A body describes S.H.M. in a path `0.12 m` long. Its velocity at the centre of the line is `0.12 m/s`. Find the period , and magnitude of velocity at a distance `sqrt(3) xx 10^-2m` from the central position.

A particle executes S.H.M with amplitude of 10 cm and period of 10 s. Find the velocity of the particle at a distance 5 cm from the equilibrium position.

The velocities of particle performing linear S.H.M. are 4 cm/s and 3 cm/s when it is at 3 cm and 4 cm respectively from mean position. Find its period and amplitude . Also find its velocity when it is at 5 cm from the mean position.

A particle executes S.H.M with amplitude of 10 cm and period of 10 s. Find the acceleration of the particle at a distance 5 cm from the equilibrium position.

A particle of mass 200 gm, performs S.H.M ofamplitude 0.1 m and period 3.14 sec.. Its PE when it is at a distance of 0.03 m from the mean position is

A body of mass 5 gm is executing S.H.M. about a point with amplitude 10 cm. If its maximum velocity is 100 cm/s then its velocity will be 50 cm/s at a distance of

Velocities of three molecules are 2,3 and 4 m/s. Ratio of mean velocity to R.M.S velocity is

The amplitude and the periodic time of a S.H.M. are 5 cm and 6 sec respectively. At a distance of 2.5 cm away from the mean position, the phase will be

A particle is moving with velocity 5 m/s towards east and its velocity changes to 5 m/s north in 10 s. Find the acceleration.

A particle performs S.H.M. of period 12 second and amplitude 8 cm. If initially the particle is at the position extremity , how much time will it take to cover a distance of 6 cm from the extreme position ?

The velocity of kerosene oil in a horizontal pipe is 5 m/s. if g = 10 m/s^2 , then the velocity head of oil will be