Work Done (Edexcel IGCSE Physics (Modular))

Revision Note

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Katie M

Written by: Katie M

Reviewed by: Caroline Carroll

Work done

What is work done?

  • Work is done when an object is moved over a distance by a force applied in the direction of its displacement

    • It is said that the force does work on the object

    • If a force is applied to an object but doesn’t result in any movement, no work is done

Work done and energy transfer

  • When work is done on an object, energy is transferred

  • The amount of energy transferred (in joules) is equal to the work done (also in joules)

energy transferred (J) = work done (J)

Work done pushing a box

work-force-object, IGCSE & GCSE Physics revision notes

Work is done when a force is used to move an object over a distance, and energy is transferred from the person to the box

  • If a force acts in the direction that an object is moving, then the object will gain energy (usually to its kinetic energy store)

  • If the force acts in the opposite direction to the movement, then the object will lose energy (dissipated to the surroundings, usually by heating)

Examples of work done

  • Work is done on a ball when it is lifted to a height 

    • The energy is transferred mechanically from the ball's kinetic energy store to its gravitational potential energy store

Work done on a ball

Work Done ball, downloadable IGCSE & GCSE Physics revision notes

The weight on the ball produced by the gravitational field does work on the ball over a distance  

  • Work is done when a bird flies through the air

    • The bird must travel against air resistance, therefore energy is transferred from the bird's kinetic store to its thermal store and dissipated to the thermal store of the surroundings

Work done by a bird

Work Done bird, downloadable IGCSE & GCSE Physics revision notes

 The bird does work against air resistance (drag) as it flies through the air

Calculating work done

The work done equation

  • The amount of work that is done is related to the magnitude of the force and the distance moved by the object in the direction of the force

  • To calculate the amount of work done on an object by a force, the work done equation is used:

W = f × d

  • Where:

    • W = work done in joules (J) or newton-metres (N m)

    • F = force in newtons (N)

    • d = distance in metres (m)

Work done formula triangle

Work triangle (3), IGCSE & GCSE Physics revision notes

Work, force, distance formula triangle

  • For help with how to use formula triangles, see the revision note on Speed

Worked Example

A car moving at speed begins to apply the brakes. The brakes of the car apply a force of 500 N which brings it to a stop after 23 m.

braking-work, IGCSE & GCSE Physics revision notes

Calculate the work done by the brakes in stopping the car.

Answer: 

Step 1: List the known quantities

  • Distance, d = 23 m

  • Force, F = 500 N

Step 2: Write out the equation relating work, force and distance

W = F × d

Step 3: Calculate the work done on the car by the brakes

W = 500 × 23

W = 11 500 J

Examiner Tips and Tricks

Remember to always convert the distance into metres and force into newtons so that the work done is in joules or newton-metres

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Katie M

Author: Katie M

Expertise: Physics

Katie has always been passionate about the sciences, and completed a degree in Astrophysics at Sheffield University. She decided that she wanted to inspire other young people, so moved to Bristol to complete a PGCE in Secondary Science. She particularly loves creating fun and absorbing materials to help students achieve their exam potential.

Caroline Carroll

Author: Caroline Carroll

Expertise: Physics Subject Lead

Caroline graduated from the University of Nottingham with a degree in Chemistry and Molecular Physics. She spent several years working as an Industrial Chemist in the automotive industry before retraining to teach. Caroline has over 12 years of experience teaching GCSE and A-level chemistry and physics. She is passionate about creating high-quality resources to help students achieve their full potential.