Course Information
SemesterCourse Unit CodeCourse Unit TitleT+P+LCreditNumber of ECTS Credits
2EP104GENERAL PHYSICS-II3+0+034

Course Details
Language of Instruction English
Level of Course Unit Bachelor's Degree
Department / Program ELECTRICAL-ELECTRONICS E.
Mode of Delivery Face to Face
Type of Course Unit Compulsory
Objectives of the Course To teach the basic concepts and principles of Classical Electricity and Magnetism. In this course, students will have comprehensive knowledge on the subject by examining the results of electrical interactions of objects and particles.
Course Content Electric Charges and Electric Field, Gauss’s Law, Electric Potential, Capacitors and Capacitance, Current and Resistance, Energy and Currents in Circuits, Magnetic Field, Faraday’s Law, Inductance
Course Methods and Techniques
Prerequisites and co-requisities None
Course Coordinator None
Name of Lecturers Associate Prof.Dr. Vural Emir Kafadar
Assistants None
Work Placement(s) No

Recommended or Required Reading
Resources Serway, R. A., R. J., Jewett (2007) Physics for Scientists & Engineers with Modern Physics – 7th ed., Brooks Cole.
Halliday, D., Resnick R., Walker, R. J., (2001) Fundamentals of Physics– 6th ed., J. Wiley, New York.
Frederick J. Keller, W. Edward Gettys, Malcolm J Skove
Raymond A. Serway and John W. Jewett, Physics For Scientist and Engineers, 9th Edition, Brooks/Cole, Boston, MA 02210, USA Paul A. Tipler, Gene Mosca

Course Category
Mathematics and Basic Sciences %40
Engineering %20
Engineering Design %20
Science %20

Planned Learning Activities and Teaching Methods
Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria
In-Term Studies Quantity Percentage
Mid-terms 2 % 60
Final examination 1 % 40
Total
3
% 100

 
ECTS Allocated Based on Student Workload
Activities Quantity Duration Total Work Load
Course Duration 14 3 42
Mid-terms 2 0 0
Final examination 1 0 0
Total Work Load   Number of ECTS Credits 1 42

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:
NoLearning Outcomes
1 Understand the Coulomb’s law and electrical charge. Be able to use for problem solving. Have information about electrical field, motion of an electrical charge in the electrical field and electrical dipole. Be able to do related exercises.
2 Understand the Gauss law and applications. Learn the electrical potential and application fields and can be used them in the related applications
3 Understand the properties of capacitor and dielectrics and can be used them in applications.
4 Understand the electric current in the matter and properties, resistance, resistivity, conductivity and electrical power and can be used them in the related applications.
5 Learn magnetic field, magnetisation, and effect of magnetisation. To understand related applications of magnetic fields and solve problems.
6 Understand the Amper’s and Biot-Savart’s laws and Maxwell displacement current, and can be solve the related problems.
7 Understand the effect of Faraday’s induction law in the present day. To be able to solve related problems.
8 Learn indüktans, inductor, oscillations of circuit, RL and RLC circuits. Be able to solve related problems.


Weekly Detailed Course Contents
WeekTopicsStudy MaterialsMaterials
1 Electric Charges and Electric Field   1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
2 Gauss’s Law  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
3 Electric Potential  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
4 Capacitors and Capacitance  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
5 ElectricCurrent   1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
6 Resistor and Resistance  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
7 Midterm I  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
8 Energy and Currents in Circuits  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
9 Magnetic Field  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
10 Biot-Savart Law   1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
11 Ampere’s Law   1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
12 Faraday’s Law   1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
13 Inductance  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics
14 Midterm II  1,2,3 Serway Jewett, Physics for Scientists & Engineers with Modern Physics


Contribution of Learning Outcomes to Programme Outcomes
P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11
All 5 4 5 5 4 4 5 4 5 4
C1
C2
C3
C4
C5
C6
C7
C8

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