A body executes SHM of time period 8 s. if its mass be 0.1 kg, its velocity 1 sec after it passes through its mean position be `4ms^(-1)`, find its (i) kinetic energy (ii) potential energy and (iii) total energy.

A body executed SHM of time period 6s. If its mass be 0.1kg, its velocity, 1s after it passes throuh mean position be 3ms^(-1) , find its (i) KE (ii) PE and (iii) total energy.

A body weighing 20 g has a velcoity 8cms^(-1) after one second of its starting from mean position. If the time period is 8 seconds, find the kinetic energy, potential energy and total energy.

A body is executing SHM with an amplitude of 0.1 m. Its velocity while passing through the mean position is 3ms^(-1) . Its frequency in Hz is

A body weighing 10g has a velocity of 6cms^(-1) after one second of its starting from mean position. If the time period is 6 seconds. Find the kinetic energy, potential energy and the total energy.

If A is amplitude of a particle in SHM, its displacement from the mean position when its kinetic energy is thrice that to its potential energy

A body of mass 20 g acquires a velocity of 5 cm/s after one second of its starting from the mean position. If the time period of motion is 5 seconds, calculate the kinetic energy, potential energy and total energy of the body.

A oscillator of mass 10kg has a velocity of 5 ms^(-1) after 1 second of its crossing the mean position. If the time period is 5s. Find the potential energy and kinetic energy at that instant.

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 body executes S.H.M. of period 20 seconds. Its velocity is 5 cm s^(-1) , 2 seconds after it has passed the mean position. Find the amplitude of the bob ( cos 36^(@) = 0. 809 )

The time period of a particle executing SHM is T . After a time T//6 after it passes its mean position, then at t = 0 its :