Online Homeworks
(will be available during 13.07.2018; 20:00 – 15.07.2018; 20:00)
(will be available during 20.07.2018; 20:00 – 22.07.2018; 20:00)
(will be available during 27.07.2018; 20:00 – 29.07.2018; 20:00)
Time to Homework IV to Start
(will be available during 03.08.2018; 20:00 – 05.08.2018; 20:00)
Course Outline
COURSE CODE : PHY102
COURSE TITLE : General Physics II
LOCAL CREDIT :4
ECTS CREDIT :6
LECTURER : Asst. Prof. Dr. Erkut İnan İşeri
COURSE HOUR : 3
LABORATORY HOUR : 2
OFFICE HOUR : 2
TYPE OF COURSE : Must Course
PREREQUISITIES : PHY101
LEVEL OF COURSE : Undergraduate
CATALOGUE DESCRIPTION :
A basic physics course which study electric and magnetic phenomenas. Topics include electricity, magnetism, and direct current circuits. Laboratory work is an important component of the course.
LEARNING OUTCOMES : By the end of this course students should be able to;
- Be able to know the basic laws of electricity and magnetism.
- To apply those laws for solving problems.
- To be able to use his/her knowledge in the fields of other sciences and/or engineering.
- Understanding how physics approach and solve problems in electricity and magnetism.
LEARNING / TEACHING METHOD : The modes of delivery include formal lectures, discussions, problem solving and lab works.
METHOD OF ASSESSMENT :
Midterm Examinations 40%
Final Examination 45%
Laboratory work 15%
TEXTBOOK(S) :
- D. Halliday, R. Resnick, and J. Walker, “Principles of Physics”, 9th Edition, Wiley.
- R. A. Serway and R. J. Beichner , “Physics for Scientist and Engineers with Modern Physics”, 8th Edition, Thomson Brooks/Cole
- Douglas C. Giancoli, Physics for Scientist and Engineers with Modern Physics, 4th Edition, Printice Hall.
TENTATIVE CONTENT & SCHEDULE
WEEK | TOPICS | READINGS | ASSIGNMENTS
/EXAMS |
1 | Electric charge | Pages, 561-565 (until the end of Section 21.3) | problems: 3, 10, 15, 24, 31, 42, 65 |
2 | Electric fields | Pages, 580-583 (until the end of Section 22.3) | problems:7, 13, 19, 23, 29, 48, 54 |
3 | Gauss’ law | Pages, 605-610 (until the end of Section 23.4) | problems:3, 24, 30, 49, 52, 75 |
4 | Gauss’ law (cont.)
– Electric potential
|
Pages, 628-633 (until the end of Section 24.4) | |
5 | Electric potential (cont.) | problems:14, 19, 26, 28, 43, 88 | |
6 | Capacitance | Pages, 656-658 (until the end of Section 25.2) | problems:4, 9, 15, 20, 28, 33, 45, 49, 77, |
7 | Capacitance (cont.) | ||
8 | Current and resistance | Pages, 682-684 (until the end of Section 26.2) | problems:2, 7, 16, 23, 29, 43, 51, 59 |
9 | Current and resistance (cont.) | ||
10 | Circuits | Pages, 705-708 (until the end of Section 27.3) | problems:1, 7, 23, 29, 35, 45, 50, 63, 80 |
11 | Circuits (cont.) | ||
12 | Magnetic fields | Pages, 735-741 (until the end of Section 28.4) | problems:3, 6, 14, 26, 41, 49, 61, 68 |
13 | Magnetic fields due to currents | Pages, 764-768 (until the end of Section 29.2) | problems:5, 10, 15, 41, 53, 62, 73 |
14 | Magnetic fields due to currents (cont.) | ||
15 | Induction and inductance | Pages, 791-797 (until the end of Section 30.4) | problems:7, 15, 27, 29, 54, 63, 75 |