2018 Bylaw, Courses offered by Engineering Physics and Mathematics Department

Home 2018 Bylaw, Courses offered by Engineering Physics and Mathematics Department

Courses offered by Engineering Physics and Mathematics Department

The Engineering Physics and Mathematics Department is responsible for the teaching of Basic Science courses for all Programs.

Table 42 List of specializations at the Engineering Physics and Mathematics Department.

#	Specialization
1	Mathematics
2	Physics
3	Mechanics
4	Chemistry

The following abbreviations are the legend for the courses table.

Lvl	Level	UR	University Requirement	SA	Student Activities
CH	Credit Hour	FR	Faculty Requirement	MT	Mid-Term Exam
ECTS	European Credit Transfer System	DR	Discipline Requirement	PE	Practical Exam
SWL	Student Work Load	PR	Program Requirement	FE	Final Exam
Lec	Lectures
Tut	Tutorials
Lab	Laboratory
TT	Total

Table 43 List of PHM courses.

#	Lvl	Code	Course Title	Credits and SWL			Contact Hours				Classification				Assessment (%)				Prerequisites
#	Lvl	Code	Course Title	CH	ECTS	SWL	Lec	Tut	Lab	TT	UR	FR	DR	PR	SA	MT	PE	FE	Prerequisites
1		PHM001	Mathematics Placement Test	0			0	0	0	0					15	25	10	40
1		PHM001s	Mathematics Placement Test	0			0	0	0	0								100
1		PHM042	General Chemistry	0			0	0	0	0					15	25	10	40
1		PHM042s	General Chemistry	0			0	0	0	0								0
1. Mathematics
1	0	PHM011	Basic Mathematics	0	4	100	2	2	0	4		x			15	25	10	40
1	0	PHM011s	Basic Mathematics	0	4	100	2	2	0	4		x			20	20	0	60
1	0	PHM012	Mathematics (1)	3	5	125	3	2	0	5		x			30	25	0	40
1	0	PHM012s	Mathematics (1)	3	5	125	3	2	0	5					20	20	0	60
1	0	PHM013	Mathematics (2)	3	5	125	3	2	0	5		x			30	25	0	40	( PHM012 )
1	0	PHM013s	Mathematics (2)	3	5	125	3	2	0	5					20	20	0	60	( PHM012s )
1	1	PHM111	Probability and Statistics	2	4	100	2	2	0	4		x			30	25	0	40	( PHM013 )
1	1	PHM111s	Probability and Statistics	2	4	100	2	2	0	4					20	20	0	60
1	1	PHM112	Differential Equations and Numerical Analysis	4	6	150	3	2	0	5			x		30	25	0	40	( PHM013 )
1	1	PHM112s	Differential Equations and Numerical Analysis	4	6	150	3	2	0	5					20	20	0	60	( PHM013s )
1	1	PHM113	Differential and Partial Differential Equations	3	5	125	3	2	0	5			x		30	25	0	40	( PHM013 )
1	1	PHM113s	Differential and Partial Differential Equations	3	5	125	3	2	0	5					20	20	0	60	( PHM013s )
1	1	PHM114	Numerical Analysis	3	5	125	2	2	0	4				x	30	25	0	40	( PHM113 )
1	1	PHM114s	Numerical Analysis	3	5	125	2	2	0	4				x	35	25	0	40	( PHM113s )
1	1	PHM115	Engineering Mathematics	3	5	125	3	2	0	5				x	30	25	0	40	( PHM113 )
1	1	PHM115s	Engineering Mathematics	3	5	125	3	2	0	5				x	35	25	0	40	( PHM113s )
1	2	PHM211	Discrete Mathematics	2	4	100	2	2	0	4				x	30	25	0	40
1	2	PHM211s	Discrete Mathematics	2	4	100	2	2	0	4					20	20	0	60
1	2	PHM212	Complex, Special Functions and Numerical Analysis	3	5	125	2	2	0	4				x	15	25	10	40	( PHM113 )
1	2	PHM212s	Complex, Special Functions and Numerical Analysis	3	5	125	2	2	0	4					20	20	0	60	( PHM113s )
1	2	PHM213	Complex, Special Functions and Fourier Analysis	3	4	100	2	2	0	4				x	30	25	0	40	( PHM113 )
1	2	PHM213s	Complex, Special Functions and Fourier Analysis	3	4	100	2	2	0	4				x	35	25	0	40	( PHM113s )
2. Physics
1	0	PHM021	Vibration and Waves	3	5	125	3	1	1	5		x			25	20	10	40
1	0	PHM021s	Vibration and Waves	3	5	125	3	1	1	5					10	15	15	60
1	0	PHM022	Electricity and Magnetism	3	5	125	3	1	1	5		x			25	20	10	40
1	0	PHM022s	Electricity and Magnetism	3	5	125	3	1	1	5					10	15	15	60
1	1	PHM121	Modern Physics and Quantum Mechanics	3	5	125	3	1	1	5			x		25	20	10	40	( PHM013 ) AND ( PHM022 )
1	1	PHM121s	Modern Physics and Quantum Mechanics	3	5	125	3	1	1	5					10	15	15	60	( PHM013s ) AND ( PHM022s )
1	1	PHM122	Physics of Semiconductors and Dielectrics	3	5	125	3	1	0	4			x		35	20	0	40	( PHM121 )
1	1	PHM122s	Physics of Semiconductors and Dielectrics	3	5	125	3	1	0	4					20	20	0	60	( PHM121s )
1	1	PHM123	Thermal and Statistical Physics	3	5	125	2	2	0	4				x	35	20	0	40	( PHM111 )
1	1	PHM123s	Thermal and Statistical Physics	3	5	125	2	2	0	4				x	40	20	0	40	( PHM111s )
3. Mechanics
1	0	PHM031	Statics	3	5	125	2	2	1	5		x			25	25	5	40
1	0	PHM031s	Statics	3	5	125	2	2	1	5					5	25	10	60
1	0	PHM032	Dynamics	3	5	125	2	2	1	5		x			25	25	5	40	( PHM031 )
1	0	PHM032s	Dynamics	3	5	125	2	2	1	5					5	25	10	60	( PHM031s )
1	1	PHM131	Rigid Body Dynamics	2	4	100	2	2	0	4			x		30	25	0	40	( PHM032 )
1	1	PHM131s	Rigid Body Dynamics	2	4	100	2	2	0	4					15	25	0	60	( PHM032s )
4. Chemistry
1	0	PHM041	Engineering Chemistry	3	5	125	2	1	2	5		x			15	25	15	40
1	0	PHM041s	Engineering Chemistry	3	5	125	2	1	2	5					20	25	15	40
1	1	PHM141	Introduction to Organic Chemistry	2	5	125	2	0	1	3				x	20	25	10	40	( PHM041 )
1	1	PHM141s	Introduction to Organic Chemistry	2	5	125	2	0	1	3				x	25	25	10	40	( PHM041s )
1	1	PHM142	Reaction Kinetics and Chemical Analysis	3	6	150	3	0	1	4				x	20	25	10	40	( PHM141 )
1	1	PHM142s	Reaction Kinetics and Chemical Analysis	3	6	150	3	0	1	4				x	25	25	10	40	( PHM141s )
1	2	PHM241	Electrochemistry	3	6	150	3	0	1	4				x	20	25	10	40	( PHM041 )
1	2	PHM241s	Electrochemistry	3	6	150	3	0	1	4				x	25	25	10	40	( PHM041s )
1	2	PHM242	Polymer Chemistry	3	6	150	3	0	1	4				x	20	25	10	40	( PHM142 )
1	2	PHM242s	Polymer Chemistry	3	6	150	3	0	1	4				x	25	25	10	40	( PHM142s )


PHM001	Mathematics Placement Test						0 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
0 Hours			0 Hours		0 Hours
Required SWL				Equivalent ECTS
Course Content

Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
15%		25%		10%		40%


PHM001s	Mathematics Placement Test						0 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
0 Hours			0 Hours		0 Hours
Required SWL				Equivalent ECTS
Course Content

Used in Program / Level
Program Name or requirement				Study Level		Semester
Freshmen Level				0
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
%		%		%		100%


PHM042	General Chemistry						0 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
0 Hours			0 Hours		0 Hours
Required SWL				Equivalent ECTS
Course Content

Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
15%		25%		10%		40%


PHM042s	General Chemistry						0 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
0 Hours			0 Hours		0 Hours
Required SWL				Equivalent ECTS
Course Content

Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
%		%		%		0%


PHM011	Basic Mathematics						0 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Differential and integral calculus: Differentiation and its applications, The calculus of exponential and logarithmic functions, Behaviour of functions and curve sketching, The definite integral and its application Algebra: Permutations and combinations and binomial theorem, Complex numbers, Determinants and matrices. Analytic and solid geometry: Geometry and measurements in two and three dimensions, Straight lines and planes in space.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Building Engineering				0
Materials Engineering				0
Communication Systems Engineering				0
Manufacturing Engineering				0
Energy and Renewable Energy Engineering				0
Computer Engineering and Software Systems				0
Landscape Architecture				0
Mechatronics Engineering and Automation				0
Environmental Architecture and Urbanism				0
Civil Infrastructure Engineering				0
Housing Architecture and Urban Development				0
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
15%		25%		10%		40%


PHM011s	Basic Mathematics						0 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Differential and integral calculus: Differentiation and its applications, The calculus of exponential and logarithmic functions, Behaviour of functions and curve sketching, The definite integral and its application Algebra: Permutations and combinations and binomial theorem, Complex numbers, Determinants and matrices. Analytic and solid geometry: Geometry and measurements in two and three dimensions, Straight lines and planes in space.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Freshmen Level				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM012	Mathematics (1)						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Review on Calculus, Chain Rule, Hyperbolic Functions, Inverse Functions, Techniques of Integration, L’Hopital Rule, Conic Sections, Series
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				0		1
Manufacturing Engineering				0		1
Mechatronics Engineering and Automation				0		1
Landscape Architecture				0		1
Environmental Architecture and Urbanism				0		1
Housing Architecture and Urban Development				0		1
Communication Systems Engineering				0		1
Energy and Renewable Energy Engineering				0		1
Computer Engineering and Software Systems				0		1
Building Engineering				0		1
Civil Infrastructure Engineering				0		1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM012s	Mathematics (1)						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Review of Calculus, Chain Rule, Hyperbolic Functions, Inverse Functions, Techniques of Integration. L'Hopital Rule, Conic Sections, Series.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Design and Production Engineering						1
Mechanical Power Engineering						1
Automotive Engineering						1
Mechatronics Engineering						1
Architectural Engineering						1
Electrical Power and Machines Engineering						1
Electronics and Communications Engineering						1
Computer and Systems Engineering						1
Structural Engineering						1
Water Engineering and Hydraulic Structures						1
Utilities and Infrastructure						1
Freshmen Level				1
Freshmen Level				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM013	Mathematics (2)						3 CH
Prerequisites	( PHM012 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Functions of Several Variables, Partial Differentiation, Applications of Partial Differentiation, Quadric Surfaces, Coordinate Systems, Multiple Integrals and applications, Line Integral, Green’s Theorem, Linear System of Equations, Matrix Algebra, Eigenvalues
Used in Program / Level
Program Name or requirement				Study Level		Semester
Freshmen Level				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM013s	Mathematics (2)						3 CH
Prerequisites	( PHM012s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Functions of Several Variables, Partial Differentiation, Applications of Partial Differentiation, Quadric Surfaces, Coordinate Systems, Multiple Integrals and applications, Line Integral, Green’s Theorem, Linear System of Equations, Matrix Algebra, Eigenvalues
Used in Program / Level
Program Name or requirement				Study Level		Semester
Design and Production Engineering						2
Mechanical Power Engineering						2
Automotive Engineering						2
Mechatronics Engineering						2
Architectural Engineering						2
Electrical Power and Machines Engineering						2
Electronics and Communications Engineering						2
Computer and Systems Engineering						2
Structural Engineering						2
Water Engineering and Hydraulic Structures						2
Utilities and Infrastructure						2
Freshmen Level				0
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM111	Probability and Statistics						2 CH
Prerequisites	( PHM013 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Review on Probability, Bayes’ Theorem, Random Variables (Continuous and Discrete), Probability Distributions, Data Description, Descriptive and Inferential Statistics, Measures of Central Tendency and Dispersion.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Mechatronics Engineering and Automation				1		3
Landscape Architecture				1		3
Environmental Architecture and Urbanism				1		5
Housing Architecture and Urban Development				1		4
Communication Systems Engineering				1		3
Energy and Renewable Energy Engineering				1		4
Computer Engineering and Software Systems				1		4
Building Engineering				1		3
Civil Infrastructure Engineering				1		3
Computer Engineering and Software Systems				1
Manufacturing Engineering				1
Materials Engineering				1
Manufacturing Engineering				1
Materials Engineering				1
Manufacturing Engineering				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM111s	Probability and Statistics						2 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Review on Probability, Bayes’ Theorem, Random Variables (Continuous and Discrete), Probability Distributions, Data Description, Descriptive and Inferential Statistics, Measures of Central Tendency and Dispersion.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Design and Production Engineering						3
Mechanical Power Engineering						3
Automotive Engineering						3
Mechatronics Engineering						3
Architectural Engineering						3
Electrical Power and Machines Engineering						3
Electronics and Communications Engineering						3
Computer and Systems Engineering						3
Structural Engineering						3
Water Engineering and Hydraulic Structures						3
Utilities and Infrastructure						3
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM112	Differential Equations and Numerical Analysis						4 CH
Prerequisites	( PHM013 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		150		Equivalent ECTS		6
Course Content
First Order Differential Equations, Higher Order Differential Equations, Laplace Transform, Fourier Series, Partial Differential Equations, Numerical Methods for Solving Ordinary Differential Equations, Numerical Methods for Solving Partial Differential Equations.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Building Engineering				1		3
Manufacturing Engineering				1		3
Mechatronics Engineering and Automation				1		3
Civil Infrastructure Engineering				1		3
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM112s	Differential Equations and Numerical Analysis						4 CH
Prerequisites	( PHM013s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		150		Equivalent ECTS		6
Course Content
First Order Differential Equations, Higher Order Differential Equations, Laplace Transform, Fourier Series, Partial Differential Equations, Numerical Methods for Solving Ordinary Differential Equations, Numerical Methods for Solving Partial Differential Equations.
Used in Program / Level
Program Name or requirement				Study Level		Semester
General Mechanical Engineering				1
General Civil Engineering				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM113	Differential and Partial Differential Equations						3 CH
Prerequisites	( PHM013 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
First Order Differential Equations, Higher Order Differential equations, Laplace Transform, Fourier Series, Partial Differential Equations.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Communication Systems Engineering				1		3
Computer Engineering and Software Systems				1		3
Energy and Renewable Energy Engineering				1		3
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM113s	Differential and Partial Differential Equations						3 CH
Prerequisites	( PHM013s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
First Order Differential Equations, Higher Order Differential equations, Laplace Transform, Fourier Series, Partial Differential Equations.
Used in Program / Level
Program Name or requirement				Study Level		Semester
General Electrical Engineering				1
Electrical Power and Machines Engineering						4
Electronics and Communications Engineering						4
Computer and Systems Engineering						4
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM114	Numerical Analysis						3 CH
Prerequisites	( PHM113 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Numerical solution of Non-linear Equations, Curve Fitting, Numerical Integration, Eigenvalues, Error Analysis, Numerical Methods for Solving Ordinary Differential Equations, Numerical Methods for Solving Partial Differential Equations
Used in Program / Level
Program Name or requirement				Study Level		Semester
Communication Systems Engineering				1		4
Computer Engineering and Software Systems				1		4
Materials Engineering				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM114s	Numerical Analysis						3 CH
Prerequisites	( PHM113s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Numerical solution of Non-linear Equations, Curve Fitting, Numerical Integration, Eigenvalues, Error Analysis, Numerical Methods for Solving Ordinary Differential Equations, Numerical Methods for Solving Partial Differential Equations
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
35%		25%		0%		40%


PHM115	Engineering Mathematics						3 CH
Prerequisites	( PHM113 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Numerical solution of linear and Non‐linear Equations, Eigenvalues, Error Analysis, Interpolation, Curve Fitting, Numerical Integration, First Order Differential Equations, Higher Order Differential equations, Laplace Transform, Numerical Methods for Solving Ordinary Differential Equations.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				1		3
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM115s	Engineering Mathematics						3 CH
Prerequisites	( PHM113s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Numerical solution of linear and Non‐linear Equations, Eigenvalues, Error Analysis, Interpolation, Curve Fitting, Numerical Integration, First Order Differential Equations, Higher Order Differential equations, Laplace Transform, Numerical Methods for Solving Ordinary Differential Equations.
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
35%		25%		0%		40%


PHM211	Discrete Mathematics						2 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Elementary number theory and methods of proof. Direct proof and counterexample: rational numbers, divisibility, division into cases and the quotient-remainder theorem, and floor and ceiling. Indirect argument: contradiction and contraposition and two classical theorems. Sequences, mathematical induction and recursion. Graphs and trees: definitions and basic properties; trails, paths, and circuits; matrix representations of graphs; isomorphisms of graphs; trees, rooted trees; spanning trees and shortest paths.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Computer Engineering and Software Systems				3
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM211s	Discrete Mathematics						2 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Elementary number theory and methods of proof. Direct proof and counterexample: rational numbers, divisibility, division into cases and the quotient-remainder theorem, and floor and ceiling. Indirect argument: contradiction and contraposition and two classical theorems. Sequences, mathematical induction and recursion. Graphs and trees: definitions and basic properties; trails, paths, and circuits; matrix representations of graphs; isomorphisms of graphs; trees, rooted trees; spanning trees and shortest paths.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Computer and Systems Engineering				4
Computer and Systems Engineering						7
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM212	Complex, Special Functions and Numerical Analysis						3 CH
Prerequisites	( PHM113 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Functions of complex variables and their derivatives, Complex integrals, Cauchy integral theorems, Complex series, Taylor and Laurent series, Singularities and the residue theorem, Conformal mapping. Special functions, Gamma and Beta function, Series solution of linear differential equations, Bessel functions and Legendre polynomials, Bessel and Legendre series, Numerical solutions for ordinary differential equations, Numerical solutions for partial differential equations.
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
15%		25%		10%		40%


PHM212s	Complex, Special Functions and Numerical Analysis						3 CH
Prerequisites	( PHM113s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Functions of complex variables and their derivatives, Complex integrals, Cauchy integral theorems, Complex series, Taylor and Laurent series, Singularities and the residue theorem, Conformal mapping. Special functions, Gamma and Beta function, Series solution of linear differential equations, Bessel functions and Legendre polynomials, Bessel and Legendre series, Numerical solutions for ordinary differential equations, Numerical solutions for partial differential equations.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Electronics and Communications Engineering				2		6
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM213	Complex, Special Functions and Fourier Analysis						3 CH
Prerequisites	( PHM113 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Functions of complex variables and their derivatives. Complex integrals. Cauchy integral theorems. Complex series, Taylor and Laurent series. Singularities and the residue theorem, Conformal mapping. Special functions, Gamma and Beta function. Series solution of linear differential equations, Bessel functions and Legendre polynomials. Bessel and Legendre series, Continuous time Fourier transform: Definition, Basic concepts and properties.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Communication Systems Engineering				2		4
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM213s	Complex, Special Functions and Fourier Analysis						3 CH
Prerequisites	( PHM113s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Functions of complex variables and their derivatives. Complex integrals. Cauchy integral theorems. Complex series, Taylor and Laurent series. Singularities and the residue theorem, Conformal mapping. Special functions, Gamma and Beta function. Series solution of linear differential equations, Bessel functions and Legendre polynomials. Bessel and Legendre series, Continuous time Fourier transform: Definition, Basic concepts and properties.
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
35%		25%		0%		40%


PHM021	Vibration and Waves						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Review of basic physical mechanics: Work, Kinetic energy, Potential energy, Conservation of energy, Conservative and non-conservative forces, Potential gradient and Power. Vibrations: Uniform circular motion, Simple harmonic motion, energy of a simple harmonic oscillator, Superposition of harmonic vibrations, Damped vibration, Forced vibration and resonance. Wave motion: Wave equation, Transverse and Longitudinal waves, velocity of sound waves, Intensity of sound waves and intensity levels, Standing waves, Interference and Diffraction of light.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				0		1
Manufacturing Engineering				0		1
Mechatronics Engineering and Automation				0		1
Landscape Architecture				0		1
Environmental Architecture and Urbanism				0		1
Housing Architecture and Urban Development				0		1
Communication Systems Engineering				0		1
Energy and Renewable Energy Engineering				0		1
Computer Engineering and Software Systems				0		1
Building Engineering				0		1
Civil Infrastructure Engineering				0		1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		20%		10%		40%


PHM021s	Vibration and Waves						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Review of basic physical mechanics: Work, Kinetic energy, Potential energy, Conservation of energy, Conservative and non-conservative forces, Potential gradient and Power. Vibrations: Uniform circular motion, Simple harmonic motion, energy of a simple harmonic oscillator, Superposition of harmonic vibrations, Damped vibration, Forced vibration and resonance. Wave motion: Wave equation, Transverse and Longitudinal waves, velocity of sound waves, Intensity of sound waves and intensity levels, Standing waves, Interference and Diffraction of light.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Design and Production Engineering				1		1
Mechanical Power Engineering				1		1
Automotive Engineering				1		1
Mechatronics Engineering				1		1
Architectural Engineering				1		1
Electrical Power and Machines Engineering				1		1
Electronics and Communications Engineering				1		1
Computer and Systems Engineering				1		1
Structural Engineering				1		1
Water Engineering and Hydraulic Structures				1		1
Utilities and Infrastructure				1		1
Freshmen Level				0
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
10%		15%		15%		60%


PHM022	Electricity and Magnetism						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Electricity: Review of vectors, Coulomb’s law, Electric field, Electric flux, Gauss Law and its applications, Electric potential, Capacitance and Dielectrics, Electric current and RC circuits. Magnetism: Magnetic field, Magnetic Force, Sources of Magnetic Fields, Ampere’s law, Faraday’s Law, Electromagnetic induction, Magnetic properties of materials and AC circuits.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				1		2
Manufacturing Engineering				1		2
Mechatronics Engineering and Automation				1		2
Landscape Architecture				1		2
Environmental Architecture and Urbanism				1		2
Housing Architecture and Urban Development				1		2
Communication Systems Engineering				1		2
Energy and Renewable Energy Engineering				1		2
Computer Engineering and Software Systems				1		2
Building Engineering				1		2
Civil Infrastructure Engineering				1		2
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		20%		10%		40%


PHM022s	Electricity and Magnetism						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Electricity: Review of vectors, Coulomb’s law, Electric field, Electric flux, Gauss Law and its applications, Electric potential, Capacitance and Dielectrics, Electric current and RC circuits. Magnetism: Magnetic field, Magnetic Force, Sources of Magnetic Fields, Ampere’s law, Faraday’s Law, Electromagnetic induction, Magnetic properties of materials and AC circuits.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Design and Production Engineering						2
Mechanical Power Engineering						2
Automotive Engineering						2
Mechatronics Engineering						2
Architectural Engineering						2
Electrical Power and Machines Engineering						2
Electronics and Communications Engineering						2
Computer and Systems Engineering						2
Structural Engineering						2
Water Engineering and Hydraulic Structures						2
Utilities and Infrastructure						2
Freshmen Level				0
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
10%		15%		15%		60%


PHM121	Modern Physics and Quantum Mechanics						3 CH
Prerequisites	( PHM013 ) AND ( PHM022 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Selected topics in special relativity, Planck’s theory, Photoelectric effect, Compton effect, Wave properties of matter, Uncertainty principles, Wave function, Principles of quantum mechanics and Schrodinger equation, Quantum well and potential barrier, Simple harmonic oscillator, Tunnelling phenomena. Band theory of solids: Periodic structures, Bloch function, Kronig-Penny model, Energy band structure of metals, insulators and semiconductors, Semiconductors under thermal equilibrium.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Communication Systems Engineering				1		3
Materials Engineering				1		4
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		20%		10%		40%


PHM121s	Modern Physics and Quantum Mechanics						3 CH
Prerequisites	( PHM013s ) AND ( PHM022s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Selected topics in special relativity, Planck’s theory, Photoelectric effect, Compton effect, Wave properties of matter, Uncertainty principles, Wave function, Principles of quantum mechanics and Schrodinger equation, Quantum well and potential barrier, Simple harmonic oscillator, Tunnelling phenomena. Band theory of solids: Periodic structures, Bloch function, Kronig-Penny model, Energy band structure of metals, insulators and semiconductors, Semiconductors under thermal equilibrium.
Used in Program / Level
Program Name or requirement				Study Level		Semester
General Electrical Engineering				1
Electrical Power and Machines Engineering						3
Electronics and Communications Engineering						3
Computer and Systems Engineering						3
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
10%		15%		15%		60%


PHM122	Physics of Semiconductors and Dielectrics						3 CH
Prerequisites	( PHM121 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Crystal structure of solid, Miller indices, Types of bonding. Semiconductor in Equilibrium: Bonding model and energy band model, Fermi-Dirac distribution, Intrinsic carrier concentration, Doped semiconductors, Charge-neutrality Equation and Mass action law. Carrier transport phenomena: mobility, drift current, diffusion current and the Einstein relation. Nonequilibrium excess carrier in semiconductors: carrier generation and recombination, carrier life time and continuity equation. Dielectrics: Electric dipoles, Capacitors without and with dielectrics, Losses in dielectrics, Polarization vector and susceptibility, Local fields, Clausius-Mosotti relation, Microscopic models for polarization, Time and frequency response of dielectric materials.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Communication Systems Engineering				1
Materials Engineering				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
35%		20%		0%		40%


PHM122s	Physics of Semiconductors and Dielectrics						3 CH
Prerequisites	( PHM121s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			1 Hour		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Crystal structure of solid, Miller indices, Types of bonding. Semiconductor in Equilibrium: Bonding model and energy band model, Fermi-Dirac distribution, Intrinsic carrier concentration, Doped semiconductors, Charge-neutrality Equation and Mass action law. Carrier transport phenomena: mobility, drift current, diffusion current and the Einstein relation. Nonequilibrium excess carrier in semiconductors: carrier generation and recombination, carrier life time and continuity equation. Dielectrics: Electric dipoles, Capacitors without and with dielectrics, Losses in dielectrics, Polarization vector and susceptibility, Local fields, Clausius-Mosotti relation, Microscopic models for polarization, Time and frequency response of dielectric materials.
Used in Program / Level
Program Name or requirement				Study Level		Semester
General Electrical Engineering				1
Electrical Power and Machines Engineering						4
Electronics and Communications Engineering						4
Computer and Systems Engineering						4
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		20%		0%		60%


PHM123	Thermal and Statistical Physics						3 CH
Prerequisites	( PHM111 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Basic Thermodynamics Terminology – Chemical Concepts - Mechanisms of Heat Transfer: Conduction, Convection and Radiation – Kinetic Theory and the Maxwell Distribution – Law of Equipartition- Distribution of Molecular Speeds – Heat Capacities - First Law of Thermodynamics – Reversible and irreversible processes – Second Law of Thermodynamics – Heat Engines and Heat Pumps – Entropy and its Microscopic Interpretation – Elementary Statistical Physics – The Fermi–Dirac Distribution – The Fermi Energy – Applications of the FD Distribution – the Bose–Einstein Distribution - Black–Body Radiation – Vibrations in a Solid – Phonons and Heat Capacity – Debye’s Theory.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Communication Systems Engineering				2		4
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
35%		20%		0%		40%


PHM123s	Thermal and Statistical Physics						3 CH
Prerequisites	( PHM111s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Basic Thermodynamics Terminology – Chemical Concepts - Mechanisms of Heat Transfer: Conduction, Convection and Radiation – Kinetic Theory and the Maxwell Distribution – Law of Equipartition- Distribution of Molecular Speeds – Heat Capacities - First Law of Thermodynamics – Reversible and irreversible processes – Second Law of Thermodynamics – Heat Engines and Heat Pumps – Entropy and its Microscopic Interpretation – Elementary Statistical Physics – The Fermi–Dirac Distribution – The Fermi Energy – Applications of the FD Distribution – the Bose–Einstein Distribution - Black–Body Radiation – Vibrations in a Solid – Phonons and Heat Capacity – Debye’s Theory.
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
40%		20%		0%		40%


PHM031	Statics						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Fundamentals of statics, Types of supports, Free Body Diagram (FBD), Equilibrium of system of particles under plane forces, Frames, Trusses and Machines, Space statics: Resultant of systems of space forces, Moments about a point and about an axis, Reduction of system of forces to one force and couple, Wrench, Equilibrium under system of space forces, Friction and its applications, Belt friction, Centre of mass, Centre of weight for single and composite bodies, Shearing forces and bending moment diagrams, Virtual work.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Freshmen Level				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		25%		5%		40%


PHM031s	Statics						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Fundamentals of statics, Force vectors, Equilibrium of a particle, Moments and couples, Resultant of systems of s forces, Types of supports, Free Body Diagram (FBD), Equilibrium of a rigid body, Frames, Trusses and Machines, Internal forced (Normal and Shear forces and bending moment), Friction and its applications, Belt friction, Center of mass, Center of gravity for a single and composite bodies, Moment of inertia and product moment of inertia.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Design and Production Engineering						1
Mechanical Power Engineering						1
Automotive Engineering						1
Mechatronics Engineering						1
Architectural Engineering						1
Electrical Power and Machines Engineering						1
Electronics and Communications Engineering						1
Computer and Systems Engineering						1
Structural Engineering						1
Water Engineering and Hydraulic Structures						1
Utilities and Infrastructure						1
Freshmen Level				1		1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
5%		25%		10%		60%


PHM032	Dynamics						3 CH
Prerequisites	( PHM031 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Kinematics of particles, linear motion, Motion in resistive media, Study of curvilinear motion using: Cartesian coordinates, Cylindrical coordinate and Intrinsic coordinate, Relative motion, Kinetics of motion with applications on projectiles and harmonic motion, Work and energy, Applications on conservative and non-conservative fields of forces, Impulse and impact, Newton’s empirical formula, Impact of particle with fixed plane, Impact of two small balls, Introduction to vibration mechanics.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Freshmen Level				1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		25%		5%		40%


PHM032s	Dynamics						3 CH
Prerequisites	( PHM031s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Kinematics of particles, linear motion, Motion in resistive media, Study of curvilinear motion using: Cartesian coordinates, Cylindrical coordinate and Intrinsic coordinate, Relative motion, Kinetics of motion with applications on projectiles and harmonic motion, Work and energy, Applications on conservative and non-conservative fields of forces, Impulse and impact, Newton’s empirical formula, Impact of particle with fixed plane, Impact of two small balls, Introduction to vibration mechanics.
Used in Program / Level
Program Name or requirement				Study Level		Semester
General Mechanical Engineering				1		2
General Architectural Engineering				1		2
General Electrical Engineering				1		2
General Civil Engineering				1		2
Freshmen Level				1		2
Architectural Engineering				1		2
Structural Engineering				1		2
Water Engineering and Hydraulic Structures				1		2
Utilities and Infrastructure				1		2
Electrical Power and Machines Engineering				1		2
Computer and Systems Engineering				1		2
Design and Production Engineering				1		2
Mechanical Power Engineering				1		2
Automotive Engineering				1		2
Mechatronics Engineering				1		2
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
5%		25%		10%		60%


PHM131	Rigid Body Dynamics						2 CH
Prerequisites	( PHM032 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Geometrical properties: Moment of area, mass moments of inertia for single and composite bodies, product of inertia and principal moments of inertia. Kinematics of single rigid body: Types of motions, Instantaneous centre of rotation, rolling without slipping and with slipping, Kinetics of single rigid body: Newton’s and Euler equations, D’Alembert’s principle and applications. Work and energy with application on conservative and non-conservative fields of forces, Impact and impulsive motion, Linear and angular Impulses and momentums, Impact of rigid bodies and introduction to Analytical mechanics.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Manufacturing Engineering				2		1
Mechatronics Engineering and Automation				2		1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
30%		25%		0%		40%


PHM131s	Rigid Body Dynamics						2 CH
Prerequisites	( PHM032s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			2 Hours		0 Hours
Required SWL		100		Equivalent ECTS		4
Course Content
Geometrical properties: Moment of area, mass moments of inertia for single and composite bodies, product of inertia and principal moments of inertia. Kinematics of single rigid body: Types of motions, Instantaneous centre of rotation, rolling without slipping and with slipping, Kinetics of single rigid body: Newton’s and Euler equations, D’Alembert’s principle and applications. Work and energy with application on conservative and non-conservative fields of forces, Impact and impulsive motion, Linear and angular Impulses and momentums, Impact of rigid bodies and introduction to Analytical mechanics.
Used in Program / Level
Program Name or requirement				Study Level		Semester
General Mechanical Engineering				2
Mechatronics Engineering				2		2
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
15%		25%		0%		60%


PHM041	Engineering Chemistry						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			1 Hour		2 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Physical chemistry: Gases, Liquids, Solids. Thermochemistry, Thermodynamics, Solutions, Ionic equilibrium, Electrochemistry. Applied chemistry: Corrosion of metals, Alloys, Water chemistry and treatment, Chemistry of cements, Chemistry of polymers, Fuels and Combustion, Environmental pollution and its control.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				0		1
Manufacturing Engineering				0		1
Mechatronics Engineering and Automation				0		1
Landscape Architecture				0		1
Environmental Architecture and Urbanism				0		1
Housing Architecture and Urban Development				0		1
Communication Systems Engineering				0		1
Energy and Renewable Energy Engineering				0		1
Computer Engineering and Software Systems				0		1
Building Engineering				0		1
Civil Infrastructure Engineering				0		1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
15%		25%		15%		40%


PHM041s	Engineering Chemistry						3 CH
Prerequisites
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			1 Hour		2 Hours
Required SWL		125		Equivalent ECTS		5
Course Content
Physical chemistry: Gases, Liquids, Solids. Thermochemistry, Thermodynamics, Solutions, Ionic equilibrium, Electrochemistry. Applied chemistry: Corrosion of metals, Alloys, Water chemistry and treatment, Chemistry of cements, Chemistry of polymers, Fuels and Combustion, Environmental pollution and its control.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Freshmen Level				1		1
Architectural Engineering				1		1
General Civil Engineering				1		1
General Electrical Engineering				1		1
General Mechanical Engineering				1		1
General Architectural Engineering				1		1
Structural Engineering				1		1
Water Engineering and Hydraulic Structures				1		1
Utilities and Infrastructure				1		1
Electrical Power and Machines Engineering				1		1
Electronics and Communications Engineering				1		1
Computer and Systems Engineering				1		1
Design and Production Engineering				1		1
Mechanical Power Engineering				1		1
Automotive Engineering				1		1
Mechatronics Engineering				1		1
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		25%		15%		40%


PHM141	Introduction to Organic Chemistry						2 CH
Prerequisites	( PHM041 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			0 Hours		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Basic and fundamental principles of organic chemistry, overview of the properties and characteristics of organic molecules, key reactions, reaction mechanisms: structure, nomenclature, occurrence and uses of main classes of organic compounds; functional groups and their interconversion; character of chemical bonding; stereochemistry; structure and reactivity; acid/base reactions, resonance, inductive and steric effects; reaction mechanisms, nucleophilic and electrophilic reaction mechanisms; molecular rearrangements; radical reactions; organic synthesis. Petroleum and Petrochemicals: origin and classification of petroleum; types of crude oil; refining of petroleum; cracking; knocking, Octane number and factors affecting it. Gasoline, Diesel and biodiesel. Synthetic petrochemical.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				2		4
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		25%		10%		40%


PHM141s	Introduction to Organic Chemistry						2 CH
Prerequisites	( PHM041s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
2 Hours			0 Hours		1 Hour
Required SWL		125		Equivalent ECTS		5
Course Content
Basic and fundamental principles of organic chemistry, overview of the properties and characteristics of organic molecules, key reactions, reaction mechanisms: structure, nomenclature, occurrence and uses of main classes of organic compounds; functional groups and their interconversion; character of chemical bonding; stereochemistry; structure and reactivity; acid/base reactions, resonance, inductive and steric effects; reaction mechanisms, nucleophilic and electrophilic reaction mechanisms; molecular rearrangements; radical reactions; organic synthesis. Petroleum and Petrochemicals: origin and classification of petroleum; types of crude oil; refining of petroleum; cracking; knocking, Octane number and factors affecting it. Gasoline, Diesel and biodiesel. Synthetic petrochemical.
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		25%		10%		40%


PHM142	Reaction Kinetics and Chemical Analysis						3 CH
Prerequisites	( PHM141 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			0 Hours		1 Hour
Required SWL		150		Equivalent ECTS		6
Course Content
General concepts of equilibrium based on methods of detection, determination, and separation; equilibrium in aqueous and non-aqueous media; graphical presentation of equilibrium data; conditional equilibrium constants and alpha coefficients: analytical implications; generalities of kinetic methods of analysis. Reaction rates in chemical analysis. Introduction to instrumental methods of analysis, with emphasis upon electrometric and spectroscopic techniques and instruments. Includes sampling procedures, requirements of reagents and standards, and evaluation of errors.
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				1		5
Materials Engineering				2
Materials Engineering				2
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		25%		10%		40%


PHM142s	Reaction Kinetics and Chemical Analysis						3 CH
Prerequisites	( PHM141s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			0 Hours		1 Hour
Required SWL		150		Equivalent ECTS		6
Course Content
General concepts of equilibrium based on methods of detection, determination, and separation; equilibrium in aqueous and non-aqueous media; graphical presentation of equilibrium data; conditional equilibrium constants and alpha coefficients: analytical implications; generalities of kinetic methods of analysis. Reaction rates in chemical analysis. Introduction to instrumental methods of analysis, with emphasis upon electrometric and spectroscopic techniques and instruments. Includes sampling procedures, requirements of reagents and standards, and evaluation of errors.
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		25%		10%		40%


PHM241	Electrochemistry						3 CH
Prerequisites	( PHM041 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			0 Hours		1 Hour
Required SWL		150		Equivalent ECTS		6
Course Content
Electrochemistry basics and concepts, conductivity and interaction in ionic systems, potential and structure at phase boundaries, potentials and currents, electrode reaction mechanisms, electrolyte systems, galvanic elements, analytical applications, spectrometry, photochemistry, applications of electrochemistry batteries, corrosion, electroplating, electrochemistry of polymers, etc.).
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				2
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		25%		10%		40%


PHM241s	Electrochemistry						3 CH
Prerequisites	( PHM041s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			0 Hours		1 Hour
Required SWL		150		Equivalent ECTS		6
Course Content
Electrochemistry basics and concepts, conductivity and interaction in ionic systems, potential and structure at phase boundaries, potentials and currents, electrode reaction mechanisms, electrolyte systems, galvanic elements, analytical applications, spectrometry, photochemistry, applications of electrochemistry batteries, corrosion, electroplating, electrochemistry of polymers, etc.).
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		25%		10%		40%


PHM242	Polymer Chemistry						3 CH
Prerequisites	( PHM142 )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			0 Hours		1 Hour
Required SWL		150		Equivalent ECTS		6
Course Content
Introduction to polymers, nomenclature and classification of polymers, raw materials for production of synthetic polymers, natural polymers, polymer structure, molecular weight and molecular weight distribution, chemical formation of polymers: polymerization, poly-condensation, polyaddition, commercial polymerization. Degradable polymers, stereo-regular polymers, copolymers, Aramids, the latest in polyamides, polyurethanes and commercial polymers
Used in Program / Level
Program Name or requirement				Study Level		Semester
Materials Engineering				2
Materials Engineering				2
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
20%		25%		10%		40%


PHM242s	Polymer Chemistry						3 CH
Prerequisites	( PHM142s )
Number of weekly Contact Hours
Lecture			Tutorial		Laboratory
3 Hours			0 Hours		1 Hour
Required SWL		150		Equivalent ECTS		6
Course Content
Introduction to polymers, nomenclature and classification of polymers, raw materials for production of synthetic polymers, natural polymers, polymer structure, molecular weight and molecular weight distribution, chemical formation of polymers: polymerization, poly-condensation, polyaddition, commercial polymerization. Degradable polymers, stereo-regular polymers, copolymers, Aramids, the latest in polyamides, polyurethanes and commercial polymers
Assessment Criteria
Student Activities		Mid-Term Exam		Oral/Practical		Final Exam
25%		25%		10%		40%

Overview

University Requirements Courses

Faculty Requirements Courses

Courses offered by Design and Production Engineering Department

Courses offered by Mechanical Power Engineering Department

Courses offered by Automotive Engineering Department

Courses offered by Mechatronics Engineering Department

Courses offered by Architectural Engineering Department

Courses offered by Urban Design and Planning Department

Courses offered by Electrical Power and Machines Engineering Department

Courses offered by Electronics and Electrical Communication Engineering Department

Courses offered by Computer and Systems Engineering Department

Courses offered by Structural Engineering Department

Courses offered by Irrigation and Hydraulics Engineering Department

Courses offered by Public Works Engineering Department

2018 Bylaw, Courses offered by Engineering Physics and Mathematics Department

Courses offered by Engineering Physics and Mathematics Department

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