In the above question, the velocity of the rear `2kg` block after it separates from the spring will be-

In the above question, the value of its angular velocity after 2 seconds will be:

In the above question, find the amplitude ofoscilation of the block in the reference frame of point A of the spring-

A 20-kg block attached to a spring of spring constant 5Nm^-1 is released from rest at A. The spring at this instant is having an elongation of 1m . The block is allowed to move in smooth horizontal slot with the help of a constant force 50N in the rope as shown. The velocity of the block as it reaches B is (assume the rope to be light)

In the above question, if another body is at rest, then velocity of the compound body after collision is

In figure, a block A of mass 2kg is moving to the right with a speed 5m//s on a horizontal frictionless surface. Another block B of mass 3kg a massless spring of spring constant 222N//m attached to it, is moving to the left on the same surface and with a speed 2m//s . Let us take the direction to the right as the positive X- direction. At some instant, block A collides with the spring attached to block B . At some other instant , the spring has maximum compression and then, finally, blocks move with their final velocities. Assuming that (i) the spring force is conservative and so there is no conversion of kinetic energy to internal energy and (ii) , no sound is made when block A hits the spring, answer the following questions. Final velocity of centre of mass of the system of blocks A and B will be :

Both the blocks are given same velocity towards right. In how much time , the smaller block will separate from the large block.

A block of mass m attached in the lower and vertical spring The spring is hung from a calling and force constant value k The mass is released from rfest with the spring velocity unstrached The maximum value praduced in the length of the spring will be

A metal block of density 6000 kg m^(-3) and mass 1.2 kg is respended throught a spring of spring constant 200Nm^(-1) .The spring - block system is dipped in water kept in a vessel .The water has a mass of 250g and the block is at a height 40cm above the bottom of the vassel .If the support to the spring is broken , what will be the rise in the temperature of the water specific beat capacity of the block is 250J kg^(-1)K^(-1) and that of water is 4200J kg^(-1)K^(-1) Head capacities of the vessel and the spring are nogligible