In case of simple harmonic motion –
(A) What fraction of total energy is kinetic and what fraction is potential when displacement is one half of the amplitude.

In case of simple harmonic motion - (a) What fraction of total energy is kinetic and what fration is potential when displacement is one hall of the amplitude. (b) At what displacement the kinetic and potential energies are equal.

In case of simple harmonic motion - (a) What fraction of total energy is kinetic and what fration is potential when displacement is one hall of the amplitude. (b) At what displacement the kinetic and potential energies are equal.

A particle executes SHM. (a) What fraction of total energy is kinetic and what fraction is potential when displacement is one half of the amplitude? (b) At what value of displacement are the kinetic and potential energies equal?

A particle executes SHM. (a) What fraction of total energy is kinetic and what fraction is potential when displacement is one half of the amplitude? (b) At what value of displacement are the kinetic and potential energies equal?

A particle is executing linear simple harmonic motion of amplitude 'A'. The fraction of the total energy is the kinetic when the displacement is half of the amplitude is

When the displacement is one-half the amplitude, what fraction of the total energy is kinetic and what fraction is potential? At what displacement is the energy half kinetic and half potential?

What fraction of the total energy is K.E. when the displacement is one half of a amplitude of a particle executing S.H.M?

At a time when the displacement is half the amplitude, what fraction of the total energy is kinetic and what fraction is potential in SHM?

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