INTRODUCTION TO COLLEGE PHYSICS #15 | Chapter 5 Newton's Laws of Motion Inclined Plane Problems
WELCOME TO TURKISI ENGINEERING. We will study in this course algebra based physics.
This course will be suitable for high school 11th & 12th grade students and for engineering college students who are searching for simple explanations for physics.
We will study classical mechanics chapters:
Chapter 3: Motion in a Plane
3.1 Velocity in a Plane
3.2 Acceleration in a Plane
3.3 Projectile Motion
3.4 Uniform Circular Motion
Chapter 4: Newton’s Laws
4.1 Force and Net Force
4.2 Newton’s First Law
4.3 Mass and Newton’s Second Law
4.4 Mass and Weight
4.5 Newton’s Third Law
4.6 Free-Body Diagrams
Chapter 5: Applications of Newton’s Laws
5.1 Equilibrium of a Particle (Statics)
5.2 Applications of Newton’s Second Law (Dynamics)
5.3 Contact Forces and Friction
5.4 Elastic Forces
Chapter 6: Kinetics of Circular Motion
6.1 Force in Circular Motion
6.2 Motion in a Vertical Circle
6.3 Newton’s Law of Gravitation
6.4 Weight
6.5 Satellite Motion
Chapter 7 Work and Energy:
7.1 An Overview of Energy
7.2 Work
7.3 Work and Kinetic Energy
7.4 Work Done by a Varying Force (Spring)
7.5 Potential Energy
7.6 Conservation of Energy
7.7 Conservative and Nonconservative
7.8 Power
Chapter 8 Momentum
8.1 Momentum
8.2 Conservation of Momentum
8.3 Inelastic Collisions
8.4 Elastic Collisions
8.5 Impulse
8.6 Center of Mass
8.7 Motion of the Center of Mass
8.8 Rocket Propulsion
Chapter 9 Rotational Motion
9.1 Angular Velocity and Angular Acceleration
9.2 Rotation with Constant Angular Velocity
9.3 Relationship Between Linear and Angular
9.4 Kinetic Energy of Rotation and Moment
9.5 Rotation About a Moving Axis
Chapter 10 Dynamics of Rotational
10.1 Torque
10.2 Torque and Angular Acceleration
10.3 Work and Power in Rotational Motion
10.4 Angular Momentum
10.5 Conservation of Angular Momentum
10.6 Equilibrium of a Rigid Body
10.7 Vector Nature of Angular Quantities
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