A body is executing SHM with amplitude a and time period T. The ratio of kinetic and potential energy when displacement from the equilibrium position is half the amplitude

A particle executes SHM with amplitude A and time period T. When the displacement from the equilibrium position is half the amplitude , what fractions of the total energy and kinetic and potential?

A particle executes SHM with amplitude A and time period T. When the displacement from the equilibrium position is half the amplitude , what fractions of the total energy are kinetic and potential energy?

The ratio of the kinetic to potential energy of a particle in SHM, when its displacement is one-half the amplitude, is

The kinetic energy of paritcle executing SHm will be equal to ((1)/(8))^(th) of its potential energy when its displacement from the mean position is (Where A is the amplitude) :