Education Information System

Course Title	Code	Semester	L+U Hour	Credits	ECTS
-	FIZ 507		3 + 0	3.0	8.0

Prerequisites

None

Language of Instruction	Turkish
Course Level	Graduate
Course Type
Mode of delivery	Lecturing
Course Coordinator	Prof. Dr. Kadir GÖKŞEN
Instructors
Assistants
Goals	Learning the advanced methods additional to the basic mathematical knowledge and using the knowledge in applications.
Course Content	Differential equation with partial derivation; common and special solutions, important equations with partial derivation ,Wave equation, diffusion equation, unity and existence of solutions;method of separation of variables, general method,Separation of variables in polar coordinates,Integral transformation method, inhomogeneous problems andGreen functions, Green functions in one-dimension,Eigenfunction of Green functions, multi-dimensional Green function,Formalism, multi-dimensional Green functions and delta function,Applications of Green function in multi-dimension,Elliptical equations, parabolic equations, hyperbolic equations,Fourier transformation method,Eigenfunction method.
Learning Outcomes	-

Week	Topics	Learning Methods
1. Week	Differential equation with partial derivation; common and special solutions, important equations with partial derivation, common and special solutions,	Verbal Expression
2. Week	Wave equation, diffusion equation, unity and existence of solutions;	Verbal Expression
3. Week	Differential equations with partial derivation: method of separation of variables, separation of variables, general method,	Verbal Expression
4. Week	Differential equations with partial derivation: method of separation of variables, separation of variables, general method,	Verbal Expression
5. Week	Separation of variables in polar coordinates,	Verbal Expression
6. Week	Integral transformation method, inhomogeneous problems and	Verbal Expression
7. Week	Green functions; Green functions: Green functions in one-dimension,	Verbal Expression
8. Week	MIDTERM EXAM
9. Week	Eigenfunction of Green functions, multi-dimensional Green function	Verbal Expression
10. Week	Formalism, multi-dimensional Green functions and delta function,	Verbal Expression
11. Week	Applications of Green function in multi-dimension,	Verbal Expression
12. Week	Elliptical equations, parabolic equations, hyperbolic equations	Verbal Expression
13. Week	Elliptical equations, parabolic equations, hyperbolic equations	Verbal Expression
14. Week	Fourier transformation method	Verbal Expression

• G. Arfken, Mathematic Methods for Physicists, Academic Press, 1985. • P. Dennery, A. Krzywicki, Mathematics for Physicists, Dower Publications, 1996. • J. Mathews, R.L.Walker, Mathematical Methods of Physics, 2nd Edition, W.A. Benjamin, 1970

Program Requirements	Contribution Level	DK1	Measurement Method
PY1	5	-	40,60
PY2	5	-	40,60
PY3	5	-	40,60
PY4	4	-	40,60
PY5	5	-	40,60
PY6	5	-	40,60
PY7	5	-	40,60
PY8	4	-	40,60
PY9	4	-	40,60
PY10	5	-	40,60

*DK = Course's Contrubution.

	0	1	2	3	4	5
Course's Level of contribution	None	Very Low	Low	Fair	High	Very High
Method of assessment/evaluation		Written exam	Oral Exams	Assignment/Project	Laboratory work	Presentation/Seminar

Event	Quantity	Duration (Hour)	Total Workload (Hour)
Course Hours	14	3	42
Preparation, After Class Study	14	3	42
Research	14	3	42
Verbal Expression	14	1	14
Visual Presentation	14	1	14
Midterm 1	1	2	2
Homework 1	1	4	4
Final	1	2	2
Classroom Activities	14	3	42
Total Workload			204
ECTS Credit of the Course			25.5 8.0