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Applied 2 - Chapter 5+6
thomas.payne
Created on July 10, 2024
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Transcript
LO's
Chapter 5 - Forces and friction
y dπ₯
b2-4ac
A = lw
Old
New
AS
Related
Knowledge check 1
Ans A
5.1 - Resolving forces
y dπ₯
b2-4ac
A = lw
AS
5.1 - Resolving forces
y dπ₯
Rules
b2-4ac
A = lw
AS
5.1 - Resolving forces
y dπ₯
Rules
b2-4ac
A = lw
AS
5.1 - Resolving forces
y dπ₯
Rules
b2-4ac
A = lw
AS
5.1 - Resolving forces
y dπ₯
Rules
b2-4ac
A = lw
AS
5.2 - Inclined planes
y dπ₯
Rules
b2-4ac
A = lw
AS
5.2 - Inclined planes
y dπ₯
Rules
b2-4ac
A = lw
AS
5.2 - Inclined planes
y dπ₯
Rules
b2-4ac
A = lw
AS
5.3 - Friction
y dπ₯
b2-4ac
A = lw
AS
5.3 - Friction
y dπ₯
b2-4ac
A = lw
AS
5.3 - Friction
y dπ₯
Rules
b2-4ac
A = lw
AS
5.3 - Friction
y dπ₯
Rules
b2-4ac
A = lw
AS
5.3 - Friction
y dπ₯
Rules
b2-4ac
A = lw
AS
LO's
Chapter 6 - Projectiles
y dπ₯
b2-4ac
A = lw
Old
New
AS
Knowledge check 1
Related
Ans B
Ans A
6.1 - Horizontal projection
y dπ₯
Rules
b2-4ac
A = lw
AS
6.1 - Horizontal projection
y dπ₯
Rules
b2-4ac
A = lw
AS
6.1 - Horizontal projection
y dπ₯
Rules
b2-4ac
A = lw
AS
6.2 - Horizontal and vertical components
y dπ₯
Rules
b2-4ac
A = lw
AS
6.2 - Horizontal and vertical components
y dπ₯
Rules
b2-4ac
A = lw
AS
6.3 - Projection at any angle
y dπ₯
Rules
b2-4ac
A = lw
AS
6.3 - Projection at any angle
y dπ₯
Rules
b2-4ac
A = lw
AS
6.3 - Projection at any angle
y dπ₯
Rules
b2-4ac
A = lw
AS
6.3 - Projection at any angle
y dπ₯
Rules
b2-4ac
A = lw
AS
6.4 - Projectile motion formulae
y dπ₯
Rules
b2-4ac
A = lw
AS
6.4 - Projectile motion formulae
y dπ₯
Rules
b2-4ac
A = lw
AS
6.4 - Projectile motion formulae
y dπ₯
b2-4ac
A = lw
AS
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
A Level
Higher
Foundation
A Level
Higher
Foundation
A Level
Higher
Foundation
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
Chapter 5 Learning Objectives
- Resolve forces into components.
- Use the triangle law to find a resultant force.
- Solve problems involving smooth or rough inclined planes.
- Understand friction and the coefficient of friction.
- Use F β€ πR
A Level
Higher
Foundation
A Level
Higher
Foundation
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
Chapter 6 Learning Objectives
- Model motion under gravity for an object projected horizontally.
- Resolve velocity into components.
- Solve problems involving particles projected at an angle.
- Derive the formulae for time of flight, range and greatest height, and the equation of the path of a projectile.
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
A Level
Higher
Foundation
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
b2-4ac
dy
dx
f(π₯+a)
y dπ₯
Logs
A Level
Higher
Foundation