Download Phys 102 Syllabus(0). - Course ON-LINE

Syllabus
PHYS 102 GENERAL PHYSICS II
Date:
13.02.2017
Semester:
Spring
Level of Course:
Freshman - Introductory
Year of Study:
2017
Type of Course:
S (Required)
Language of Instruction:
English
Instructors:
PHYS102.02 Yaşar Yılmaz,
Instructor’s office hours:
Thusday: 13:00-14:00, DMF- 213
Instructors’ office numbers/phone numbers/e-mail addresses:
DMF-213
/ [email protected]
Class Hours and Locations: PHYS102.01 Thusday 678 (D/K 305, D/K 305, D/K 305),
Prerequisite:
One year of high school calculus
Course Description:
This is a calculus-based introductory physics course on electricity
and magnetism.
Course Objectives:
This is a calculus based introductory physics course on electricity and
magnetism. By the end of the course, students should
demonstrate a knowledge of the fundamental physical laws of
electricity and magnetism.
apply the fundemental laws of electricity and magnetism to solve
various practical problems.
recognize how physics is relevant to the world around them.



Textbook:
Douglas C. Giancoli, Physics for Scientists and Engineers with Modern
Physics, Prentice Hall, New Jersey, 2009 (4th Edition).
Recommended Readings: H.D. Young and R.A. Freedman, University Physics, 11th Edition,
Pearson Education Inc., New York, 2004.
Feynman, R.P., Leighton, R.B., Sands, M. The Feynman
Physics, Volume II, Addison Wesley, 1966.
Subjects Covered:
Lectures on
2
Week
Monday Date
Topics
1
Feb 13, 2017
Electric Charge
2
Feb 20, 2017
Electric Field
3
Feb 27, 2017
Electric Potential
4
March 06,
2017
Capacitance, Dielectrics,
Electric Energy Storage
5
March 13,
2017
Electric Currents and Resistance
6
March 20,
2017
Direct Current Circuits
7
March 27,
2017
Magnetism
8
April 03, 2017
Sources of Magnetic Field
9
April 10, 2017
Electromagnetic Induction and Faraday’s Law
10
April 17, 2017
Inductance and Electromagnetic Oscillations
11
Apr 24, 2017
Inductance and Electromagnetic Oscillations
12
May 01, 2017
Maxwell Equations
13
May 08, 2017
Electromagnetic Waves
14
May 15, 2017
Light
Important Dates
Midterm I :
March 23, Thursday,
17:00
Midterm II :
April 27, Thursday, 17:00
Computer Usage: Students can obtain homework and exam solutions through Course On-Line. Log
on to Course On-Line also for announcements and homework assignments.
Class Policies:
Attendance: is strongly recommended. Students will earn a maximum of 5% bonus grade.
Homework:
Homework asisgnments will be posted through LON-CAPA which is an interactive
web based program. The program can be accessed at http://loncapa.isikun.edu.tr. You
will be provided with an initial username and password.
3
Grading:
Homework
Quiz
Midterm I
Midterm II
Final
8%
15%
22%
22%
33%
All written assignments and examinations are to be carried out in strict accordance with the Işık
University’s Ethics Code. Plagiarism or other kinds of cheating will not be tolerated. If you are not
aware of the Ethics Code, you should read the Educational Quality Handbook of Işık University on its
web page.
Exam Rules: Students are strongly advised to take the exams on the announced dates. Midterm makeup exams will be given only to students who have valid, certified medical reports covering the
midterm dates. Students are responsible for planning ahead and taking whatever steps necessary to
enable them to be available to take the final exam on the scheduled date (For example, please ensure
that plane tickets purchased by or for you are for flights after, not before or on the day of the final.).
Do not bring your cellular phones and pocket calculators to the exam rooms.
Course Learning Outcomes
Students, who pass the course satisfactorily can;
1. describe the concepts of electric charge, electric force, elektric field and electric potential, and
explain their relationship to one another.
2. describe the concepts of capacitance, resistance and inductance.
3. recognize the relationship between electric current and magnetic field.
4. explain how electric field and magnetic field are related to one another.
5. demonstrate a conceptual understanding of the fundamental physical laws of electricity and
magnetism.
6. recognize how the fundamental physical laws can be applied to solve a variety of problems.
7. analyze the properties of DC and AC current electrical circuits.
8. describe Maxwell’s equations and electromagnetic waves.