Two simple harmonic motions of angular frequencies 100 and 1000 rad/s have the same displacement amplitude. The ratio of their maximum acceleration is………….

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

A particle executing simple harmonic motion has angular frequency 6.28 s^(-1) and amplitude 10 cm . Find (a) the time period, (b) the maximum speed, (c) the maximum acceleration.

Three simple harmonic motions of equal amplitudes A and equal time periods in the same direction combine. The phase of the second motion is 60^@ ahead of the first and the phase of the third motion is 60^@ ahead of the second. Find the amplitude of the resultant motion.

The position velocity and acceleration of a particle executing simple harmonic motion are found to have magnitudes 2cm, 1ms^-1 and 10ms^-2 at a certain instant. Find the amplitude and the time period of the motion.

Show that for a simple harmonic motion, the phase difference between. (a) displacement and velocity is (pi)/(2) radian or (b) velocity and acceleration is (pi)/(2) radian or 90^(@) . (c) displacement and acceleration is pi radian or 180^(@)

A particle is subjected to two simple harmonic motions x_1=A_1 sinomegat and x_2=A_2sin(omegat+pi/3) Find the maximum speed of the particle and the maximum acceleration of the particle

A particle is subjected to two simple harmonic motions in the same direction having equal amplitudes and equal frequency. If the resultant amplitude is equal to the amplitude of the individual motions, find the phase difference between the individual motions.

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.

In a simple harmonic motion, when the displacement it one- half of the amplitude, what fraction of the total energy (E) is kinetic ?