Course Information


Course Information
Course Title Code Semester L+U Hour Credits ECTS
PHYSICS DSA109 1. Semester 2 + 0 2.0 3.0

Prerequisites None

Language of Instruction Turkish
Course Level Associate's Degree
Course Type Compulsory
Mode of delivery Oral presentation, question and answer, case study, simulation.
Course Coordinator
Instructors
Assistants
Goals To provide students with a clear and logical presentation of the basic concepts and principles of physics • To enable students to understand how this concepts and principles are applied in vocational training • To make students acquire scientific thinking skills.
Course Content Vectors, Uniformly Accelerated Motion, Newton's Laws of Motion, Work, Power and Energy, Linear Momentum, Heat, Rotational Motion, Angular Momentum and Torque and Static Equilibrium and Elasticity.
Learning Outcomes 1) Define the vector and scalar quantities.
2) Apply the knowledge with respect to the relationships between kinematics quantities (Displacement, velocity, time, acceleration, etc.) to solving the problems involving the motion of objects in one dimension.
3) Solve the problems involving the applications of Newton's Laws of Motion in one dimension.
4) Define the concepts of work, power and energy.
5) Apply the momentum relationship to moving objects in one dimension
6) Use the knowledge of Rotational motion to analyze situations related to the uniform circular motion
7) Point out the relation between Angular Momentum and Torque.
8) use force, torque and Conditions of Equilibrium to analyze situations related to Static Equilibrium.

Weekly Topics (Content)
Week Topics Teaching and Learning Methods and Techniques Study Materials
1. Week VECTORS • Vector and Scalar Quantities • Adding Vectors • Subtracting Vectors • The Components of a Vector • Unit Vectors • Adding Vectors with The Graphical Method • Adding Vectors with The Parallelogram Method • Adding Vectors with The Component Method • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
2. Week UNIFORMLY ACCELERATED MOTION • Displacement and Average Velocity • Instantaneous Velocity • Acceleration • Motion with Constant Acceleration • Derived Two Equation for Motion with Constant Acceleration • Freely Falling Objects Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
3. Week UNIFORMLY ACCELERATED MOTION • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
4. Week NEWTON'S LAWS OF MOTION• Force Term and Newton’s First Law• Newton’s Second Law• Newton’s Third Law • Forces of Friction • Applications of Newton’s Second Law Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
5. Week NEWTON'S LAWS OF MOTION • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
6. Week WORK, POWER AND ENERGY • Definitation of Work • Power • Kinetic Energy and Potential Energy • Work-Energy Theorem • Conservation of Energy Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
7. Week WORK, POWER AND ENERGY • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
8. Week MIDTERM EXAMINATION

9. Week LINEAR MOMENTUM • Linear Momentum and Impulse • Conversation of Momentum • Collisions • Collisions in 1D • Collisions in 2D • Center of Mass Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
10. Week ROTATIONAL MOTION • Angular Displacement • Angular Speed and Angular Acceleration • Rotational Motion under Constant Angular Acceleration Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
11. Week ROTATIONAL MOTION • Relations between Angular and Linear Quantities • Kinetic Energy of Rotation • Torque • Relation between Torque and Angular Acceleration • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
12. Week ANGULAR MOMENTUM and TORQUE • Rolling Motion of a Rigid Object • Angular Momentum of a Particle • Angular Momentum of a Rotating Rigid Object •Conservation of Angular Momentum • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
13. Week STATIC EQUILIBRIUM and ELASTICITY • First Condition for Equilibrium • Torque • Second Condition for Equilibrium • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)
14. Week STATIC EQUILIBRIUM and ELASTICITY • Center of Gravity • Examples of Rigid Objects in Static Equilibrium • Elastic Properties of Solids • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

Homework Presentation (Including Preparation Time)

Sources Used in This Course
Recommended Sources
Arthur Beiser,”Applied Physics”, McGraw-Hill Trade,2003.
Bahadır Boyacıoğlu, Fizik Ders Sunumu,2017 (https://acikders.ankara.edu.tr/course/view.php?id=107)
Bekir Karaoğlu, Üniversiteler için Fizik, I. ve II. cilt bir arada, 2. Baskı, Seçkin Yayıncılık,
D.Halliday, R. Resnick, Fiziğin Temelleri I-II, (Çevri Editörü Prof. Dr.Ç. Yalçın), Ankara, Cantekin Matbaası, 1990.
Frederick J. Bueche ve David A. Jerde, “Fizik İlkeleri I-II”, Çeviri editörü Kemal Çolakoğlu, Palme Yayıncılık, Ankara, 2000.
Frederick J. Bueche. “College Physics”, McGraw-Hill Professional Book Group, 1999.
Raymond A. Serway, “Fen ve Mühendislik için Fizik I-II, Çeviri editörü Kemal Çolakoğlu, Palme Yayıncılık, Ankara, 1995.

ECTS credits and course workload
Event Quantity Duration (Hour) Total Workload (Hour)
Course Duration (Total weeks*Hours per week) 14 2
Work Hour outside Classroom (Preparation, strengthening) 14 2
Midterm Exam 1 2
Time to prepare for Midterm Exam 1 7
Final Exam 1 2
Time to prepare for Final Exam 1 8
Total Workload
Total Workload / 30 (s)
ECTS Credit of the Course
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Course Information