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TURNING EFFECT OF A FORCE

Moment of a force refers to the turning effect of the force. It is defined as the product of the force and the perpendicular distance between the point of suppo...

Caren Gatweri

English

Certificate Course

0 Students

00h 00m

Course Overview

Turning Effect of a Force (Moment of a Force)

🔹 Definition:

The turning effect of a force is known as the moment of a force.
It occurs when a force causes an object to rotate about a pivot (or fulcrum).

🧮 Moment = Force × Perpendicular Distance

$\text{Moment} = F \times d$

F = Force (in newtons, N)
d = Perpendicular distance from the pivot to the line of action of the force (in meters, m)

🔄 Types of Moments

Clockwise moment – turns an object in the clockwise direction
Anticlockwise moment – turns an object in the anticlockwise direction

⚖️ Principle of Moments:

If a body is in equilibrium (not turning), the total clockwise moment equals the total anticlockwise moment.

$\text{Clockwise Moment} = \text{Anticlockwise Moment}$

📏 Applications:

See-saws
Levers
Spanners
Wheelbarrows
Door handles

🛠️ Levers:

A lever is a rigid bar that rotates about a fixed point called a pivot or fulcrum.

Classes of Levers:

Class	Order of Parts (from one end to the other)	Example
1st	Load – Fulcrum – Effort	Seesaw, scissors
2nd	Fulcrum – Load – Effort	Wheelbarrow
3rd	Fulcrum – Effort – Load	Tongs, human arm

🧠 Key Concepts:

The larger the distance from the pivot, the greater the moment.
Using longer tools (like spanners) increases turning effect.
Balancing beams and levers uses the principle of moments.
Turning Effect of a Force (Moment of a Force)

🔹 Definition:

The turning effect of a force is known as the moment of a force.
It occurs when a force causes an object to rotate about a pivot (or fulcrum).

🧮 Moment = Force × Perpendicular Distance
$\text{Moment} = F \times d$
- F = Force (in newtons, N)
- d = Perpendicular distance from the pivot to the line of action of the force (in meters, m)
🔄 Types of Moments
1. Clockwise moment – turns an object in the clockwise direction
2. Anticlockwise moment – turns an object in the anticlockwise direction
⚖️ Principle of Moments:

If a body is in equilibrium (not turning), the total clockwise moment equals the total anticlockwise moment.

$\text{Clockwise Moment} = \text{Anticlockwise Moment}$

📏 Applications:
- See-saws
- Levers
- Spanners
- Wheelbarrows
- Door handles
🛠️ Levers:

A lever is a rigid bar that rotates about a fixed point called a pivot or fulcrum.

Classes of Levers:

Class Order of Parts (from one end to the other) Example
1st Load – Fulcrum – Effort Seesaw, scissors
2nd Fulcrum – Load – Effort Wheelbarrow
3rd Fulcrum – Effort – Load Tongs, human arm

🧠 Key Concepts:
- The larger the distance from the pivot, the greater the moment.
- Using longer tools (like spanners) increases turning effect.
- Balancing beams and levers uses the principle of moments.