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PHYSICS 2 FALL
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
ELECTRICITY AND MAGNETISM
FİZ-201
6
6 hours/week
Professor Mehmet CEYLAN
2nd / Fall
Compulsory
Electrostatics, Charges and Fields, Electric Potential, Electric Fields around
Conductors, Electric Currents, Fields of Moving Charges, Magnetic Fields,
Electromagnetic Induction and Maxwell’s Equations, Electric Fields in
Matter, Magnetic Fields in Matter,
The aim of this module is to provide the basic concepts of electromagnetic
interactions, electromagnetic radiation, electromagnetic waves in free space
and matter.
One written midterm exam (40%) and one written final exam (60%)
Turkish
Electricity and Magnetism, Berkeley Physics Course II, E.M.Purcell, Mc
Graw-Hill Book Company
ENF 201 Basic Computer Sciences
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
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(Compulsory / Elective)
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Aims and Objectives of the
module
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Textbook /
recommended readings
OPTICS
FİZ-211
6
4 hours/week
Assistant Professor Esat GÜZEL
2nd / Fall
Compulsory
A Brief History, The Mathematics of Wave Motion, Electromagnetic
Theory, Photons and Lights, The Propagation of Light, Geometric OpticsParaxial Theory, More on Geometrical Optics, The Superposition of Waves,
Polarization, Interference, Diffraction, Fourier Optics
The aim of this module is to give the basic concept and principles the Light
and Wave Motion and to teach Electromagnetic Theory, Photons And
Lights, The Propagation of Light, Geometric Optics and Polarization.
One written midterm exam (40%) and one written final exam (60%)
Turkish
1) Optik, Eugene HECHT
2) Optik, Niftali GOCA
3) Modern Üniversite Fiziği III, Ceviren F. DOMANİÇ
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
PHYSICS LABORATORY-II
FİZ-251
5
4 hours/week
Professor Mehmet CEYLAN
2nd / Fall
Compulsory
Electric field lines and peer-potential surfaces, Oscilloscope and its used,
Electric currents ohm law and resistance, DC current circuit, Magnetic field
lines, Electromagnetic forces, Electromagnetic induction, Transformator, AC
current circuit
The aim of this module is to demostrate the basic applications of the concept
and prenciples of Electricity and Magnetism.
One written midterm exam (40%) and one written final exam (60%)
Turkish
Handouts
MATHEMATICS-III
MAT-265
5
4 hours/week
Assistant Professor Dr. Handan BALGETIR
2nd / Fall
Compulsory
Functions of several variables; limits and continuity. Partial
derivatives, directional derivatives, gradients. Differentials and the tangent
plane: the Fundamental Lemma, approximations. The Mean Value, implicite
and Inverse function theorems. Extreme values. Introduction to vector
differential calculus: the gradient, divergence and curl. Double Integrals,
polar coordinates. Improper double integrals. Change of variables in double
integrals. Triple Integrals: Cylindrical and sphe-rical coordinates
Applications. Line integrals: Parametrisation of curves, Green's Theorem,
Independence of path, exact differentials. Surface Integrals: Parametrisation,
and orien-tation of surfaces. Surface Integrals. Divergence and Stokes'
Theorems, applications.
The aim of this lecture is to provide an introduction to the basic concepts.
One written midterm exam (40%) and one written final exam (60%)
Turkish
H.H.Hacısalihoğlu, M.Balcı, Temel ve Genel Matematik 3.Cilt, Ankara,
1996.
M. R. Spiegel, Theory and Problems of Advanced Calculus, New
York,1978.
PHYSICS 2 SPRING
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
WAVES
FİZ-202
6
6 hours/week
Professor Mehmet CEYLAN
2nd / Spring
Compulsory
Free Oscillation of Simple Systems, Free Oscillations of Systems with Many
Degree of Freedom, Forced Oscillations, Travelling Waves, Reflection,
Modulation Pulses and Wave Packets, Wave in Two and Three Dimensions.
The aim of this module is to provide the basic concepts of free oscillations,
forced oscillations, travelling waves, waves in two and three dimensions.
One written midterm exam (40%) and one written final exam (60%)
Turkish
Waves, Berkeley Physics Course III, F.S Crawford,Jr. Mc Graw-Hill Book
Company
COMPUTER PROGRAMMING IN PHYSICS
FİZ-220
5
4 hours/week
Assistant Professor Soner ÖZGEN
2nd / Spring
Compulsory
It is desired that the students who take this course have taken the ENF-102
and ENF-201 modules.
Algorithms, Flow Charts, Fortran Language, Interpolation and Extrapolation,
Data Fitting (Modeling of Data), Numerical Integration and Derivation,
Ordinary Differential equations, Minimization, Simulation, Numerical
Solutions of Linear Equations, Eigenvalues and Eigenvectors Calculations.
With aid of computer, are to produce quick solutions for physics problems.
One written midterm exam (40%) and one written final exam (60%)
Turkish
1. Computational Physics: An Introduction, Fraz J. Vesely, Plenum Press,
1994, New York.
2. Computational Methods in Physics and Engineering, 2nd edition, Samuel S.
M. Wong, World Scientefic Publishing Co. Pte. Ltd., 1997, Singapore.
3. Numerik Analiz Teori ve Problemleri, in Turkish, Francis Scheih, Çeviri:
H. Hilmi Hacısalihoğlu, A. Köksal, Schaum’s Outline Series, Nobel Yayın
Dağıtım Ltd., 1988, İstanbul.
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
PHYSICS LABORATORY-III
FİZ-252
5
4 hours/week
Professor Mehmet CEYLAN
2nd / Spring
Compulsory
RC circuit, RL circuit, RLC circuit, Coupling oscillator, Transformer, Sound
waves, Diffraction and interference of sound, Measurement of sound
interference, Microwaves
The aim of this module is to demostrate the basic applications of the concept
and prenciples of waves
One written midterm exam (40%) and one written final exam (60%)
Turkish
Handouts
MATHEMATICAL METHODS IN PHYSICS
FİZ-228
5
4 hours/week
Associate Professor A. Kadir YILDIZ
2nd / Spring
Compulsory
Vector Analysis, Complex Functions, Matrices and Determinant, Fourier and
Laplace Transforms, Orthogonal Functions
The aim of teaching mathematical physics is to help the students to
appreciate the mathematical basis of physical theories and acquire the
expected level of competence in mathematical manipulations. It helps the
students to apply the methods of mathematical physics to a variety of
problems drawn from mechanics, electromagnetic, quantum mechanics, etc.
One written midterm exam (40%) and one written final exam (60%)
Turkish
[1] Wong Wa, C., Introduction to Mathematical Physics, Oxford University
Press, 1991.
[2] Karaoğlu, B. Fizik ve Müh. Matematik Yöntemler, Bilgi Tek yayıncılık,
1994.
Module Code Number
Number of ECTS Credits
Hours / Week
Module Lecturer
Year / Term
Type of Course
(Compulsory / Elective)
Prerequisites / Recommended
Module Contents
Aims and Objectives of the
module
Method of assessment
Teaching Language
Textbook /
recommended readings
MATHEMATICS-IV
MAT-266
5
4 hours/week
Assistant Professor Handan BALGETİR
2nd / Spring
Compulsory
First order ordinary differential equations: Seperable equations,
Homogeneous and nearly homogeneous differential equatins, Exact
differential equatins, Integrating factors and Bernoulli differential equatin,
Linear differential equatin and Riccati differential equatins. Existence and
uniqueness theorems for initial value problems, Fourier Series and Map of
Laplace.
The aim of this lecture is to provide an introduction to the basic concepts.
One written midterm exam (40%) and one written final exam (60%)
Turkish
M. Aydın, G. Gündüz, B. Kuryel, Diferensiyel Denklemler ve Uygulamaları,
E.Ü. Mühendislik Fakültesi Ders Kitapları Yayınları No:14, İzmir, 1987.,
S.L. Ross, Differential Equations, John Wiley & Sons, Inc. 605 third
avenue, New York 10158.