Graph shows the `x(t)` curves for the three experiments involving a particular spring block system oscillating in SHM. The kinetic energy of the system is maximum at `t=4` s. For the situation.

The figure below shows a graph of potential energy U(s) verses position x for a particle executing on edimensional motion along the x axis. The total mechanical energy of the system is indicated by the dashed line. At t=0 the particle is somewhere between points A and G. For later times choose the correct statement:-

While comparing the L-C oscillations with the oscillations of spring-block system, with whom the magnetic energy can be compared and why?

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

In S.H.M., potential energy (U) V/s, time (t) . Graph is

i.The acceleration versus time graph of a partical SHM is shown in the figure . Plot the displacement versus time graph ii. The frequency of oscillation is…….. iii. The displacement amplitude is ……… iv. At t = 0 , the velocity of the partical is ...... v. The kinetic energy of the partical is maximum at t = ....... and t = ...... vi. The potential energy is maximum at t = ....... : t = ..... ans t = .........

Two identical blocks A and B, each of mass m=3kg , are connected with the help of an ideal spring and placed on a smooth horizontal surface as shown in Fig. Another identical blocks C moving velocity v_0=0.6(m)/(s) collides with A and sticks to it, as a result, the motion of system takes place in some way Based on this information answer the following questions: Q. Oscillation energy of the system i.e. part of the energy which is oscillating between potential and kinetic forms

Two identical blocks A and B, each of mass m=3kg , are connected with the help of an ideal spring and placed on a smooth horizontal surface as shown in Fig. Another identical blocks C moving velocity v_0=0.6(m)/(s) collides with A and sticks to it, as a result, the motion of system takes place in some way Based on this information answer the following questions: Q. Oscillation energy of the system i.e., part of the energy which is oscillation (changing) between potention and kinetic forms is

Maximum kinetic energy of a particle of mass 1 kg in SHM is 8 J. Time period of SHM is 4 s. Maximum potential energy during the motion is 10 J. Then

The x-t graph of a particle undergoing simple harmonic motion is shown below. The accelertion of the particle at t = 4//3 s is

Figure shows three systems in which a block of mass m can execute S.H.M. What is ratio of frequency of oscillation?