COMPUTER ENGINEERING
Bachelor	TR-NQF-HE: Level 6	QF-EHEA: First Cycle	EQF-LLL: Level 6

Ders Genel Tanıtım Bilgileri

Course Code:

1410111007

Ders İsmi:

Physics I

Ders Yarıyılı:

Fall

Ders Kredileri:

Theoretical	Practical	Credit	ECTS
3	2	4	5

Language of instruction:

Ders Koşulu:

Ders İş Deneyimini Gerektiriyor mu?:

Type of course:

Necessary

Course Level:

Bachelor

TR-NQF-HE:6. Master`s Degree

QF-EHEA:First Cycle

EQF-LLL:6. Master`s Degree

Mode of Delivery:

Face to face

Course Coordinator :

Prof. Dr. Afif SIDDIKİ

Course Lecturer(s):

Prof. Dr. Sevtap YILDIZ ÖZBEK
Prof. Dr. Afif SIDDIKİ

Course Assistants:

Dersin Amaç ve İçeriği

Course Objectives:

To teach the students the basic concepts and principles of the mechanical branch of basic physics. Learning is to provide clarity with real applications and to provide the basis for the lessons that will be seen later.

Course Content:

Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.

Learning Outcomes

The students who have succeeded in this course;

Learning Outcomes

1 - Knowledge
Theoretical - Conceptual
1) The student has up-to-date information, software, theoretical and applied knowledge in the field of physics. The student is equipped with enough knowledge to use physics-related resources.
2) The student has theoretical knowledge on physics theories.
2 - Skills
Cognitive - Practical
1) The student can apply the theoretical knowledge acquired in the field of physics.
2) The student can evaluate the experimental data as needed.
3 - Competences
Communication and Social Competence
Learning Competence
Field Specific Competence
1) The student can examine the concepts and ideas in the field with scientific methods, interpret, evaluate and analyze the data.
Competence to Work Independently and Take Responsibility

Ders Akış Planı

Week	Subject	Related Preparation
1)	Physics and Measurement, Vectors	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
2)	Motion and Kinematic Equations (1-dimensional motion, 2-dimensional motion)	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
3)	Newton's Laws of Motion	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
4)	Circular Motion and Other Applications of Newton's Laws	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
5)	Work and Kinetic Energy, Potential Energy and Conservation of Energy	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
6)	Potential Energy and Conservation of Energy	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
7)	Linear Momentum and Collisions	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
8)	Midterm exam	Lecture notes and textbook
9)	Rotation of a Rigid Object About a Fixed Axis	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
10)	Rotation of a Rigid Object About a Fixed Axis	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
11)	Rolling Motion and Angular Momentum	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
12)	Rolling Motion and Angular Momentum	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
13)	Static Balance	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
14)	Vibration Movement	Physics, Standard dimensions and units, Vectors, Motion in one dimension, Motion in two and three dimensions, Circular Motion, Laws of Motion and Applications of Newton's Laws, Work and Kinetic Energy, Potential Energy and Conservation of Energy, Linear Momentum and Collisions, A Rigid Axis of a Rigid Body Rotation Around, Rotation of a Rigid Body About a Moving Axis, Torque and Angular Momentum, Static Equilibrium and Elasticity, Vibrational Motion.
15)	Lab Final	Lecture's notes
16)	Final	Lecture notes and textbook

Sources

Course Notes / Textbooks:	*Fen ve Mühendislik İçin Fizik, Serway-Beichner, Çeviri:Kemal Çolakoğlu, Palme Yayıncılık
References:	*Fiziğin Temelleri, David Halliday-Robert Resnick, Çeviri: Cengiz Yalçın, Arkadaş Yayıncılık

Ders - Program Öğrenme Kazanım İlişkisi

Ders Öğrenme Kazanımları	1	2	3	4	5
Program Outcomes
1) PO 1.1) Sufficient knowledge in mathematics, science and computer engineering
2) PO 1.2) Ability to apply theoretical and applied knowledge in mathematics, science and computer engineering for modeling and solving engineering problems.
3) PO 2.1) Identifying complex engineering problems
4) PO 2.2) Defining complex engineering problems
5) PO 2.3) Formulating complex engineering problems
6) PO 2.4) Ability to solve complex engineering problems
7) PO 2.5) Ability to choose and apply appropriate analysis and modeling methods
8) PO 3.1) Ability to design a complex system, process, device or product to meet specific requirements under realistic constraints and conditions.
9) PO 3.2) Ability to apply modern design methods under realistic constraints and conditions for a complex system, process, device or product
10) PO 4.1) Developing modern techniques and tools necessary for the analysis and solution of complex problems encountered in engineering applications
11) PO 4.2) Ability to select and use modern techniques and tools necessary for the analysis and solution of complex problems encountered in engineering applications
12) PO 4.3) Ability to use information technologies effectively.
13) PO 5.1) Examination of complex engineering problems or discipline-specific research topics, designing experiments
14) PO 5.2) Examination of complex engineering problems or discipline-specific research topics, experimentation
15) PO 5.3 ) Analysis of complex engineering problems or discipline-specific research topics, data collection
16) PO 5.4) Analyzing the results of complex engineering problems or discipline-specific research topics
17) PO 5.5) Examining and interpreting complex engineering problems or discipline-specific research topics

Ders - Öğrenme Kazanımı İlişkisi

No Effect	1 Lowest	2 Low	3 Average	4 High	5 Highest

	Program Outcomes	Level of Contribution
1)	PO 1.1) Sufficient knowledge in mathematics, science and computer engineering	5
2)	PO 1.2) Ability to apply theoretical and applied knowledge in mathematics, science and computer engineering for modeling and solving engineering problems.
3)	PO 2.1) Identifying complex engineering problems
4)	PO 2.2) Defining complex engineering problems
5)	PO 2.3) Formulating complex engineering problems
6)	PO 2.4) Ability to solve complex engineering problems
7)	PO 2.5) Ability to choose and apply appropriate analysis and modeling methods
8)	PO 3.1) Ability to design a complex system, process, device or product to meet specific requirements under realistic constraints and conditions.
9)	PO 3.2) Ability to apply modern design methods under realistic constraints and conditions for a complex system, process, device or product
10)	PO 4.1) Developing modern techniques and tools necessary for the analysis and solution of complex problems encountered in engineering applications
11)	PO 4.2) Ability to select and use modern techniques and tools necessary for the analysis and solution of complex problems encountered in engineering applications
12)	PO 4.3) Ability to use information technologies effectively.
13)	PO 5.1) Examination of complex engineering problems or discipline-specific research topics, designing experiments
14)	PO 5.2) Examination of complex engineering problems or discipline-specific research topics, experimentation
15)	PO 5.3 ) Analysis of complex engineering problems or discipline-specific research topics, data collection
16)	PO 5.4) Analyzing the results of complex engineering problems or discipline-specific research topics
17)	PO 5.5) Examining and interpreting complex engineering problems or discipline-specific research topics

Öğrenme Etkinliği ve Öğretme Yöntemleri

Bireysel çalışma ve ödevi
Course
Labs

Ölçme ve Değerlendirme Yöntemleri ve Kriterleri

Yazılı Sınav (Açık uçlu sorular, çoktan seçmeli, doğru yanlış, eşleştirme, boşluk doldurma, sıralama)
Homework
Uygulama

Assessment & Grading

Semester Requirements	Number of Activities	Level of Contribution
Laboratory	10	% 10
Application	10	% 5
Midterms	1	% 25
Semester Final Exam	1	% 60
total		% 100
PERCENTAGE OF SEMESTER WORK		% 40
PERCENTAGE OF FINAL WORK		% 60
total		% 100

İş Yükü ve AKTS Kredisi Hesaplaması

Activities	Number of Activities	Duration (Hours)	Workload
Course Hours	14	3	42
Application	14	2	28
Study Hours Out of Class	16	4	64
Midterms	1	2	2
Final	1	3	3
Total Workload			139