The Principle of Moments

Forces and Rotation

Forces can cause the rotation of an object about a fixed pivot
This rotation can be clockwise or anticlockwise

Clockwise and Anti-clockwise Rotation

Consider the hands of a clock when deciding if an object will rotate in a clockwise or anti-clockwise direction

A force applied on one side of the pivot will cause the object to rotate

An Object Rotating Clockwise About a Pivot

pivot-force-igcse-and-gcse-physics-revision-notes

The force will cause the object to rotate clockwise about the pivot

Examples of the rotation caused by a force are:
- A child on a see-saw
- Turning the handle of a spanner
- A door opening and closing
- Using a crane to move building supplies
- Using a screwdriver to open a tin of paint
- Turning a tap on and off
- Picking up a wheelbarrow
- Using scissors

Moments

A moment is defined as:

A turning force about a pivot

The size of a moment is defined by the equation:

M = F × d

Where:
- M = moment in newton metres (N m)
- F = force in newtons (N)
- d = distance perpendicular to the direction of the force in metres (m)
The forces should be perpendicular to the distance from the pivot
- For example, on a horizontal beam, the forces which will cause a moment are those directed upwards or downwards

The Moments on a Spanner

moment-of-force, IGCSE & GCSE Physics revision notes

The moment depends on the force and perpendicular distance to the pivot

Increasing the distance a force is applied from a pivot decreases the force required
- If you try to push open a door right next to the hinge it is very difficult, as it requires a lot of force
- If you push the door open at the side furthest from the hinge then it is much easier, as less force is required

Forces Required to Open a Door

2-4-door-momentts-example

A greater force is required to push open a door next to the hinges than at the door handle

The Principle of Moments

The principle of moments states that:

For a body in equilibrium, the sum of the clockwise moments equals the sum of the anticlockwise moments about the same pivot

A body in equilibrium means the moments on both sides of the pivot are equal and balanced

Clockwise and Anticlockwise Moments

Imagine holding the beam about the pivot and applying just one of the forces. If the beam moves clockwise then the force applied is clockwise.

In the example below, the forces and distances of the objects on the beam are different, but they are arranged in a way that balances the whole system

Using the Principle of Moments

balanced-seesaw, IGCSE & GCSE Physics revision notes

The clockwise and anticlockwise moments acting on a beam are balanced

In the above diagram:
- Force $F_{1}$ causes an anticlockwise moment of $F_{1} \times d_{1}$ about the pivot
- Force $F_{2}$ causes a clockwise moment of $F_{2} \times d_{2}$ about the pivot
- Force $F_{3}$ causes an anticlockwise moment of $F_{3} \times d_{3}$ about the pivot

Collecting the clockwise and anticlockwise moments:
- Sum of the clockwise moments = $F_{2} \times d_{2}$
- Sum of the anticlockwise moments = $(F_{1} \times d_{1}) + (F_{3} \times d_{3})$

Using the principle of moments, the beam is balanced when:

Sum of the clockwise moments = Sum of the anticlockwise moments

$F_{2} \times d_{2} = (F_{1} \times d_{1}) + (F_{3} \times d_{3})$

Worked example

A parent and child are at opposite ends of a playground see-saw. The parent weighs 690 N and the child weighs 140 N. The adult sits 0.3 m from the pivot.

Principle of Moments Worked Example GCSE, downloadable IGCSE & GCSE Physics revision notes

Calculate the distance the child must sit from the pivot for the see-saw to be balanced.

Answer:

Step 1: List the known quantities

Clockwise force (child), F_child = 140 N
Anticlockwise force (adult), F_adult = 690 N
Distance of adult from the pivot, d_adult = 0.3 m

Step 2: Write down the relevant equation

Moments are calculated using:

Moment = force × distance from pivot

For the see-saw to balance, the principle of moments states that

Total clockwise moments = Total anticlockwise moments

Step 3: Calculate the total clockwise moments

The clockwise moment is from the child

Moment of child (clockwise) = F_child × d_child

Moment of child (clockwise) = 140 × d_child

Step 4: Calculate the total anticlockwise moments

The anticlockwise moment is from the adult

Moment of adult (anticlockwise) = F_adult × d_adult

Moment of adult (anticlockwise) = 690 × 0.3 = 207 N m

Step 5: Substitute into the principle of moments equation

Moment of child (clockwise) = Moment of adult (anticlockwise)

140 × d_child = 207

Step 6: Rearrange for the distance of the child from the pivot

d_child = $\frac{207}{140}$ = 1.5 m

The child must sit 1.5 m from the pivot to balance the see-saw

Exam Tip

Make sure that all the distances are in the same units and that you’re considering the correct forces as clockwise or anticlockwise. In your WJEC GCSE you will not be expected to apply the principle of moments to a situation other than the balance beam on a pivot.

The Principle of Moments (WJEC GCSE Physics)

Revision Note

The Principle of Moments

Forces and Rotation

Clockwise and Anti-clockwise Rotation

An Object Rotating Clockwise About a Pivot

Moments

The Moments on a Spanner

Forces Required to Open a Door

The Principle of Moments

Clockwise and Anticlockwise Moments

Using the Principle of Moments

Worked example

Exam Tip

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Author: Ann H