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One dimentional motion - Acceleration & Displacement
One dimentional motion - Kinetic & Projectile
Two dimentional motion - Projectile
Two dimentional motion - Acceleration
Newtons laws of motion
Normal contact force
Balanced & unbalanced forces
Lubricon VI
Inclined planes friction
Tension

- Acceleration of aircraft take-off
- Average velocity for constant acceleration
- Deriving displacement as a function of time, acceleration, and initial velocity
- Deriving max projectile displacement given time
- Plotting projectile displacement, acceleration, and velocity
- Projectile height given time
- Impact velocity given height
- Viewing g as the value of Earth's gravitational field near the surface
- Projectile motion (part 1)
- Projectile motion (part 2)
- Projectile motion (part 3)
- Projectile motion (part 4)
- Projectile motion (part 5)

- Horizontally launched projectile
- Launching and landing on different elevations
- Projectile on an incline
- Projectile at an angle
- Optimal angle for a projectile part 1 Components of initial velocity
- Optimal angle for a projectile part 2 hangtime
- Optimal angle for a projectile part 3 Horizontal distance as a function of angle (and speed)
- Optimal angle for a projectile part 4 Finding the 0optimal angle and distance with a bit of calculus
- Correction to total final velocity for projectile
- Different way to determine time in air
- Projectile motion with ordered set notation
- Total displacement for projectile
- Unit vector notation
- Unit vector notation 2
- Unit vectors and egineering notation
- Visualising vectors in 2 dimentions
- Total final velocity for projectile

- Centripetal force and acceleration intuition
- Loop de loop question
- Loop de loop answer part 1
- Loop de loop answer part 2
- Optimal turns at Indianapolis Motor Speedway with JR Hildebrand
- Race cars with constant speed around a curve
- Visual understanding of centripetal acceleration formula
- Calculus proof of centripetal acceleration formula
- Energy skate park basics workshop

- Inclined plane force components
- Force of friction keeping velocity constant
- Force of friction keeping the block stationary
- Ice accelerating down an incline
- Intuition on static and kinectic friction comparisons
- Correction to force of friction keeping the block stationary
- Static and kinetic friction example