A body makes angular simple harmonic motion of amplitude `pi//10rad` and time period `0.05s`. If the body is at a displacement `theta = pi//10 rad` at `t = 0`, write the equation giving angular displacement as a function of time.

A body makes angular simple harmonic motion of amplitude pi/10rad and time period 0.5s. If the body is at a displacement theta=pi/10 rad at t=0, write the equation giving the angular displacement as a function of time.

A particle is executing simple harmonic motion with an amplitude A and time period T. The displacement of the particles after 2T period from its initial position is

A particle starts simple harmonic motion from the mean position. Its amplitude is a and time period is T. what is its displacement when its speed is half of its maximum speed?

A particle executes simple harmonic motion with an amplitude of 10 cm and time period 6s. At t=0 it is at position x=5 cm going towards positive x-direction. Write the equation for the displacement x at time t. Find the magnitude of the acceleration of the particle at t=4s.

A particle executing simple harmonic motion with an amplitude 5 cm and a time period 0.2 s. the velocity and acceleration of the particle when the displacement is 5 cm is

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

A particle executing simple harmonic motion has amplitude of 1 m and time period 2 s . At t = 0 , net force on the particle is zero. Find the equation of displacement of the particle.

A simple pendulum performs simple harmonic motion about x=0 with an amplitude a ans time period T. The speed of the pendulum at x = (a)/(2) will be

Two simple harmonic motions of angular frequency 100 rad s^(-1) and 1000 rad s^(-1) have the same displacement amplitude. The ratio of their maximum accelerations is

If angular frequency of simple harmonic oscillator is 2 rad/s, then the graph between velocity and displacement is