If a body is executing simple harmonic motion, then

If a body is executing simple harmonic motion and its current displacement is (sqrt(3))/(2) times the amplitude from its mean position, then the ratio between potential energy and kinetic energy is

If a body is executing simple harmonic motion and its current displacement is sqrt(3)//2 times the amplitude from its mean position , then the ratio between potential energy and kinetic energy is

A body is executing simple harmonic motion with frequency 'n' the frequency of its potential energy is

A body is executing simple harmonic motion with an angular frequency s rad/2 . The velocity of the body at 20 mm displacement, when the amplitude of motion is 60 mm , is

A body is executing simple harmonic motion with time period of 3 s. After how much time interval (from t = 0) the displacement will be (1)/(sqrt(2)) times of its amplitude ?

A body is executing simple harmonic motion under the action of a force F_(1) with time period 1 s. The time period is 2s when body is acted by another force F_(3) . What will be the total time period when both the forces are acting in same direction simultaneously ?

If a particle is executing simple harmonic motion, then acceleration of particle

A body is executing simple harmonic motion. At a displacement x, its potential energy is E_1 and a displacement y, its potential energy is E_2 . The potential energy E at a displacement (x+y) is

A body is executing a simple harmonic motion such that its potential energy is U_(1) at U_(2)at y When the displacement is x+y the potential energy will be