Lessons
Simple Harmonic Motion: Velocity
- Video - Simple Harmonic Motion: First Time when Velocity is Zero (1:56)
- Video - Simple Harmonic Motion: First Position when Velocity is Zero (0:56)
- Video - Simple Harmonic Motion: Maximum Velocity (1:25)
- Video - Simple Harmonic Motion: First Time when Velocity is Maximum (1:32)
- Video - Simple Harmonic Motion: First Position when Velocity is maximum (0:53)
Simple Harmonic Motion: Acceleration
- Video - Simple Harmonic Motion: First Time when Acceleration is Zero (1:26)
- Video - Simple Harmonic Motion: First Position when Acceleration is Zero (0:45)
- Video - Simple Harmonic Motion: Maximum Acceleration (1:20)
- Video - Simple Harmonic Motion: First Time when Acceleration is Maximum (0:58)
- Video - Simple Harmonic Motion: First Position when Acceleration is Maximum (0:55)
Displacement, Velocity and Acceleration
- Video - Rate of Change involving Velocity & Acceleration (4:39)
- Video - Expressing Displacement in Velocity using Acceleration (4:20)
- Video - Expressing Velocity and Displacement in Times using Acceleration (9:49)
- Video - Maximum Height involving Acceleration Due to Gravity (8:05)
- Video - Velocity in terms of Displacement involving F = ma (4:42)
- Video - Displacement in terms of Time involving F = ma (6:03)
- Video - Time in terms of Velocity involving Resultant Force (7:02)
- Video - Time to Reach Origin involving Velocity (7:23)
- Video - Velocity & Time given Acceleration (1:27)
Upwards Resisted Motion
- Video - Upward Resisted Motion Theory (4:26)
- Video - Upward Resisted Motion R = v^2 (4:35)
- Video - Upward Resisted Motion R = v^2: Express Time in Velocity (2:21)
- Video - Upward Resisted Motion R = v^2: Time to Reach Maximum Height (1:08)
- Video - Upward Resisted Motion R = v^2: Maximum Height (3:25)
- Video - Upward Resisted Motion R = mv (2:24)
- Video - Upward Resisted Motion R = mv: Proof involving dx & dv (1:43)
- Video - Upward Resisted Motion R = mv: Displacement in Velocity (1:39)
- Video - Upward Resisted Motion R = mv: Maximum Height in Initial Velocity (1:09)
- Video - Upward Resisted Motion R = mv: Time in Velocity (1:36)
- Video - Upward Resisted Motion R = mv: Time to Reach Maximum Height (1:50)
