GCSE Physics AQA 8463

5.2: Work done and energy transfer

#5.2.1

Work done and energy transfer

When a force causes an object to move through a distance work is done on the object. So a force does work on an object when the force causes a displacement of the object.

The work done by a force on an object can be calculated using the equation:

work done=force×distance\text{work done} = \text{force} × \text{distance} (moved along the line of action of the force)

W=FsW = Fs

work done, W, in joules, J force, F, in newtons, N distance, s, in metres hrOne joule of work is done when a force of one newton causes a displacement of one metre.

1 joule = 1 newton-metre

Students should be able to describe the energy transfer involved when work is done. hrStudents should be able to convert between newton-metres and joules.

Work done against the frictional forces acting on an object causes a rise in the temperature of the object.

5.1
Forces and their interactions
5.3
Forces and elasticity