The amplitude of a simple pendulum is 10 cm. When the pendulum is at a displacement of 4 cm from the mean position, the ratio of kinetic and potential energies at that point is

The amplitude of a simple pendulum is 10cm. When the pendulum is at a displacement of 4cm from the mean position, the ratio of kinetic and potential enegies at that point 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 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………..

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?

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.

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

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

The figure below shows a simple pendulum of mass 200 g. It is displaced from the mean position A to the extreme position B. The potential energy at the position A is zero. At the position B the pendulum bob is raised by 5 m. (i) What is the potential energy of the pendulum at the position B? (ii) What is the total mechanical energy at point C? (iii) What is the speed of the bob at the position A when released from B ? (Take g = 10ms^(-2) and there is no loss of energy.)