AQA GCSE Finding the resultant force, using the parallelogram rule part 2

AQA GCSE Finding the resultant force, using the parallelogram rule Part 2

Finding the resultant force, using the parallelogram rule Part 2

We can use the parallelogram rule to find the resultant force of two forces that do not act along the same line.

Lets look at an example:

Weight suspended by two ropes

The weight acts directly downwards and each rope has its own tension force.We need to construct a free body diagram for this picture, see below:

We need to set a scale for the diagram 1cm = 10N. This means that the 40N weight force will have a 4cm downward arrow.

Weight only arrow

T2 has an angle of 45º from the horizontal and T1 has an angle of  20º from the horizontal

free body diagram showing stages of parallelogram rule

The diagonal force arrow for T2 should be longer than the diagonal force arrow for T1 because T2 is closer to the vertical.

Now we need to complete the parallelogram. First the weight force that is acting downwards would have an equivalent force arrow acting upwards from the centre that is equal in size, so draw this in as a 4cm arrow up from the centre.

Parallelogram of forces using two ropes on weight

Now form the parallelogram, using two parallel lines.

Parallelogram of forces complete for two ropes holding a weight

A perfect parallelogram has been produced. You may be asked to give the size of the forces T1 and T2

Using the scale of 1cm = 10N. You can measure the length of T1 and T2, then apply the scale. In this case they should be approx 31N for T1 and 41N for T2

Practice Questions

1.A light bulb is suspended by two ropes to the ceiling as shown in the diagram below. The light bulb has a weight of 4N. 

Light bulb suspended from ceiling by two ropes. Used to show parallelogram of forces

Draw a free body diagram for the forces acting on the object. Assume that the ropes form an angle of 30 degrees from the horizontal. You will need to use the parallelogram rule to help you to answer this question. A useful scale might be 1cm = 1N.

2. The diagram below shows a large weight in equilibrium.

Weight suspended using two other weights

The line represented by Tension 1 is at an angle of 21º from the horizontal. The line represented by Tension 2 is at an angle of 32º from horizontal. You can assume that Tension 1 = 50N and Tension 2 = 56N. 

Draw a free body diagram to show this, using a scale of 1cm = 10N. Then use this free body diagram and parallelogram rule to calculate Weight 2. 

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