Consider the spring block system shown in the figure initially block m is in equilibrium. An impulse gives the block a velocity v upwards. Find the maximum speed of the block during the motion.

Consider the spring blcok system shoen in the figure initially block m is in equlibrium. An impulse gives the block a velocity v upwards. Find the maximum speed of the block during the motion.

Consider the spring block system shown in the figure. Initially block m is in equilibrium. Then block m is displaced b y a small distance h. Find the maximum speed of the block. ltbgt

A block of mass m, lying on a smooth horizontal surface, is attached to a spring (of negligible mass) of spring constant k. The other end of the spring is fixed, as shown in the figure. The block is initally at rest in its equilibrium position. If now the block is pulled withe a constant force F, the maximum speed of the block is :

Figure shown a spring block system hanging in equilibrium. If a velocity v_(0) is imparted to the block in downwards direction . Find the amplitude of SHM of the block and the time after which it will reach a point at half the amplitude of block

A block of mass m is suspened through a spring of spring constant k and is in equlibrium. A sharp blow gives the block an initial downward velocity v. How far below the equilibrium psitin, the block comes to an instantaneous rest?

In the figure shown, a spring of spring constant K is fixed at on end and the other end is attached to the mass 'm' . The coefficient of friction between block and the inclined plane is mu . The block is released when the spring is in tis natural length. Assuming that the theta gt mu , the maximum speed of the block during the motion is.

Find the elastic potential energy stored in each spring shown in figure, when the block is in equilibrium. Also find the time period of vertical oscillation of the block.

A block of mass 0.18 kg is attached to a spring of force-constant 2 N//m . The coefficient of friction between the block and the floor is 0.1 Initially the block is at rest and the spring is un-stretched. An impulse is given to the block as shown in the figure. The block slides a distance of 0.06 m and comes to rest for the first time. The initial velocity of the block in m//s is V = N//10 . Then N is : .

A spring is connected between two blocks as shown in the diagram. Initially the blocks are held stationary and suddenly they are released. Find the ratio of maximum kinetic energy with spring compressed the block of mass m to that of mass 2m.