Conceptual Physics
Chapter 3: Linear Motion
Free Fall
Paul investigates and develops free-fall equations as Phil Physiker drops a boulder, with a speedometer attached, from a high cliff.
Free Fall
The ratio of an objects weight to mass is always the same, which explains how all freely falling objects fall with the same accelertion. Duration: 9:28.
Hang Time Practice Page
A review of the "Hang Time" Conceptual Physics practice page. Be ready to "Pause and Calculate". Duration: 2:31. . . but longer as you pause and calculate.
Watch these additional videos to complete this tutorial.
Table of Videos
- Chapter 1: About Science
- Chapter 2: Newton's First Law
- Chapter 3: Linear Motion
- Chapter 4: Newton's Second Law
- Chapter 5: Newton's Third Law
- Chapter 6: Momentum
- Chapter 7: Energy
- Chapter 8: Rotational Motion
- Chapter 9: Gravity
- Chapter 10: Projectile and Satellite Motion
- Chapter 11: The Atomic Nature of Matter
- Chapter 12: Solids
- Chapter 13: Liquids
- Chapter 14: Gases
- Chapter 15: Temp, Heat, and Expansion
- Chapter 16: Heat Transfer
- Chapter 17: Change of Phase
- Chapter 18: Thermodynamics
- Chapter 19: Vibrations and Waves
- Chapter 20: Sound
- Chapter 21: Musical Sounds
- Chapter 22: Electrostatics
- Chapter 23: Electric Current
- Chapter 24: Magnetism
- Chapter 25: Electromagnetic Induction
- Chapter 26: Properties of Light
- Chapter 27: Color
- Chapter 28: Reflection and Refraction
- Chapter 29: Light Waves
- Chapter 30: Light Emission
- Chapter 31: Light Quanta
- Chapter 32: The Atom and the Quantum
- Chapter 33: The Atomic Nucleus
- Chapter 34: Nuclear Fission and Fusion
- Chapter 35: Special Theory of Relativity
- Chapter 36: General Theory of Relativity