The angular velocity and amplitude of simple pendulum are `omega` and r respectively. At a displacement x from the mean position, if its kinetice energy is T and potential energy is U, find the ration of T to U.

The amgular velocity and the amplitude of a simple pendulum is omega and a respectively. At a displacement x from the mean position, if its kinetic energy is T and potential energy is U, then the ratio of T to U is

The amgular velocity and the amplitude of a simple pendulum is omega and a respectively. At a displacement x from the mean position, if its kinetic energy is T and potential energy is U, then the ratio of T to U is

The angular velocity and the amplitude of a simple pendulum is omega and A respectively. At a displacement x from the mean position if its kinetic energy is k and potential energy U, then the ratio of K and U is………..

The angular velocity and amplitude of a simple pendulum are .w. and A respectively. At a displacement .x.. If its KE is .T. and PE is .U. then the ratio of .T. to .U. is

The angular velocity and the amplitude of a simple pendulum are omega and a, respectively. The ratio of its kinetic and potential energies at a displacement x from the mean position is……………

Amplitude of a SHO is sqrt(5) cm . At what displacement from the mean position the ratio of kinetic energy to potential energy is 4?