When the displacement in S.H.M is one third of the amplitude, the fraction of the potential energy to total energy is

When the displacement in S.H.M. IS 1/3 ^rd of the amplitude. What fraction of total energy is kinetic energy and what fraction is potential energy ?

Name the folowing The sum of the potential energy and the kinetic energy

A particle is performing linear S.H.M of amplitude a. What fraction of the total energy is kinetic, given the displacement is half the amplitude

Explain the difference between potential energy and Kinetic energy.

A particle is executing S.H.M. along a straight line. The graph showing the variation of kinetic, potential and total energy K, U and T respectively with displacement is -

For a particle executing S.H.M., the displacement x is given by x=Acosωt. Identify the graph which represents the variation of potential energy (U) as a function of time t and displacement x.

A simple pendulum is oscillating with amplitude 'A' and angular frequency ' omega ' . At displacement 'x' from mean position, the ratio of kinetic energy to potential energy is

At the mean position, the potential energy of a particle performing S.H.M. is

A particleis performinglinearS.H.Mof amplitude a. What fraction of the total energy is kinetic, if the displacement is half of the amplitude?

A particle is performing linear S.H.M.at a point A, on the path , its potential energy is three times kinetic energy . At another point B on the same path, its kinetic energy is 3 times the potential energy. The ratio of the kinetic energy at A to its kinetic energy at B is