A body is performing SHM, then its

A body is performing SHM At a displacement X_1 , its potential energy is 4 J and at a displacement X_2 , its potential energy is 9 J. The potential energy at a displacement (X_1 + X_2) is

Two bodies performing S.H.M. have same amplitude and frequency. Their phases at a certain instant are as shown in the figure. The phase difference between them is

A body is executing S.H.M. when its displacement from the mean position is 4 cm and 5 cm, the corresponding velocity of the body is 10 cm/sec and 8 cm/sec. Then the time period of the body is

A body is performing simple harmonic motion with amplitude a and time period T variation of its acceleration (f) with time (t) is shown in figure If at time t velocity of the body is v which of the following graph is correct?

A body is performing simple harmonic motion with amplitude a and time period T variation of its acceleration (f) with time (t) is shown in figure If at time t velocity of the body is v which of the following graph is correct?

A body is performing simple harmonic motion of amplitude A and time period T. The figure shown position-time graph of the body . At any time t, acceleration of the body is f, then which of the following graphs is/are appropriate?

A body performs S.H.M. Its kinetic energy K varies with time t as indicated by graph

Two particles are performing SHM in same phase. It means that

A particle is performing S.H.M. Its total energy ie E When the displacement of the particle is half of its amplitude, its K.E. will be

A particle performing SHM takes time equal to T (time period of SHM ) in consecutive appearances at a perticular point. This point is :