If T = time period and A = Amplitude then what is the time required to travel from x = A to x = `A/2` for any particle maintaing S.H.M.?

If the time period of an SHM is 2 s, then what will be its frequency?

If the time period is T then what will be the time taken by a particle executing SHM to traverse from the position of equilibrium to an extremity?

A particle executes SHM of period 1.2 s and amplitude 8 cm. Find the time it takes to travel 4 cm from the positive extremity of its oscillation.

What is time period of a particle moving in the equation sin^2wt .

If the time period and amplitude are T and A respectively, then find the time taken by a particle executing SHM to reach the position x=A/2 from x = A.

A particle executing SHM starts from one end of its path. If the time period of the particle is T, then what will be the ratio of its kinetic energy and potential energy after a time of T/12 ?

The position time relation of a moving particle is x = 2t - 3t^2 What is the maximum (+) ve velocity of the particle?