The amplitude of oscillation of particles in `SHM` is `sqrt(3)cm`. The displacement from mean position at which its potential and kinetic energies are in the ratio `1:2` is

Amplitude of SHM particle is 4 cm. At what distance from mean positon will the potential energy and kinetic energy be equal?

If A is amplitude of a particle in SHM, its displacement from the mean position when its kinetic energy is thrice that to its potential energy

If A is amplitude of a particle in SHM, its displacement from the mean position when its kinetic energy is thrice that to its potential energy

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?

Amplitude of oscillation of a particle that executes SHM is 2cm . Its displacement from its mean position in a time equal to 1//6^(th) of its time period is

A particle is executing SHM of amplitude A. at what displacement from the mean postion is the energy half kinetic and half potential?

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 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