A particle executing SHM has potential energy `U_0 sin^2 omegat`. The maximum kinetic energy and total energy respectively are

The particle executing simple harmonic motion has a kinetic energy K_(0) cos^(2) omegat . The maximum values of the potential energy and the total energy are respectively:

The particle executing simple harmonic motion has a kinetic energy K_(0) cos^(2) omega t . The maximum values of the potential energy and the energy are respectively

Energy of particle executing SHM depends upon

For a particle executing S.H.M., the kinetic energy K is given K = K_(0) cos ^(2)omega t . The maximum value of potential energy is:

The paricle executing simple harmonic motion had kinetic energy and the total energy are respectively:

An artificial satellite moving in circular orbit around the earth has total (kinetic + potential) energy E_(0) . Its potential energy and kinetic energy respectively are :

A particle performing SHM with amplitude A. Find the ratio of kinetic energy and total energy when particle is at A/2.

In a simple harmonic motion (i) the maximum potential energy equal the maximum kinetic energy (ii) the minimum potential energy equals the minimum kinetic energy (iii) the minimum potential energy equals the maximum kinetic energy (iv) the maximum potential energy equals the minimum kinetic energy

A particle is executing linear SHM . The average kinetic energy and avearge potential energy over a period of oscillation are K_(av) and U_(ev) Then