Flipping Physics Rotational motion videos

Videos for rotational motion

Rotational Kinematics: All Lecture Notes

Rotational Kinematics AP Physics 1 Review of Rotational Kinematics
Total Playlist Time: 138 minutes

1. [1] (5:03) Introduction to Circular Motion and Arc Length – EDpuzzle
   
2. [1] (4:16) Defining Pi for Physics – EDpuzzle
3. [1] (3:44) Introductory Arc Length Problem – Gum on a Bike Tire – EDpuzzle
4. [1] (2:59) Angular Velocity Introduction – EDpuzzle
5. [1] (5:40) Introductory Angular Velocity Problem – A Turning Bike Tire – EDpuzzle
6. [1] (2:27) Angular Acceleration Introduction – EDpuzzle
7. [1] (5:26) Angular Accelerations of a Record Player – EDpuzzle
8. [1] (6:34) Uniformly Angularly Accelerated Motion Introduction – EDpuzzle
9. [2] (3:43) Introductory Uniformly Angularly Accelerated Motion Problem – A CD Player – EDpuzzle
10. [1] (3:57) Human Tangential Velocity Demonstration​ – EDpuzzle
11. [2] (3:39) Introductory Tangential Velocity Problem – Mints on a Turntable – EDpuzzle
12. [2] (6:50) Tangential Acceleration Introduction with Example Problem – Mints on a Turntable – EDpuzzle
13. [1] (5:57) Demonstrating the Directions of Tangential Velocity and Acceleration – EDpuzzle
14. [2] (6:20) Centripetal Acceleration Introduction – EDpuzzle
15. [2] (5:59) Introductory Centripetal Acceleration Problem – Cylindrical Space Station – EDpuzzle
16. [1] (5:25) Centripetal Force Introduction and Demonstration – EDpuzzle
17. [3] (7:31) Introductory Centripetal Force Problem – Car over a Hill – EDpuzzle
18. [3] (3:49) What is the Maximum Speed of a Car at the Top of a Hill? – EDpuzzle
19. [3] (6:47) Mints on a Rotating Turntable – Determining the Static Coefficient of Friction – EDpuzzle
20. [3] (5:06) Determining the Force Normal on a Toy Car moving up a Curved Hill – EDpuzzle
21. [1] (3:58) Demonstrating Why Water Stays in a Bucket Revolving in a Vertical Circle – EDpuzzle
22. [1] (6:13) Analyzing Water in a Bucket a Bucket Revolving in a Vertical Circle – EDpuzzle
23. [3] (5:57) Minimum Speed for Water in a Bucket Revolving in a Vertical Circle – EDpuzzle
24. [1] (6:23) The Right Hand Rule for Angular Velocity and Angular Displacement – EDpuzzle
25. [1] (5:20) A Tale of 3 Accelerations or The Differences between Angular, Tangential, and Centripetal Accelerations – EDpuzzle
26. [4] (9:23) Conical Pendulum Demonstration and Problem – EDpuzzle

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Rotational Dynamics: All Lecture Notes

Rotational Dynamics AP Physics 1 Review of Rotational Dynamics
Total Playlist Time: 313 minutes

1. [2] (8:40) Moment of Inertia Introduction and Rotational Kinetic Energy Derivation – EDpuzzle
2. [2] (7:57) Introductory Moment of Inertia and Rotational Kinetic Energy Problem – EDpuzzle
3. [2] (3:58) Eggs in a Carton Moment of Inertia Problem – EDpuzzle
4. [1] (11:22) Moment of Inertia of Rigid Objects with Shape – EDpuzzle
5. [2] (9:59) Torque Introduction – EDpuzzle
6. [2] (6:58) An Introductory Torque Wrench Problem – EDpuzzle
7. [2] (5:53) The Right Hand Rule for Torque – EDpuzzle
8. [2] (4:58) Net Torque on a Door Problem – EDpuzzle
9. [1] (3:41) Rotational form of Newton’s Second Law – Introduction – EDpuzzle
10. [1] (6:54) Demonstrating Rotational Inertia (or Moment of Inertia) – EDpuzzle
11. [3] (4:42) Introductory Rotational Form of Newton’s Second Law Problem – EDpuzzle
12. [3] (9:23) – (1 of 2) Measuring the Rotational Inertia of a Bike Wheel – EDpuzzle
13. [3] (9:52) – (2 of 2) Measuring the Rotational Inertia of a Bike Wheel – EDpuzzle
14. [2] (5:43) Rotational Equilibrium Introduction (and Static Equilibrium too!!) – EDpuzzle
15. [3] (10:24) Introductory Rotational Equilibrium Problem – EDpuzzle
16. [3] (8:58) Placing the Fulcrum on a Seesaw – EDpuzzle
17. [3] (6:59) Painter on a Scaffold – Don’t Fall Off! – EDpuzzle
18. [3] (7:18) Graphing Rotational Inertia of an Irregular Shape – EDpuzzle
19. [2] (4:35) How the Force of Tension on a Pulley Changes with Acceleration – EDpuzzle
20. [5+] (9:22) Using Integrals to Derive Rotational Inertia of a Long, Thin Rod with Demonstration (calculus)
21. [5] (13:48) 2 Masses on a Pulley – Torque Demonstration – EDpuzzle
22. [4] (7:59) 2 Masses on a Pulley – Conservation of Energy Demonstration – EDpuzzle
23. [3] (8:58) Torque – Mass on Plank with String – EDpuzzle
24. [2] (5:38) Rolling Without Slipping Introduction and Demonstrations – EDpuzzle
25. [3] (7:28) Rolling Acceleration Down an Incline – EDpuzzle
26. [2] (5:52) Which Will Be First? (Rolling Down an Incline) – EDpuzzle
27. [2] (2:49) Which Direction will the Wheel Accelerate? – EDpuzzle
28. [4] (8:51) Acceleration of a Wheel descending on a Rope (Torque Solution) – EDpuzzle
29. [4] (6:59) Acceleration of a Wheel descending on a Rope (Energy Solution) – EDpuzzle
30. [2] (5:59) Angular Momentum of a Rigid Object with Shape Introduction – EDpuzzle
31. [2] (9:21) Conservation of Angular Momentum Introduction and Demonstrations – EDpuzzle
32. [2] (5:20) Wheel Conservation of Angular Momentum Demonstration and Solution – EDpuzzle
33. [3] (10:31) Merry-Go-Round – Conservation of Angular Momentum Problem
34. [2] (9:51) Angular Momentum of Particles Introduction – EDpuzzle
35. [3] (4:24) Common Point Particle Angular Momentum Triangle – EDpuzzle
36. [2] (5:53) What are the Equations for Kinetic Energy and Angular Momentum of a Point Particle Moving in a Circle? – EDpuzzle
37. [3] (4:44) Are Linear and Angular Momentum Conserved for a Satellite? – EDpuzzle
38. [3] (9:51) Are Linear and Angular Momentum Conserved during this Collision? – EDpuzzle
39. [4] (7:57) Point Particle with Rigid Object Collision – Conservation of Angular Momentum Demonstration and Problem – EDpuzzle
40. [5] (12:28) Angular Dart with Thin Rod Collision – Conservation of Angular Momentum Demonstration and Problem – EDpuzzle
    

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Universal Gravitation: All Lecture Notes

Universal Gravitation AP Physics 1 Review of Universal Gravitation Total Playlist Time: 104 minutes

1. [1] (7:19) Newton’s Universal Law of Gravitation Introduction – The Big G Equation – EDpuzzle
2. [2] (6:20) How Much is a Mermaid Attracted to a Doughnut? – EDpuzzle
3. [3] (6:38) The The Force of Gravitational Attraction between the Earth and the Moon – EDpuzzle
4. [3] (4:20) Deriving the Acceleration due to Gravity on any Planet and specifically Mt. Everest – EDpuzzle
5. [4] (7:09) Altitude of Geostationary Orbit, a special case of Geosynchronous Orbit – EDpuzzle
6. [1] (3:47) Dropping a Bucket of Water – Demonstration – EDpuzzle
7. [2] (6:59) Apparent Weightlessness Introduction – EDpuzzle
8. [2] (8:11) Number of g’s or g-Forces Introduction – EDpuzzle
9. [2] (8:12) Gravitational Field Introduction – EDpuzzle
10. [2] (8:47) Universal Gravitational Potential Energy Introduction – EDpuzzle
    
11. [3] (5:59) Deriving the Binding Energy of a Planet – EDpuzzle
12. [3] (7:06) Deriving Escape Velocity of Planet Earth – EDpuzzle
13. [3] (4:23) Mechanical Energy of a Satellite in Circular Orbit – EDpuzzle
14. [4] (6:09) Impulse for Two Objects being Attracted to One Another – EDpuzzle
15. [5+] (12:34) Force of Gravity and Gravitational Potential Energy Functions from Zero to Infinity (but not beyond)

Complete AP Physics Flipping Physics list

The web page with all the videos can be found here.