Course Code
: 0502101
Course Name
: Physics I
Instructor
: Dr. Mehmet GÜMÜŞÇÜ
Theoretical/ Practical/Credit :
4 /
0/ 4
|
Learning Activity |
Estimated Time(Hour) |
Evaluation |
|
Theoretical Course (14 Week) |
4 x 14 = 56 |
Participation to class |
|
Guided Problem Solving |
2 x 14 = 28 |
Active Participation |
|
Individual Study |
3 x 14 = 42 |
|
|
Weekly homework problems be solved |
1 x 14 = 14 |
Individual or teamwork and
report preparation for homework’s. |
|
Term project |
None |
|
|
Midterm Exams |
4 x 2 = 8 |
Closed Book |
|
Final Exam |
For Exam
: 2 Individual Study: 8 |
Closed Book |
|
Quiz (4 Piece) |
Individual Study: 8 |
Closed Book |
|
Research (internet / library) |
|
|
|
Other (documentary / movie watching) |
|
|
|
Other (conference, panel, etc.. Attend meetings) |
|
|
|
Total Course Load (Hours) |
166 |
|
|
Code and Name of Course |
0502101 Physics 1 |
|
Type of Course |
Compulsory |
|
Prerequisite/Recommended |
None |
|
Year/Semester of Course |
1st Year / Fall Semester |
|
Credit
of Course |
4 |
|
Coordinate
of Course |
Dr. Mehmet GÜMÜŞÇÜ |
|
Department |
Mechanical
Engineering |
|
Instructor |
Dr. Mehmet GÜMÜŞÇÜ |
|
Number of Classroom |
|
|
Hours of Course |
|
|
Hours of Meeting |
|
|
Groups |
One
group |
|
Objective of the Course |
This
course gives information about fundamental concept of physics to student of
mechanical engineering students and introduces importance about engineering
and physics at daily life, usage and advantages. |
|
Course
Contents |
Vectors.
Kinematics in one dimension. Kinematics in two dimensions. Dynamics-Newton's
laws and their application. Universal gravitation law of Newton. Work and
energy. Conservation of energy. Collisions and system's of dynamics. Static
balance of rigid body. Conversion and angular collisions. |
|
Textbook/Recommended Reading |
1
Richards, Sears, Wehr, Zemansky, ( Çev: Domaniç, F., TACER, L., MURAT, Y.,
Modern Üniversite Fiziği, C.I, Çağlayan Kitabevi, İstanbul |
|
Plan
of Course at Semester |
Weeks-Subject |
|
1) Units and standards, Force, Vectors, Component of
vectors, methods of vertical component |
|
|
2) Find of resultant force, Difference and
total of vectors, Problems, Balance, First and second laws of Newton |
|
|
3) Applications of balance, Force of
friction, Problems |
|
|
4) Balance, momentum of force, Second Condition of
balance, Parallel forces, Application |
|
|
5) The centre of gravity, Application,
Problems |
|
|
6) Linear motion, Average and sudden velocity,
Average and sudden acceleration, Linear motion with constant acceleration |
|
|
7) Midterm exam |
|
|
8) Find velocity and way with integrate, Free
fall bodies, Component of velocity, Problems |
|
|
9) II. Laws of Newton, Attraction, Mass,
Units, Mass and weight, General attraction of Newton |
|
|
10) Mass of Earth and difference at g, Applications,
Problems |
|
|
11) Plane motion, Motion of bombshell, Oblique
throwing, Rotational motion, Centralist force, Application |
|
|
12) What is work units, Done work when change force,
Gravitation potential energy, Application |
|
|
13) Elasticity potential energy, Principle of work
and energy, Power, Mass, Energy, Impulse and Momentum, Conservation of
momentum, Problems |
|
|
14) General review |
|
|
Form of Assessment |
One
written midterm exam (40% ); one written final exam (60%) |