A body executing S.H.M.along a straight line has a velocity of `3 ms^(-1)` when it is at a distance of 4m from its mean position and`4ms^(-1)` when it is at a distance of 3m from its mean position.Its angular frequency and amplitude are

A particle executing simple harmonic motion along a straight line. The velocity of the particle is 5ms^(-1) , when it is at a distance of 4 m from mean position and 3ms^(-1) , when at a distance of 9 m from mean position. Calculate the time taken by the particle to travel 3 m from the positive extremity of oscillation.

A particle executing SHM along a straight line has a velocity of 4ms^(-1) , and at a distance of 3m from its mean position and 3ms^(-1) , when at a distance of 4m from it. Find the time it take to travel 2.5m from the positive extremity of its oscillation.

A particle executing S.H.M. is given by x=10sin(8t+pi//3)m . Its velocity when it is at a distance 6 m from the mean position is,

A particle executing a SHM has maximum acceleration at a distance of 0.5 cm from its mean position is 2cm//s^(2) . What will be its velocity when it is at a distance of 1 cm from its mean position.

A particle executing SHM has amplitude of 4cm, and its acceleration at a distance of 1cm from the mean position is 3cm^(-2) . What will its velocity be when it is at a distance of 2 cm from its mean position?

A particle describes SHM along a straight line with a period of 2 s and amplitude 10 cm. Its velocity when it is at a distance of 6 cm from mean position is

A particle executing SHM has a velocity of 2 ms^(-1) when its displacement from mean position is 1 cm and a velocity of 1 ms^(-1) when its displacement is 2 cm. Its amplitude of oscillationis