A body of mass 0.50kg is executing SHM Its period is 0.1 s and amplitude 10cm. When the body is at a distance of 5cm from the mean postion, find i its accelration ii force acting upon it and ii its potential energy.

A body of mass 5g is executing SHM with amplitude 10cm , its velocity is 100cm//s . Its velocity will be 50cm//s at a displacement from the mean position equal to

A body of mass 0.1 kg is executing SHM of amplitude 1.0 m and period 0.2 s. what is 2 cm. find the time period.

A particle of mass 0.5g is executing SHM with a time period of 2s and an amplitude of 5 cm. Calculate its (i) maximum velocity, (ii) maximum acceleration and (iii) velocity, acceleration and force acting on the particle when it is at a distance of 4 cm from its position of equilibrium.

A particle executes SHM of amplitude A .At what distance from the mean position is its kinetic energy equal to its potential energy?

A body of mass 1 gram executes a linear S.H.M. of period 1.57 s. If its maximum velocity is 0.8 m/s, then its maximum displacement from the mean position is

A small body of mass 0.10 kg is executing S.H.M. of amplitude 1.0 m and period 0.20 sec . The maximum force acting on it i

A small body of mass 0.10 kg is executing S.H.M. of amplitude 1.0 m and period 0.20 sec . The maximum force acting on it

A body of mass 200 g is executing a S.H.M. of amplitude 50 cm and period 1 s. The magnitude of maximum force acting on the particle is (use pi^(2)=10)

A particle performing SHM with amplitude 10cm . At What distance from mean position the kinetic energy of the particle is thrice of its potential energy ?

A particle performing SHM with amplitude 10cm . At What distance from mean position the kinetic energy of the particle is thrice of its potential energy ?