3. An elastic body regains its original shape
and size after being stretched or compressed
Hooke’s law: The extension (e) in an elastic
material is proportional to the load or
applied force F.
F α e
F = ke ......................k = elastic constant
5. Energy and work done on springs
and elastic strings
Work is done when an elastic material is
stretched or compressed
W = average force x extension = ½ Fe
Remember from Hooke’s law F = ke
W = ½ ke x e = ½ ke2
6. Elastic potential energy
Elastic potential energy is also given as =>
½ Fe = ½ ke2
This is because the elastic potential is stored
energy tht can be used to stretch or compress
an elastic material.
During compression or extension the stored
energy is used to do the work. So the same
potential energy is onverted to kinetic energy
during the process.
Remember Law of conservation of energy,
PE+KE = 0; PE = KE