COURSE INFORMATION FORM
FIZ 119 PHYSICS-1
4+0/4
ECTS Credit 5
Freshman Year / Fall Semester
First Cycle
Compulsory
Food Engineering
None
Face to Face-Presentation
14 week-4 hours of practices per week
Turkish
To provide the student with a clear presentation of the basic concepts and
principles related to mechanics of physics.
Course Content
Vectors, motion in one dimension. motion in two dimensions, the laws of motion,
circular motion and other applications of Newton’s laws, work and kinetic energy,
potential energy and conservation of energy, linear momentum and collisions,
rotation of a rigid object about a fixed axis, rolling motion and angular
momentum, static equilibrium and elasticity, oscillatory motion, universal
gravitation.
Assessment System
Semester Requirements
Number
Contribution %
1
40
Midterm Exam
Quiz
Homework
Attendance
Application
1
Total
40
Contribution to the Overall Success
Contribution of the Final Exam to the
60
Overall Success
100
Total
ECTS Workload Table Criteria
Number
Time (hour) Total Workload (hour)
14
4
56
Course Time
Outside Classroom Study
14
6
84
Time
Homework
Presentation/Seminar
Preparation
Midterm Exam
1
1
1
Project
Final Exam
1
2
2
Total Workload (hour)
143
Course ECTS Credit
5
Learning Outcomes
The student who accomplishes the course successfully;
1.Applies the concepts of scalars and vectors in problem solving.
2.Solves problems dealing with force and motion, do experiments dealing with
linear motion, freely falling objects, and projectile motion and to explain the
Course Code and Title
H+T/C
Year / Semester
Course Level
Course Type
Department
Prerequisites
Teaching Method
Period (Week-Hour)
Course Language
Course Objective
results of experiments.
3.Solves problems involving the concepts of energy, work, and power and do
experiments dealing with Newton Law, forces of friction, and friction constant of
surfaces to explain the results of experiments.
4.Solves problems involving time, distance, velocity, and acceleration in circular
paths.
Course Stream
5.Solves problems dealing with linear momentum, impulse and collisions and do
experiments dealing with conservation of momentum and to explain the results of
experiments.
6.Solves problems dealing with rotational motion.
7.Comments rolling motion and solve problems.
8.Solves problems dealing with translational equilibrium and rotational
equilibrium.
9.Understands mechanical properties of matter and solve problems dealing with
mechanical properties.
Week
Education Modules
Preliminary Documents
Studies
1.
Standards of Length, Mass, and Time Presentation Proposed
Dimensional Analysis. Coordinate Systems Preparation Sources
Vector and Scalar Quantities
Properties of Vectors
Components of a Vector and Unit Vectors
2.
Scalar and Vector Product of Two Vectors Presentation Proposed
Displacement, Velocity, and Acceleration
Preparation Sources
Average Velocity, Instantaneous Velocity
Average and Instantaneous Acceleration
Applications
3.
1D Motion with Constant Acceleration
Presentation Proposed
Freely Falling Objects
Preparation Sources
2D Motion with Constant Acceleration
4.
Projectile Motion
Presentation Proposed
Uniform Circular Motion
Preparation Sources
Tangential and Radial Acceleration
Relative Velocity and Relative Acceleration
5.
Newton’s Laws
Presentation Proposed
Forces of Friction, Applications
Preparation Sources
Newton’s 2nd Law Applied to Uniform
Circular Motion
6.
Non-uniform Circular Motion Work Done by Presentation Proposed
a Constant ForceWork Done by a Varying Preparation Sources
Force
7.
Work,
Kinetic
Energy
and
Power Presentation Proposed
Conservative and Non-conservative Forces Preparation Sources
Conservation of Energy Potential Energy of a
System, Applications
8.
Mid-Term Exam
9.
Conservation of Mechanical Energy Linear Presentation Proposed
Momentum and Impulse Collisions in One Preparation Sources
10.
11.
12.
Dimension 2D Collisions, Applications The
Center of Mass Motion of a System of
Particles
Angular Displacement, Angular Velocity and Presentation
Angular Acceleration Angular Motion With Preparation
Constant Angular Acceleration, Angular
Kinetic Energy, Calculation of Moment of
Inertia
Torque, the Relationship between Torque and Presentation
Angular Acceleration Work, Power and Preparation
Energy in Angular Motion
Proposed
Sources
Proposed
Sources
Circular Motion of the Rigid Object, Presentation Proposed
Conservation of Angular Momentum
Preparation Sources
13.
Equilibrium Conditions of the Rigid Object Presentation Proposed
Classic Elasticity Properties
Preparation Sources
14.
Simple Harmonic Motion The Object Presentation Proposed
Connected to a Spring, Application
Preparation Sources
15.
The Law of Universal Gravitation
Presentation Proposed
Preparation Sources
Course Sources
1.Çolakoğlu K. 2007; Fen ve Mühendislik İçin Fizik 2 (Serway-Beichner), Palme
Yayıncılık, 5.Baskıdan Çeviri, Ankara
2.Çolakoğlu K. 2007; Fen ve Mühendislik İçin Fizik 2 Problem Çözümleri
(Serway-Beichner), Palme Yayıncılık, 5.Baskıdan Çeviri, Ankara
3.Kara, N., Kara, N. K. 2004; Fen ve Mühendislik Fakülteleri için Genel Fizik
Mekanik-1, Avcıol Basın Yayın, 1. Baskı, Ankara
Contribution of the
Course Learning Outcomes
Dep.
Course to Department
Learn.
Learning Outcomes
Outcomes
1.Applies the concepts of scalars and vectors in problem solving.
1, 5
2.Solves problems dealing with force and motion, do experiments
1, 3, 4, 5
dealing with linear motion, freely falling objects, and projectile
motion and to explain the results of experiments.
3.Solves problems involving the concepts of energy, work, and power 1, 3, 4, 5
and does experiments dealing with Newton Law, forces of friction,
and friction constant of surfaces to explain the results of experiments.
4.Solves problems involving time, distance, velocity, and acceleration 1, 3, 4, 5
in circular paths.
5.Solves problems dealing with linear momentum, impulse and
1, 3, 4, 5
collisions and do experiments dealing with conservation of
momentum and to explain the results of experiments.
6.Solves problems dealing with rotational motion.
1, 3, 4, 5
7.Comments rolling motion and solve problems.
1, 3, 4, 5
8.Solves problems dealing with translational equilibrium and
1, 3, 4, 5
rotational equilibrium.
9.Understands mechanical properties of matter and solve problems
1, 3, 4, 5
dealing with mechanical properties.
Course Coordinator(s) Ass. Prof. Ali KAYA , Ass. Prof. Necati ÇELİK, Ass. Prof. İbrahim DÜZGÜN,
Ass. Prof. Salih Mustafa KARABUDAK, Lecturer Selim KAYA