanja s primerov iz fizike

na področja tehničnih problemov, okoljskih problemov, bioloških sistemov, …

Transferable/Key skills and other attributes: Communication skills: manner of expression at written and

oral examination. Use of information technology: internet search of physical

themes. Calculation skills: use mathematics and physics in technical

sciences. Problem solving: a knowledge transfer from physics

examples to the field of technical and environmental problems and biological systems.



predavanja, seminarske vaje, reševanje domačih nalog.

lectures, tutorials, homework.



Assessment:

opravljeno seminarsko delo, testi iz praktičnih znanj, izpit iz teoretičnih znanj.

10 % 50 % 40 %

completed seminar work, tests of practical knowledge, exam of theoretical knowledge.

Opomba: Testi se lahko nadomestijo s pisnim izpitom. Note: The tests may be replaced with a written exam. Reference nosilca / Lecturer's references:

GRUBELNIK, Vladimir, MARHL, Marko, REPNIK, Robert. Determination of the size and depth of craters on the moon. CEPS journal : Center for Educational Policy Studies Journal, ISSN 1855-9719, 2018, vol. 8, no. 1, str. 35-53, ilustr., graf. prikazi. https://ojs.cepsj.si/index.php/cepsj/article/view/322/267, doi: 10.26529/cepsj.322. [COBISS.SI-ID 11968585]

GRUBELNIK, Vladimir, MARHL, Marko. Influence of the atmosphere on the average temperature of planets. V: CELEC, Robert (ur.). Transfer of studies regarding environmental problems to the field of economy through education, (Schriftenreihe Erziehung - Unterricht - Bildung, ISSN 0945-487X, Band 188). Hamburg: Dr. Kovač. 2018 , str. 27-42. [COBISS.SI-ID 24301576]

GRUBELNIK, Vladimir. Gostota planetov. V: SLAVINEC, Mitja (ur.). Astronomi v Kmici : dvajsetič. Murska Sobota: AD Kmica: ZOTKS. 2017, str. 47-50, tabele, graf. prikazi. [COBISS.SI-ID 24525320]

GRUBELNIK, Vladimir. Gibanje treh teles pod vplivom gravitacijske sile. V: SLAVINEC, Mitja (ur.). Astronomi v Kmici : osemnajstič. Murska Sobota: AD Kmica: ZOTKS. 2016, str. 9-11, graf. prikazi. [COBISS.SI-ID 24526088]

FORJAN, Matej, MARHL, Marko, GRUBELNIK, Vladimir. Mathematical modelling of the electrostatic pendulum in school and undergraduate education. European journal of physics, ISSN 0143-0807, 2014, vol. 35, no. 1, str. 015022-1-015022-13, doi: 10.1088/0143-0807/35/1/015022. [COBISS.SI-ID 20357128]

GRUBELNIK, Vladimir, LOGAR, Marjan. Kinematika : študijsko gradivo z matematičnim uvodom in zbranimi nalogami s področja kinematike. Maribor: Univerza v Mariboru, Fakulteta za elektrotehniko, računalništvo in informatiko, 2014. 37 f., ilustr. [COBISS.SI-ID 20514056]

GRUBELNIK, Vladimir, LOGAR, Marjan. Dinamika : študijsko gradivo z zbranimi nalogami s področja dinamike. Maribor: Univerza v Mariboru, Fakulteta za elektrotehniko, računalništvo in informatiko, 2014. 43 f., ilustr. [COBISS.SI-ID 20514312]

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Fizika snovi Course title: Physics of Matter



Letnik Academic

year

Semester Semester




1. poletni Spring


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS



slovenski / Slovene


Prerequisits:

Pogojev ni.

None.

Vsebina:


Uvod v relativnostno in kvantno mehaniko: Lorentzove transformacije, relativistična enakost mase in energije, foton, fotoelektrični pojav, rentgenska svetloba, Comptonov pojav.

Valovna mehanika: Valovna dolžina snovnega valovanja, valovna enačba, valovna funkcija, delec v 1D in 3D potencialni jami.

Zgradba atoma: Bohrov model atoma, valovne funkcije in kvantna števila vodikovega atoma, energija elektrona, prehodi med energijskimi stanji, atomi z več elektroni.

Introduction to relativity and quantum mechanics: Lorentz transformations, relativistic equivalence of mass and energy, photon, photoelectric effect, x-rays, Compton effect.

Wave mechanics: wavelength of matter waves, wave equation, wave function, particle in 1D and 3D potential well.

Atom structure: the Bohr model of hydrogen atom, wave functions and quantum numbers for hydrogen atom, electron energy, electron transitions between energy levels,

Atomska zgradba trdne snovi: kristalne mreže, vezi med atomi, energijski pasovi elektronov, prevajanje električnega toka, prevodni elektroni v kovinah, Fermijeva energija, vpliv temperature na električno prevodnost, Ohmov zakon, lastnosti polprevodnikov, dioda.

Atomsko jedro: masni defekt in vezavna energija, jedrske reakcije, jedrski reaktor, radioaktivnost.

many-electron atoms. Atomic structure of solid matter: crystal lattices, atomic

bounds, electron energy bands, electrical conduction, conduction electrons in metals, Fermi energy, the temperature effect on electrical conduction, Ohm's law, properties of semiconductors, diode.

Atomic nucleus: mass defect and binding energy, nuclear reactions, nuclear reactor, radioactivity.

Temeljni literatura in viri / Readings: R. Kladnik: Visokošolska fizika, 2. del, Elektrika, atomika, DZS, Ljubljana,1991. S. Poberaj: Fizika snovi, Fakulteta za elektrotehniko, Ljubljana, 1980. J. Strnad: Mala kvantna fizika, DMFA Ljubljana 1989 A. Stanovnik: Fizika II: Fakulteta za elektrotehniko, Ljubljana, 2010 D. Halliday, R. Resnick, J. Walker: Fundamental of Physics, 9th edition, John Wiley and Sons, New York, 2011. D. C. Giancoli, Physics: Principles with applications, 6th edition, Pearson Education, New Jersey, 2005. Cilji in kompetence:


Cilj predmeta je, da bodo študentje razumeli osnove fizike snovi in jih znali uporabiti v tehniki.

The objective of this course is that the students will be able to undestand the fundamentals of the physics of matter and to use them in technics.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben razložiti osnovne fizikalne zakone narave, uporabiti pridobljeno znanje pri reševanju tehniških

problemov.

Knowledge and understanding: On completion of this course the student will be able to explain the basic physical laws of nature, apply this knowledge at solving technical problems.




tehniških znanostih. Reševanje problemov: enostavnejši problemi v fiziki.


oral examination, Use of information technology: internet search of physical

themes, Calculation skills: use mathematics and physics in technical

sciences, Problem solving: simple problems in physics.



Predavanja, seminarske vaje, reševanje domačih nalog.

Lectures, tutorial, homework.



Assessment:

testi iz praktičnih znanj, izpit iz teoretičnih znanj.

50 % 50 %

tests of practical knowledge, exam of theoretical knowledge.


GRUBELNIK, Vladimir, LOGAR, Marjan, ROBNIK, Marko, XIA, Yong-Hui. Analysis of the parametrically periodically driven classical and quantum linear oscillator. Physical review. E., ISSN 2470-0053, Feb. 2019, vol. 99, issue 2, str. 022209-1 - 022209-14, graf. prikazi, tabele, doi: 10.1103/PhysRevE.99.022209. [COBISS.SI-ID96173569]

GRUBELNIK, Vladimir, MARHL, Marko. Influence of the atmosphere on the average temperature of planets. V: CELEC, Robert (ur.). Transfer of studies regarding environmental problems to the field of economy through education, (Schriftenreihe Erziehung - Unterricht - Bildung, ISSN 0945-487X, Band 188). Hamburg: Dr. Kovač. 2018 , str. 27-42. [COBISS.SI-ID 24301576]

GRUBELNIK, Vladimir. Gostota planetov. V: SLAVINEC, Mitja (ur.). Astronomi v Kmici : dvajsetič. Murska Sobota: AD Kmica: ZOTKS. 2017, str. 47-50, tabele, graf. prikazi. [COBISS.SI-ID 24525320]

GRUBELNIK, Vladimir, LOGAR, Marjan, ROBNIK, Marko. Quantum Fermi acceleration in the resonant gaps of a periodically driven one-dimensional potential box. Journal of physics. A, Mathematical and theoretical, ISSN 1751-8113, 2014, vol. 47, no. 35, str. 355103-1 - 355103-17, doi: 10.1088/1751-8113/47/35/355103. [COBISS.SI-ID 18017814]


UČNI NAČRT PREDMETA / COURSE SYLLABUS

Predmet: Fizika valovanja Course title: Physics of Waves



Letnik Academic

year

Semester Semester




1. poletni Spring


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS



slovenski / Slovene


Prerequisits:

Pogojev ni.

None.

Vsebina:


Skupne značilnosti valovanj: vrste valovanj, valovne fronte in žarki, harmonično potujoče valovanje, energijski tok valovanja, interferenca, uklon, odboj in lom valovanja.

Mehansko valovanje: vzdolžno in prečno valovanje, hitrost valovanja, zvok, glasnost, absorpcija zvoka, Dopplerjev pojav, stoječe valovanje.

Elektromagnetno valovanje: nastanek, valovna enačba in hitrost, odboj in lom, energija, spekter, interferenca svetlobe na tankih plasteh, polarizacija.

Optika: širjenje svetlobe, ravna in ukrivljena zrcala, leče, preslikave, sistemi leč, optične naprave.

Common characteristics of waves: types of waves, wavefronts and rays, harmonic traveling wave, energy flow of waves, interference, difraction, reflection and refraction.

Mechanical waves motion: longitudinal and transverse waves, wave speed, sound, sound loudness, sound absorption, Doppler effect, standing waves.

Electromagnetic waves: wave equation, reflection and refraction, energy spectrum, thin-films interference, polarization.

Optics: propagation of light, plane and spherical mirrors, lenses, thin-lens equation, lens systems, optical

Fotometrija: Barvna občutljivost očesa, svetlobni tok, svetila, svetilnost in svetlost svetil, osvetljenost površin.

instruments. Photometry: human eye spectral sensitivity, luminous flux,

illuminants, luminous intensity and luminance, surface illuminance.

Temeljni literatura in viri / Readings: R. Kladnik: Visokošolska fizika, 2. del, Elektrika, atomika, DZS, Ljubljana,1991. R. Kladnik: Visokošolska fizika, 3. del, Valovni pojavi, akustika in optika, DZS, Ljubljana, 1989. A. Stanovnik: Fizika II: Fakulteta za elektrotehniko, Ljubljana, 2010 D. Halliday, R. Resnick, J. Walker: Fundamental of Physics, 9th edition, John Wiley and Sons, New York, 2011. D. C. Giancoli, Physics: Principles with applications, 6th edition, Pearson Education, New Jersey, 2005. Cilji in kompetence:


Cilj predmeta je, da bodo študentje razumeli fizikalne osnove valovnih pojavov in jih znali uporabiti v tehniki.

The objective of this course is that the students will be able to undestand the fundamentals of the physics of waves and to use them in technics.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben razložiti osnovne fizikalne zakone narave, uporabiti pridobljeno znanje pri reševanju tehniških

problemov.

Knowledge and understanding: On completion of this course the student will be able to explain the basic physical laws of nature, apply this knowledge at solving technical problems.




tehniških znanostih. Reševanje problemov: enostavnejši problemi v fiziki.


oral examination, Use of information technology: internet search of physical

themes, Calculation skills: use mathematics and physics in technical

sciences, Problem solving: simple problems in physics.



Predavanja, seminarske vaje, reševanje domačih nalog.

Lectures, tutorial, homework.



Assessment:

testi iz praktičnih znanj, izpit iz teoretičnih znanj.

50 % 50 %

tests of practical knowledge, exam of theoretical knowledge.

Opomba: Testi se lahko nadomestijo s pisnim izpitom. Note: The tests may be replaced with a written exam. Reference nosilca / Lecturer's references: MARKOVIČ, Rene, GOSAK, Marko, GRUBELNIK, Vladimir, MARHL, Marko, VIRTIČ, Peter. Data-driven

classification of residential energy consumption patterns by means of functional connectivity

networks. Applied energy, ISSN 0306-2619, 2019, vol. 242, str. 506-515, graf. prikazi, doi: 10.1016/j.apenergy.2019.03.134. [COBISS.SI-ID1024346460]

GRUBELNIK, Vladimir, LOGAR, Marjan, ROBNIK, Marko, XIA, Yong-Hui. Analysis of the parametrically periodically driven classical and quantum linear oscillator. Physical review. E., ISSN 2470-0053, Feb. 2019, vol. 99, issue 2, str. 022209-1 - 022209-14, graf. prikazi, tabele, doi: 10.1103/PhysRevE.99.022209. [COBISS.SI-ID96173569]

MEŠIĆ, Vanes, NEUMANN, Knut, AVIANI, Ivica, HASOVIĆ, Elvedin, BOONE, William J., ERCEG, Nataša, GRUBELNIK, Vladimir, SUŠAC, Ana, SALIBAŠIĆ GLAMOČIĆ, Džana, KARUZA, Marin, VIDAK, Andrej, ALIHODŽIĆ, Adis, REPNIK, Robert. Measuring students' conceptual understanding of wave optics : a rasch modeling approach. Physical review, Physics education research, ISSN 2469-9896, 2019, vol. 15, iss. 1, str. 010115-1-010115-20, doi: 10.1103/PhysRevPhysEducRes.15.010115. [COBISS.SI-ID24513288]

GRUBELNIK, Vladimir, LOGAR, Marjan, ROBNIK, Marko. Quantum Fermi acceleration in the resonant gaps of a periodically driven one-dimensional potential box. Journal of physics. A, Mathematical and theoretical, ISSN 1751-8113, 2014, vol. 47, no. 35, str. 355103-1 - 355103-17, doi: 10.1088/1751-8113/47/35/355103. [COBISS.SI-ID 18017814]

GRUBELNIK, Vladimir, MARHL, Marko. Ozaveščanje otrok o sevanju v procesu izobraževanja. V: DUH, Matjaž (ur.), ALISPAHIĆ, Farizada. Okoljska vzgoja in trajnostni razvoj v interakciji z okoljskimi spremembami : znanstvena monografija. V Mariboru: Pedagoška fakulteta; Rakičan: RIS Dvorec. 2015, str. 51-60, tabele, graf. prikazi. [COBISS.SI-ID 24524040]


UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Meritve v elektrotehniki Course title: Electrical Engineering Measurements



Letnik Academic

year

Semester Semester




1. poletni Spring


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS

45 45 90 6 Nosilec predmeta / Lecturer: Vojko Matko Jeziki / Languages:


slovenski / Slovene


Prerequisits:

Znanja osnov elektrotehnike ter osnov fizike. Basic knowledge of electrical engineering and physics.

Vsebina:


Uvod: temeljni pojmi merilne tehnike, lastnosti merilnih naprav. Merski sistemi: veličine in njihova medsebojna povezanost, mednarodni sistem enot (SI).

Merilni signali: analogni in diskretni, periodični in neperiodični, naključni signali.

Merilni pogreški Elementi merilnih verig (ojačevalniki in pretvorniki, vhodni

filtri, merilni transformatorji, Hallova sonda, merilna vezja). Električni merilni instrumenti: splošno o električnih merilnih

instrumentih, analogni merilni instrumenti. Elektronski merilni instrumenti: elektronski voltmeter,

digitalni merilni instrumenti, digitalni elektronski

Introduction: basic definitions of the measurement technique, properties of measurement devices. Measurement systems: quantities and their interconnection, international system of units (SI).

Measurement signals: analogue and discreet signals, periodic and non-periodic signals, random signals.

Measurement errors. Measurement chain elements (amplifiers and converters,

input filters, measurement transformers, Hall probe, measurement circuits).

Electrical measure devices: electrical measurement devices – general, analogue measurement devices.

osciloskop, univerzalni elektronski števec, A/D, D/A pretvorba.

Motnje pri merjenjih in vplivne veličine. Merilni mostiči: enosmerni mostiči, izmenični mostiči,

kompenzatorji. Merilne metode in merjenje električnih veličin: merjenje

napetosti in toka, merjenje upornosti, merjenje moči, merjenje delovne energije, merjenje jalove energije, merjenje induktivnosti, merjenje kapacitivnosti, merjenje frekvence, merjenje karakteristik feromagnetnih materialov, merjenje magnetne indukcije in merjenje jakosti magnetnega polja.

Inteligentne merilne naprave: princip avtomatiziranih instrumentov, pregled instrumentacijskih vodil.

Electronic measurement devices: electronic voltmeter, digital measurement devices, digital electronic oscilloscope, universal electronic meter, A/D, D/A conversion.

Measurement disturbances and influence quantities. Measurement bridges: DC bridges, alternating bridges,

compensators. Measurement methods and electrical quantity

measurements: voltage and current measurement, resistance measurement, power measurement, working energy measurement, energy measurement, inductance measurement, capacitance measurement, frequency measurement, measurement of ferromagnetic material characteristics, measurement of magnetic induction and magnetic field strength.

Intelligent measurement devices: principle of automated instruments, instrumentation buses.

Temeljni literatura in viri / Readings: F. Bergelj: Meritve 1.del, Univerza v Ljubljani, Fakulteta za elektrotehniko, Ljubljana, ISBN 961-6210-23-8. F. Bergelj: Meritve 2.del, Univerza v Ljubljani , Fakulteta za elektrotehniko Ljubljana , ISBN 961-6210-85-8. J. G. Webster: Measurement, Instrumentation and Sensors, CRC Press, Florida, ISBN 0-8493-8347-1. J. P. Bentley: Principles of measurement systems, Construction Press, ISBN 0-582-30543-8. E. Schrufer: Elektrische Messtechnik, Hanser, ISBN 3-446-17128-2. Cilji in kompetence:


Cilj predmeta je spoznavanje študentov z osnovami merilne tehnike, z razumevanjem delovanja merilnih instrumentov in merjenjem osnovnih veličin v elektrotehniki, z uporabo merilnih metod in instrumetacijskih vodil, z analizo delovanjem A/D kartic za zajemanje merilnih podatkov, s sintezo merilnih shem s pomočjo virtualne instrumentacije ter z vrednotenjem merilnih rezultatov, motenj in pogreškov, ki nastopajo v merilni tehniki.

The objective of the course is to get acquainted with the basics of measuring technique, understanding the operation of measuring instruments and measuring the basic quantities in electrical engineering, using measurement methods and instrumentation guides, analyzing the operation of A / D cards for capturing measurement data, by synthesizing measurement schemes using virtual instrumentation and by evaluating the measurement results, disruptions and errors occurring in the measuring technique.



Znanje in razumevanje: Po zaključku tega predmeta bo študent: spoznal temeljne pojme merilne tehnike, razumel delovanje merilnih instrumentov, razumel delovanje A/D kartic za zajemanje merilnih

podatkov, znal uporabljati osnovne merilne metode in merilno

instrumentacijo, sposoben analizirati instrumentacijska vodila, sposoben narediti sintezo merilne sheme, znal vrednotiti prikaze merilnih rezultatov.

Knowledge and understanding: On completion of this course, the student will: • realized basic concepts of measuring technique, • understand the operation of measuring instruments, • understand the operation of A / D cards for capturing measurement data, • able to use basic measurement methods and measuring instruments, • capable of analyzing instrumentation guides, • able to make a synthesis of the measurement scheme, • able to evaluate the results of the measurement results.

Prenosljive/ključne spretnosti in drugi atributi: spretnosti komuniciranja: ustni zagovor laboratorijskih vaj,

pisno izražanje pri pisnem izpitu, spretnosti računanja: delati s simulatorjem Multisim, reševanje problemov: simulirati merilne metode,

uporabljati instrumente, meriti osnovne veličine v elektrotehniki, uporabljati

Transferable/Key skills and other attributes: • communication skills: oral lab work defense, written expression at a written examination, • calculation skills: work with the Multisim simulator, • problem solving: simulate measurement methods, use instruments, • measure basic sizes in electrical engineering, use basic measurement methods, use instrumentation guides,

osnovne merilne metode, uporabljati instrumentacijska vodila,

delo v skupini: laboratorijsko delo.

• group work: laboratory work.



predavanja, e-učenje, seminarske vaje, laboratorijske vaje.

lectures, e-learning, tutorials, lab work.



Assessment:

pisni izpit, laboratorijske vaje, opravljeno seminarsko delo, ustni izpit.

50% 30% 10% 10%

written exam, lab work, completed seminar work, oral exam.

Reference nosilca / Lecturer's references: MATKO, Vojko, MILANOVIČ, Miro. Highly enhanced inductance sensing performance of dual-quartz crystal converter.

Sensors, ISSN 1424-8220, 2019, vol. 19, iss. 9, str. 1-16. MATKO, Vojko, BREZOVEC, Barbara. Improved data center energy efficiency and availability with multilayer node event

processing. Energies, ISSN 1996-1073, 2018, vol. 11, no. 9, str. 1-17. MATKO, Vojko. Highly sensitive switching reactance-to-frequency transducer. V: YURISH, Sergey Y. (ur.). Chemical sensors

and biosensors, (Advances in sensors: Reviews, Vol. 6). [S. l.]: IFSA. 2018, str. 293-301. Matko. V. and Milanović M., “Temperature-Compensated Capacitance-Frequency Converter with High Resolution”, Sens.

Actuators A, 220, pp. 262-269, 2014 Matko V. and Milanović M., “High Resolution Switching Mode Inductance-to-Frequency Converter with Temperature

Compensation”, Sensors, 2014, vol. 14, iss. 10, p. 19242-19259.

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Osnove elektrotehnike II Course title: Fundamentals of Electrical Engineering II



Letnik Academic

year

Semester Semester




1. poletni Spring


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS

45 30 105 6 Nosilec predmeta / Lecturer: Peter Kitak Jeziki / Languages:


slovenski / Slovene


Prerequisits:

Pogojev ni. None.

Vsebina:


Izmenične veličine: srednje vrednosti. Sinusne veličine v realni in kompleksni obliki. Osnove Fourierjeve analize in uporaba v elektrotehniki.

Tok in napetost na idealnem ohmskem uporu, kondenzatorju in tuljavi v izmeničnih tokokrogih: časovni in kazalčni diagrami tokov in napetosti. Metode reševanja linearnih vezij s harmoničnim vzbujanjem.

Moči in energije (trenutna in kompleksna oblika) na idealnem ohmskem uporu, kondenzatorju in tuljavi. Moči in energije v kombiniranih vezavah. Tellegenov teorem.

Resonančni pojavi: serijska in paralelna resonančna vezja

Alternating quantities: mean values. Sinusoidal quantities in real and complex form. Fourier analysis and its use in electrical engineering.

Electric current and voltage on the resistor, capacitor and inductor in alternating current circuits: time plots and phasor diagrams of current and voltage. Solving methods of linear harmonic fed circuits.

Power and energy (instantaneous and phasor form) on the resistor, capacitor and inductor. Power and energy in the combined circuits. Tellegen's theorem.

Resonance phenomena: serial and parallel resonance

(uporaba, resonančne krivulje). Uporaba kombiniranih resonančnih vezav. Kompenzacija reaktivne (jalove) moči.

Modeliranje realnih elementov v izmeničnih vezjih: realni upor, realni kondenzator, realna tuljava z in brez feromagnetnega jedra. Induktivno povezani tokokrogi. Modeliranje zahtevnejših elementov (realni transformator z železnim jedrom). Predstavitev transformatorja kot četveropol.

Večfazni sistemi. Simetrični in nesimetrični sistemi napajanja. Prednosti večfaznih sistemov. Trifazni sistemi (vezave). Moči v trifaznih sistemih. Vrtilno magnetno polje in njegova uporaba. Simetrične komponente.

Prehodni pojavi.

circuit (application and resonance curves). Applications of combined resonant circuits. Reactive power compensation.

Real elements modeling in alternating current circuits: real resistance, real capacitor, real coil with and without ferromagnetic core. Inductive coupled electric circuits. Modeling of complex elements (real transformer with the ferromagnetic core). Presentation of the transformer as a two-port network (four-terminal circuit).

Poly- phase systems. Symmetric and asymmetric voltage supply system. Advantages of poly-phase systems. Three-phase systems (circuits). Power in three-phase systems. Rotational magnetic field and its applications. Symmetrical components.

Transient phenomena. Temeljni literatura in viri / Readings:

I. Tičar, T. Zorič: Osnove elektrotehnike 3, UM - Fakulteta za elektrotehniko rač. in informatiko, Maribor, 2005. N. Keršič: Osnove elektrotehnike II; UL – Fakulteta za elektrotehniko, Ljubljana, 1997. T. Zorič: Zbirka rešenih nalog iz osnov elektrotehnike; Samozaložba, Maribor, 2008.

Cilji in kompetence:


Cilj predmeta je usposobiti študente za razumevanje in analizo izmeničnih tokokrogov, večfaznih sistemov in prehodnih pojavov.

The objective of this course is for students to comprehend and to analyze the problems in alternating circuits, poly-phase systems and transient phenomena.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben pokazati znanje in razumevanje časovno spremenljivih

elektromagnetnih polj, analizirati izmenična linearna vezja, analizirati prehodni pojav za linearna vezja prvega in

drugega reda.

Knowledge and understanding: On completion of this course the student will be able to demonstrate knowledge and understanding of basic

problems of time depending electromagnetic fields and transient problems,

analyze sof a alternating linear circuits, analyze the transient phenomena of first and second order

of linear circuits. Prenosljive/ključne spretnosti in drugi atributi: Spretnosti komuniciranja: pisno izražanje pri pisnem

izpitu. Reševanje problemov: reševanje enostavnih problemov

časovno spremenljivega elektromagnetnega polja.

Transferable/Key skills and other attributes: Communication skills: manner of expression at written

examination. Problem solving: solving of simple problems of time

depending electromagnetic field. Metode poučevanja in učenja:


predavanja, seminarske vaje.

lectures, tutorial.



Assessment:

testi, ustni izpit, opravljene domače naloge.

45 % 45 % 10 %

tests, oral exam, completed homework.


SARAJLIĆ, Mirza, HRIBERNIK, Mitja, KITAK, Peter, PIHLER, Jože. Identification of the thermal parameters for the NH gG fuse using the differential evolution. IEEE access, ISSN 2169-3536, Dec. 2019, vol. 7, iss. 1, str. 55640-55648, doi: 10.1109/ACCESS.2019.2913553. [COBISS.SI-ID 22314518], [JCR, SNIP, WoS do 25. 5. 2019: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0] kategorija: 1A1 (Z, A', A1/2); uvrstitev: SCI, Scopus, MBP;

STOPAR, Klemen, KOVAČIČ, Miha, KITAK, Peter, PIHLER, Jože. Electric arc modeling of the EAF using differential evolution algorithm. Materials and manufacturing processes, ISSN 1042-6914, 2017, vol. 32, iss. 10, str. 1189-1200, doi: 10.1080/10426914.2016.1257859. [COBISS.SI-ID 20153366], [JCR, SNIP, WoS do 15. 10. 2018: št. citatov (TC): 1, čistih citatov (CI): 1, čistih citatov na avtorja (CIAu): 0.25, Scopus do 30. 11. 2018: št. citatov (TC): 1, čistih citatov (CI): 1, čistih citatov na avtorja (CIAu): 0.25] kategorija: 1A1 (Z, A', A1/2); uvrstitev: SCI, Scopus, MBP;

RIBIČ, Janez, PIHLER, Jože, KITAK, Peter. Impact of electrode shape on the performance of a gas discharge arrester. IEEE transactions on power delivery, ISSN 0885-8977. [Print ed.], Feb. 2015, vol. 30, no. 1, str. 463-471, ilustr., doi: 10.1109/TPWRD.2014.2357496. [COBISS.SI-ID 18180630], [JCR, SNIP, WoS do 26. 2. 2015: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0, Scopus do 9. 2. 2015: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0] kategorija: 1A2 (Z, A1/2); uvrstitev: SCI, Scopus, MBP;

KITAK, Peter, GLOTIĆ, Arnel, TIČAR, Igor. Heat transfer coefficients determination of numerical model by using particle swarm optimization. IEEE transactions on magnetics, ISSN 0018-9464, Feb. 2014, vol. 50, no. 2, str. 1-4, doi: 10.1109/TMAG.2013.2282409. [COBISS.SI-ID 17638678];

GLOTIĆ, Arnel, GLOTIĆ, Adnan, KITAK, Peter, PIHLER, Jože, TIČAR, Igor. Parallel self-adaptive differential evolution algorithm for solving short-term hydro scheduling problem. IEEE transactions on power systems, ISSN 0885-8950. [Print ed.], Sep. 2014, vol. 29, no. 5, str. 2347-2358, doi: 10.1109/TPWRS.2014.2302033. [COBISS.SI-ID 17576982];

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Osnove elektrotehnike I Course title: Fundamentals of Electrical Engineering I



Letnik Academic

year

Semester Semester




1. Zimski Autumn


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS

45 45 120 7 Nosilec predmeta / Lecturer: Peter Kitak Jeziki / Languages:

Predavanja / Lectures: slovenski / SloveneVaje / Tutorial: slovenski / Slovene

Pogoji za vključitev v delo oz. za opravljanje študijskih obveznosti:

Prerequisits:

Pogojev ni. None Vsebina:


Električno polje mirujočih elektrin- Coulombov zakon. Elektrostatično polje, električna poljska jakost, površinska

gostota elektrine, gostota električnega pretoka, permitivnost. Definicija električnega potenciala in napetosti. Metoda zrcaljenja. Elektrostatično polje v dielektrikih. Prehod električnega polja na meji dielektrikov. Kapacitivnost – analiza kondenzatorskih vezij. Energija v elektrostatičnem polju.

Električno polje enakomerno gibajočih se elektrin Tokovno polje in tokovna gostota. Mehanizem

električnega toka v kovinah. Ohmov zakon, primeri računanja upornosti, Joulov zakon.

Enosmerna analiza preprostih linearnih vezij: pasivni in

Electric field of stationary charges – electrostatic, Coulomb’s law. Electrostatic field, electric field strength. Surface density of charge, electric flux density, electric displacement and permittivity. Definition of electric potential and voltage. Reflection method. Electrostatic field in dielectric materials. Boundary conditions at surfaces in electrostatics. Capacitance, analysis of circuits with capacitors. Electrostatic field energy.

Electric field of evenly moving charges. Current field and current density. Mechanism of current flow in metals. Ohm’s law, examples of resistance calculation, Joule’s law.

Linear circuit DC analysis: passive and active elements of

aktivni elementi. I. in II. Kirchhoffov zakon; Theveninov in Nortonov teorem, metode analize vezij.

Magnetno polje enakomerno gibajočih se elektrin. Magnetna poljska jakost, Maxwellova I. enačba v

integralni obliki, Amperov zakon, Biot - Savartov zakon. Gostota magnetnega pretoka, sile v magnetnem polju magnetni pretok in Maxwellova IV. enačba v integralni obliki.

Magnetno polje v magnetnih materialih; analiza magnetnih krogov. Prehod magnetnega polja na meji dveh magnetnih snovi, magnetilne krivulje. Inducirana napetost, praktični primeri določanja inducirane napetosti.

Lastna in medsebojna induktivnost. Energija magnetnega polja.

electric circuits, Kirchhoff’s first and second law; Thevenin's and Norton's theorem; analysis methods.

Magnetic field of evenly moving charges. Magnetic field strength, Maxwell’s first equation in integral

form, Ampere’s law, Biot-Savart’s law. Magnetic flux density, Magnetic forces, Magnetic flux and Maxwell’s fourth equation in integral form.

Magnetic field in magnetic materials; analysis of magnetic circuits. Boundary conditions at surfaces in magnetostatics, Magnetisation curve. Induced voltage, determination experiment of induced voltage.

Self-inductance and mutual inductance. Magnetic field energy.

Temeljni literatura in viri / Readings:

I. Tičar, T. Zorič: Osnove elektrotehnike 1, UM - Fakulteta za elektrotehniko, računalništvo in informatiko, Maribor, 2005. P. Kitak, T. Zorič: Osnove elektrotehnike 1, 2. Zvezek (magnetna in inducirana električna polja), UM - Fakulteta za

elektrotehniko rač. in informatiko, Maribor 2011. Križaj D.: Osnove elektrotehnike I, Založba FE in FRI, Ljubljana, 2012.. T. Zorič: Zbirka rešenih nalog iz osnov elektrotehnike; Samozaložba, Maribor, 2008.



Cilj predmeta je, da bodo študentje razumeli osnove stacionarnih električnih, tokovnih in magnetnih polj ter usvojena znanja uporabili za reževanje in analizo temeljnih problemov iz elektrotehnike.

The objective of this course is to enable students to explain principles of static electric, current an magnetic fields and to use that comprehension to solve and analyze basic problems of electrical engineering.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben razumeti osnovne elektrotehniške zakone in teoreme

(Coulombov, Ohmov, Amperov, Joulov in Biot-Savartov zakon, Theveninov in Nortonov teorem),

razumel bo osnovne koncepte: upornost, moč, energija, pokazati znanje in razumevanje ter reševati osnovne

probleme stacionarnega električnega in magnetnega polja,

reševati in analizirati enosmerne tokokroge z R, L in C elementi.

Knowledge and understanding: On completion of this course the student will be able to understanding basic laws and theorems (Coulomb’s,

Ohm’s, Ampere’s, Joule’s, Biot-Savart’s law, Thevenin's and Norton's theorem),

understand the basic concepts: resistance, power and energy,

demonstrate knowledge and understanding basic problems of electric field of stationary charges and magnetic field of evenly moving charges and solving problems,

solving and analysing of DC circuits with R, L and C elements.

Prenosljive/ključne spretnosti in drugi atributi: Spretnosti komuniciranja: pisno izražanje pri pisnem

izpitu. Reševanje problemov: reševanje enostavnih linearnih

vezij in enostavnih problemov v elektromagnetnem polju.

Transferable/Key skills and other attributes: Communication skills: manner of expression at written

examination. Problem solving: solving of simple linear circuits and simple

problems in electromagnetic field.



predavanja, seminarske vaje.

lectures, tutorial.



Assessment:

testi, ustni izpit, opravljene domače naloge*.

*neobvezno

45% 45% 10%

tests, oral exam, completed homework*.

*optional


SARAJLIĆ, Mirza, HRIBERNIK, Mitja, KITAK, Peter, PIHLER, Jože. Identification of the thermal parameters for the NH gG fuse

using the differential evolution. IEEE access, ISSN 2169-3536, Dec. 2019, vol. 7, iss. 1, str. 55640-55648, doi: 10.1109/ACCESS.2019.2913553. [COBISS.SI-ID 22314518], [JCR, SNIP, WoS do 25. 5. 2019: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0] kategorija: 1A1 (Z, A', A1/2); uvrstitev: SCI, Scopus, MBP;

STOPAR, Klemen, KOVAČIČ, Miha, KITAK, Peter, PIHLER, Jože. Electric arc modeling of the EAF using differential evolution algorithm. Materials and manufacturing processes, ISSN 1042-6914, 2017, vol. 32, iss. 10, str. 1189-1200, doi: 10.1080/10426914.2016.1257859. [COBISS.SI-ID 20153366], [JCR, SNIP, WoS do 15. 10. 2018: št. citatov (TC): 1, čistih citatov (CI): 1, čistih citatov na avtorja (CIAu): 0.25, Scopus do 30. 11. 2018: št. citatov (TC): 1, čistih citatov (CI): 1, čistih citatov na avtorja (CIAu): 0.25] kategorija: 1A1 (Z, A', A1/2); uvrstitev: SCI, Scopus, MBP;

RIBIČ, Janez, PIHLER, Jože, KITAK, Peter. Impact of electrode shape on the performance of a gas discharge arrester. IEEE transactions on power delivery, ISSN 0885-8977. [Print ed.], Feb. 2015, vol. 30, no. 1, str. 463-471, ilustr., doi: 10.1109/TPWRD.2014.2357496. [COBISS.SI-ID 18180630], [JCR, SNIP, WoS do 26. 2. 2015: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0, Scopus do 9. 2. 2015: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0] kategorija: 1A2 (Z, A1/2); uvrstitev: SCI, Scopus, MBP;

KITAK, Peter, GLOTIĆ, Arnel, TIČAR, Igor. Heat transfer coefficients determination of numerical model by using particle swarm optimization. IEEE transactions on magnetics, ISSN 0018-9464, Feb. 2014, vol. 50, no. 2, str. 1-4, doi: 10.1109/TMAG.2013.2282409. [COBISS.SI-ID 17638678], [JCR, SNIP, WoS do 7. 4. 2014: št. citatov (TC): 0, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0, normirano št. čistih citatov (NC): 0, Scopus do 2. 6. 2015: št. citatov (TC): 1, čistih citatov (CI): 1, čistih citatov na avtorja (CIAu): 0.33, normirano št. čistih citatov (NC): 1] kategorija: 1A3 (Z); uvrstitev: SCI, Scopus, MBP;

GLOTIĆ, Arnel, GLOTIĆ, Adnan, KITAK, Peter, PIHLER, Jože, TIČAR, Igor. Parallel self-adaptive differential evolution algorithm for solving short-term hydro scheduling problem. IEEE transactions on power systems, ISSN 0885-8950. [Print ed.], Sep. 2014, vol. 29, no. 5, str. 2347-2358, doi: 10.1109/TPWRS.2014.2302033. [COBISS.SI-ID 17576982], [JCR, SNIP, WoS do 2. 4. 2015: št. citatov (TC): 2, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0, normirano št. čistih citatov (NC): 0, Scopus do 2. 3. 2015: št. citatov (TC): 2, čistih citatov (CI): 0, čistih citatov na avtorja (CIAu): 0, normirano št. čistih citatov (NC): 0] kategorija: 1A1 (Z, A', A1/2); uvrstitev: SCI, Scopus, MBP;

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Programiranje za elektrotehnike II Course title: Programming for Electrical Engineers II



Letnik Academic

year

Semester Semester




1. poletni Spring


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS

30 45 75 5 Nosilec predmeta / Lecturer: Tatjana Kapus Jeziki / Languages:


slovenski / Slovene


Prerequisits:

Priporočeno je osnovno znanje programiranja v jeziku C ali podobnem višjem programskem jeziku.

Recommended is basic knowledge of programming in C or in a similar high-level programming language.

Vsebina:


Uvod v jezik C++: zgodovina, podatkovni tipi, izrazi, spremenljivke, krmilni stavki, funkcije, polja, strukture, kazalci, vhodno-izhodni tokovi.

Osnove objektno usmerjenega programiranja v jeziku C++: razred, objekt, konstruktor, destruktor, prekrivanje operatorjev, dedovanje, polimorfizem.

Podatkovne strukture in algoritmi: sklad, vrsta, seznam, binarno drevo, iskanje, sortiranje.

Načrtovalski vzorci: definicija, primer vzorca in njegove uporabe.

Introduction to C++ language: history, data types, expressions, variables, control statements, functions, arrays, structures, pointers, input-output streams.

Basics of object-oriented programming in C++ language: class, object, constructor, destructor, operator overloading, inheritance, polymorphism.

Data structures and algorithms: stack, queue, list, binary tree, searching, sorting.

Design patterns: definition, an example of a pattern and its usage.

Temeljni literatura in viri / Readings: V. Žumer, J. Brest: Strukturirano in objektno usmerjeno programiranje v C++, Prvi del, Univerza v Mariboru, Fakulteta za

elektrotehniko, računalništvo in informatiko, Maribor, 2006. V. Žumer, J. Brest: Objektno programiranje v C++, Univerza v Mariboru, Fakulteta za elektrotehniko, računalništvo in

informatiko, Maribor, 2001. B. Stroustrup: The C++ Programming Language, Fourth Edition, Addison-Wesley, Harlow, 2013. Y. D. Liang: Introduction to Programming with C++, Third Edition, Pearson, Harlow, 2013. T. Gaddis: Starting Out with C++ from Control Structures to Objects, Eighth Edition, Pearson, Boston, 2014.



Cilj predmeta je, da bi študentje poznali in razumeli osnove objektno usmerjenega programiranja ter eznali razviti in implementirati rešitve v jeziku C++ za manj obsežne in algoritemsko manj zahtevne probleme.

The objective of this course is for students to know and understand the fundamentals of object-oriented programming and to be able to develop and implement solutions in C++ language to problems of moderate size and algorithmic complexity.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposobenuporabiti

oziroma implementirati osnovne vhodno-izhodne operacije, nize, logične operacije in funkcije, kot jih izvirno podpira C++,

pojasniti osnovne principe objektno usmerjenega programiranja na splošno in v jeziku C++,

analizirati, načrtovati in implementirati programsko opremo v jeziku C++ za rešitev problemov, ki zahtevajo zmožnost razvoja manj zahtevnih novih algoritmov in ki ne zahtevajo obsežnega programa.

Knowledge and understanding: On completion of this course the student will be able to use or, respectively, implement the basic input-output

operations, strings, logical operations and functions as originally supported in C++

explain the basic principles of object-oriented programming in general and in C++ language,

analyse, design and implement software in C++ language to solve problems which require the ability to develop less demanding new algorithms and which do not require a large program.

Prenosljive/ključne spretnosti in drugi atributi: Spretnosti komuniciranja: pisanje poročil in ustni zagovor

pri laboratorijskih vajah, delo v skupini, pisno izražanje pri testih oziroma pisnem izpitu.

Uporaba informacijske tehnologije: uporaba sodobnih programskih orodij za razvoj programske opreme.

Reševanje problemov: načrtovanje in implementacija programov v jeziku C++.

Transferable/Key skills and other attributes: Communication skills: report writing and oral lab work

defence, team work, manner of expression at tests or written examination.

Use of information technology: use of contemporary software tools for software development.

Problem solving: design and implementation of software in C++ language.



predavanja, seminarske vaje, laboratorijske vaje, domače naloge.

lectures, tutorials, lab work, homework assignments.



Assessment:

opravljene domače naloge, laboratorijske vaje, test 1, test 2.

10 40 25 25

completed homework , lab work, test 1, test 2.

Opomba: Testa se lahko nadomestita s pisnim izpitom. Note: The tests may be replaced with a written exam.

Reference nosilca / Lecturer's references: KAPUS, Tatjana. Using PRISM model checker as a validation tool for an analytical model of IEEE 802.15.4 networks.

Simulation modelling practice and theory, 2017, vol. 77, str. 367-378. KAPUS, Tatjana. Specifying and verifying external behaviour of fair input/output automata by using the temporal logic of

actions. Informatica, 2015, vol. 26, no. 4, str. 685-704. KAPUS, Tatjana. Modelling medium access control in IEEE 802.15.4 nonbeacon-enabled networks with probabilistic timed

automata. Journal of mobile information systems, 2013, vol. 9, no. 2, str. 157-188. KAPUS, Tatjana. Specifying system families with TLA+. V: RUDAS, Imre J. (ur.). Recent researches in engineering education

and software engineering: proceedings of the 11th WSEAS International conference on software engineering, parallel and distributed systems (SEPADS '12), Cambridge, UK, February 22-27, 2012. WSEAS Press, cop. 2012, str. 98-103.

KAPUS, Tatjana. Closing a system in the dynamic input/output automata model. The Computer journal, 2011, vol. 54, no. 7, str. 1038-1048.

UČNI NAČRT PREDMETA / COURSE SYLLABUS Predmet: Programiranje za elektrotehnike I Course title: Programming for electrical engineers I



Letnik Academic

year

Semester Semester




1. zimski Autumn


Predavanja Lectures

Seminar Seminar

Vaje Tutorial

Klinične vajework



ECTS

30 45 105 6 Nosilec predmeta / Lecturer: Miran Rodič Jeziki / Languages:


slovenski / Slovene


Prerequisits:



Uvod v programiranje – osnovna razlaga in prikaz delovanja računalnikov: delovanje procesorjev, primeri programskih jezikov.

Programski jezik C – uvodna poglavja s primeri, preproste naloge: tipi podatkov, struktura programa, dodeljevanje vrednosti in logične primerjave, krmiljenje programa.

Delo z orodji za programiranje – uporaba, nastavitve, prevajanje, zaganjanje in preizkušanje: pomoč, projekti (nastavitve, pomnilnik, potrebe), prevajanje, preizkušanje - razhroščevalnik, sodobna orodja za programiranje (samodejno dopolnjevanje, preimenovanja, ...).

Programiranje v programskem jeziku C – temeljni gradniki

Basics of programming – basic explanation and demonstration of computer operation: Functioning of processors, Examples of programming languages.

Introduction to programming language C – introduction chapters with examples, simple tasks: Types of data, Program structure, Assignment of variables and logical comparisons, Control of the program.

Work with the programming tools – use, settings, compiling and testing: Help, Projects (settings, memory, requirements, ...), Compiling, Testing – Debugger, Advanced programming tools (auto-completion, renaming, ...).

programa, kompleksnejši tipi spremenljivk: funkcije, spremenljivke in prototipi, predprocesor, nizi in polja, kazalci, standardni vhod in izhod, strukture, dinamično dodeljevanje pomnilnika, delo z znaki in biti.

Pristopi h kvalitetnemu programiranju – metode, razvojni cikel, dokumentiranje, sodobna orodja za programiranje.

Osnove zbirnega jezika – temeljni ukazi, naslavljanja.

Programming in program language C – basic methods, complex data types: Functions, variables and prototypes, Pre-processor, Vectors and Arrays, Pointers, Standard input and output, Structures, Dynamic memory allocation, Use of characters and bits.

Approaches to quality programming – methods, development cycle, documentation, advanced programming tools.

Assembly code basics - basic instructions, addressing modes.

Temeljni literatura in viri / Readings: B. W. Kernighan, D. M. Ritchie: Programski jezik C, 4. izdaja, Univerza v Ljubljani, Fakulteta za elektrotehniko in

računalništvo, Ljubljana, 1994. M. Lokar: Prvi koraki v programski jezik C, Društvo matematikov, fizikov in astronomov Slovenije, DMFA - založništvo,

Ljubljana, 2000. V. Žumer, J. Brest: Uvod v programiranje in programski jezik C++, 2. izdaja, Univerza v Mariboru, Fakulteta za elektrotehniko,

računalništvo in informatiko, Maribor, 2004. W. H. Press, S. A. Teukolsky, W. T. Vetterling, B. P. Flannery: Numerical recipes in C: the art of scientific computing,

Cambridge University Press, 2002. »Vir je dostopen tudi v elektronski obliki na naslovu« http://www.library.cornell.edu/nr/cbookcpdf.html, ISBN 0-521-43108-5

M. Rodič: Uvod v programski jezik C, 15. 11. 2000. »Vir je dostopen v elektronski obliki na naslovu« http://www.ro.feri.uni-mb.si/predmeti/sis_meh/vaje/UvodC.pdf

I. Horton, Beginning C: From Novice to Professional, Fourth Edition, Apress, 2006, ISBN-10 (pbk): 1-59059-735-4 D. Gookin, Beginning Programming with C For Dummies, John Wiley & Sons, Inc, 2014, ISBN 978-1-118-73762-0 P. Deitel, C : how to program, Deitel & Associates, Inc., Seventh edition, 2013, ISBN 978-0-13-299044-8 Cilji in kompetence:


Cilj tega predmeta je, da bodo študentje razumeli osnovne principe programiranja in načrtovanja programske opreme v programskem jeziku C, jih znali implementirati in uporabiti v praksi.

The objective of this course is for students to demonstrate understang of basic principles of programming and software design in programming language C, to implement them and to use them in practice.



Znanje in razumevanje: Po zaključku tega predmeta bo študent sposoben razumeti osnovne principe programskega jezika C, razložiti osnovne principe programskega jezika C, implementirati krajše računalniške programe v

programskem jeziku C, uporabiti krajše računalniške programe v programskem

jeziku C

Knowledge and understanding: On completion of this course the student will be able to understand basic principle

Documents

UČNI NAČRT PREDMETA / COURSE SYLLABUS Letnik...Predavanja Lectures Seminar Seminar Vaje Tutorial Klinične vaje work Druge oblike študija ... baker, aluminij, posebne zlitine, uporovni