A block of mass 1 kg is placed inside a car of mass 5 kg , as shown . The block can slide smoothly along horizontal direction. If block is displaced slightly and released , then time period of osciallation is

Two springs, each of spring constant k , are attached to a block of mass m as shown in the figure. The block can slide smoothly alongs a horizontal platform clamped to the oppsite walls of the trolley of mass M . If the block is displaced by x cm and released, the period of oscillaion is :

Two springs, each of spring constant k , are attached to a block of mass m as shown in the figure. The block can slide smoothly alongs a horizontal platform clamped to the oppsite walls of the trolley of mass M . If the block is displaced by x cm and released, the period of oscillaion is :

A block of mass m is connected to three springs as shown in Fig. The block is displaced down slightly and left free, it starts oscillating. Find time period of oscillations.

A block of mass 4 kg is placed on another block of mass 5 kg and the block B rests on a smooth horizontal table. If the maximum force that can be applied on A so that both the blocks move together is 12N, find the maximum force that can be applied on B for the blocks to move together.

Two springs, each of spring constant k = 100N/m are attached to a block of mass 2kg as shown in figure. The block can slide smoothly along horizontal platform clamped to the opposite walls of a trolley of mass 5kg. The block is slightly displace dand then released. The period of oscillation is (in seconds). (all surfaces are smooth)

Two springs, each of spring constant k = 100N/m are attached to a block of mass 2kg as shown in figure. The block can slide smoothly along horizontal platform clamped to the opposite walls of a trolley of mass 5kg. The block is slightly displace dand then released. The period of oscillation is (in seconds). (all surfaces are smooth)