P9.1 Distance, Speed & Time
Distance = Speed x Time
Time = Distance ÷ Speed
Speed = Distance ÷ Time
Average Speed Calculations Part 1
Average Speed Calculations Part 2
Distance-Time Graph 1
Distance-Time Graph 2
Using Tangent To Calculate Speed
9.2 Calculating Acceleration
Acceleration Calculations: a = (v - u) ÷ T
Acceleration Calculations: T = (v - u) ÷ a
9.3 Velocity-Time Graphs (a)
Velocity-Time Graph: Calculating Acceleration 1
Velocity-Time Graph: Calculating Acceleration 2
9.4 Velocity-Time Graphs (s)
Velocity-Time Graph: Calculating Distance 1
Velocity-Time Graph: Calculating Distance 2
10.1 Newton's Second Law
Resultant Forces
Newton's Second Law
Using F = m x a
Showing a ∝ F and m is Inversely Proportional to a
10.2 Weight & Terminal Velocity
W = m x g
Weight And Terminal Velocity
10.3 Sky Diving
Sky Diving: Velocity-Time Graph
Sky Diving: F = m x a
Sky Diving: a = (v - u) ÷ T
10.4 Forces & Braking
Energy Transfers: Car Braking
W = F x s
W = F x s: Braking Forces
10.5 Stopping, Braking & Thinking Distance
Stopping Distances
Factors Effecting Braking Distance
Factors Effecting Thinking Distance
Distance = Speed x Time
Time = Distance ÷ Speed
Speed = Distance ÷ Time
Average Speed Calculations Part 1
Average Speed Calculations Part 2
Distance-Time Graph 1
Distance-Time Graph 2
Using Tangent To Calculate Speed
9.2 Calculating Acceleration
Acceleration Calculations: a = (v - u) ÷ T
Acceleration Calculations: T = (v - u) ÷ a
9.3 Velocity-Time Graphs (a)
Velocity-Time Graph: Calculating Acceleration 1
Velocity-Time Graph: Calculating Acceleration 2
9.4 Velocity-Time Graphs (s)
Velocity-Time Graph: Calculating Distance 1
Velocity-Time Graph: Calculating Distance 2
10.1 Newton's Second Law
Resultant Forces
Newton's Second Law
Using F = m x a
Showing a ∝ F and m is Inversely Proportional to a
10.2 Weight & Terminal Velocity
W = m x g
Weight And Terminal Velocity
10.3 Sky Diving
Sky Diving: Velocity-Time Graph
Sky Diving: F = m x a
Sky Diving: a = (v - u) ÷ T
10.4 Forces & Braking
Energy Transfers: Car Braking
W = F x s
W = F x s: Braking Forces
10.5 Stopping, Braking & Thinking Distance
Stopping Distances
Factors Effecting Braking Distance
Factors Effecting Thinking Distance
8.2 Newton's First Law
Newton's First Law
What Are Resultant Forces?
Calculating Resultant Forces
8.3 Newton's Third Law
Newton's Third Law: Pulling a Rope
Newton's Third Law: Driving Forces
Newton's First Law
What Are Resultant Forces?
Calculating Resultant Forces
8.3 Newton's Third Law
Newton's Third Law: Pulling a Rope
Newton's Third Law: Driving Forces
P8.1 Vectors & Scalars
Vectors & Scalers: Introduction
Distance vs Displacement: Race Track
Distance vs Displacement: Going Shop
Speed vs Velocity
Vectors & Scalers: Introduction
Distance vs Displacement: Race Track
Distance vs Displacement: Going Shop
Speed vs Velocity
P5 Forces
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