A particle executing SHM has velocities `u` and `v`` and acceleration `a` and `b` in two of its position. Find the distance between these two positions.

A particle executing SHM has velocities v_(1), v_(2) and accelerations f_(1), f_(2) at two of its positions A and B on the same side of the equilibrium position. Find the angular frequency of the SHM.

A particle executes SHM on a straight line. At two positions, its velocities are u and v whle accelerations are alpha and beta respectively [beta gt alpha gt ] .The distance between these two positions is

A particle executes SHM on a straight line. At two positions, its velocities are u and v while accelerations are alpha and beta respectively [beta gt alpha gt 0] . The distance between these two positions is

A particle performs linear S.H.M. At a particular instant, velocity of the particle is 'u' and acceleration is ' prop ' while at another instant, velocity is 'v' and acceleration ' beta ' (0ltpropltbeta) . The distance between the two position is

A particle performs linear S.H.M. At a particular instant, velocity of the particle is 'u' and acceleration is ' prop ' while at another instant, velocity is 'v' and acceleration ' beta ' (0ltpropltbeta) . The distance between the two position is

A particle performs linear S.H.M. At a particular instant, velocity of the particle is u and acceleration is alpha while at another instant, velocity is v and acceleration beta (0ltalphaltbeta) . The distance between the two position is