Introducing Vectors & Scalars
Distance vs Displacement: Race Tracks
Distance vs Displacement: Walking Journeys
Speed vs Velocity
Distance = Speed x Time
Time = Distance ÷ Speed
Speed = Distance ÷ Time
Calculating Average Speed 1
Calculating Average Speed 2
Distance Time Graphs
Distance Time Graphs 2
Using a Tangent to Calculate Acceleration
Newton's Second Law (F = m x a)
Showing a ∝ F and m is Inversely Proportional to a
Acceleration (a = v-u ÷ t)
Acceleration: Calculating Time (t = v-u ÷ a)
Velocity-Time Graph: Calculating Acceleration 1
Velocity-Time Graph: Calculating Acceleration 2
Velocity-Time Graph: Calculating Distance 1
Velocity-Time Graph: Calculating Distance 2
Rearranging The Uniform Acceleration Formula
Uniform Acceleration: Calculating Final Velocity
Uniform Acceleration: Calculating Displacement
Uniform Acceleration: Calculating Acceleration
Newton's First Law
Newton's Third Law
Newton's Third Law Part 2
W = m x g (Weight & Mass)
What Are Resultant Forces?
Calculating Resultant Forces
Contact & Non-Contact Forces
Skydiving: Velocity-Time Graph
Skydiving: Terminal Velocity
Skydiving: F = ma
Stopping Distances
Factors Affecting Braking Distance
Factors Affecting Thinking Distance
Stopping Distances: Using Scale Factors
Calculating Momentum Introduction (H)
Momentum: Calculating Velocity & Mass (H)
Conservation of Momentum In Collisions Introduction (H)
Conservation of Momentum In Collisions 2 (H)
Conservation of Momentum In Collisions 3 (H)
Calculating Changes in Momentum: Kicking a Ball (H)
Calculating Changes in Momentum: Snooker Balls (H)
Forces (30)
Motion (13)
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