This physics introduction – basic review video tutorial covers a few topics such as unit conversion / metric system, kinematics, vectors, forces, momentum, circular motion, projectile motion, work, kinetic energy, potential energy and rotational motion. This video contains plenty of examples and practice problems.
Physics Textbooks:
Donations:
Here is a list of topics:
1. Physics Introduction – Basic Overview
2. Metric System Review – Unit Conversion / Dimensional Analysis Problems
3. Kinematics in one Dimension
4. Distance vs Displacement Concept
5. Average Speed Formula and Average Velocity Equation
6. Speed, Velocity and Acceleration Definition
7. Kinematics Problems
8. Adding and Subtracting Two or Three Vectors
9. Vector Components, Resultant Vector, and Angle
10. Parallel and Perpendicular Vectors
11. Newton’s First Law of Motion – Inertia & Rest
12. Newton’s Second Law of Motion – Force, Mass, and Acceleration
13. Newton’s Third Law of Motion – Action and Reaction Pairs
14. Normal Force Calculation
15. Normal Force on an Incline Plane
16. Static Friction and Kinetic Friction
17. Tension Force in a Rope
18. Mass vs Weight Force on Earth and Moon
19. Circular Motion Equations and Formulas
20. Centripetal Acceleration
21. Centripetal Force and Gravitation
22. Velocity of an Orbiting Satelite
23. Static Friction and Car Rounding Curve
24. Tension Force, Horizontal & Vertical Circle – Centripetal Force
25. Net Force Practice Problems
26. Constant Speed and Acceleration Kinematic Formulas
27. Projectile Motion Problems – Kinematics in 2 Dimensions
28. Maximum Height and Range Formulas
29. Horizontal Velocity vs Vertical Velocity Components
30. Scalar vs Vector Quantities – Magnitude and Direction
31. Free Fall and Projectile Definition
32. Initial Speed, Time, Height and Range Calculations
33. Work Energy Theorem
34. Kinetic Energy, Gravitational Potential Energy and Mechanical Energy
35. Conservative and Nonconservative Forces
36. Work, Force, and Distance Formula
37. Conservation of Energy Practice Problem – Height and Speed
38. Momentum – Mass and Velocity – Mass in Motion
38a. Impulse, Force, and Time
38b. Impulse Momentum Theorem
39. Inelastic Collisions and Elastic Collisions
40. Conservation of Momentum and Kinetic Energy Formulas
41. Rotational Motion
42. Linear Translational Speed vs Rotational Angular Speed
43. Angular Acceleration and Angular Displacement
44. Force vs Torque
45. Rotational Work and Inertia
46. Linear Momentum vs Angular Momentum
47. Revolutions, Rotations, Radians and Degrees
