Lectures (Video)
- 1. Measurements And Dimensional Analysis
- 2. 1D Kinematics
- 3. Vectors
- 4. 3D Kinematics
- 5. Circular Motion
- 6. Newton's Laws
- 7. Weight - Perceived Gravity
- 8. Friction
- 9. Review
- 10. Hooke's Law
- 11. Work - Kinetic Energy - Potential Energy
- 12. Non-Conservative Forces
- 13. Potential Energy
- 14. Sources of energy
- 15. Momentum
- 16. Elastic and Inelastic Collisions
- 17. Impulse
- 18. Review II
- 19. Rotating Rigid Bodies
- 20. Angular Momentum
- 21. Torques - Oscillating Bodies
- 22. Kepler's Laws
- 23. Doppler Effect
- 24. Rolling Motion and Gyroscopes
- 25. Static Equilibrium
- 26. Elasticity and Young's Modulus
- 27. Introduction to Fluid Mechanics
- 28. Hydrostatics and Bernoulli's Equation
- 29. Review III
- 30. Simple Harmonic Oscillations
- 31. Forced Oscillations
- 32. Heat - Thermal Expansion
- 33. Kinetic Gas Theory
- 34. Breakdown of Classical Mechanics
- 35. High-energy Astrophysics
Classical Mechanics - Lecture 4
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Lecture 4 - 3D Kinematics
This lecture is all about motion of projectiles (if air drag can be ignored). The objects experience a constant vertical acceleration due to the acceleration of gravity (see also Lecture 12).
Prof. Walter Lewin
8.01 Physics I: Classical Mechanics, Fall 1999 (Massachusetts Institute of Technology: MIT OpenCourseWare) http://ocw.mit.edu Date accessed: 2008-12-12 License: Creative Commons BY-NC-SA |