A block of mass m is suspended by different springs of force constant shown in figure.

A block of mass 3m is suspended by a meter scale rod of mass m as shown in figure. If the tension in the string A is equal to kmg in equilibrium, then value of k will be

A block of mass 10 kg is suspended throug two light spring balances as shown in figure

A block of M is suspended from a vertical spring of mass m as shown in the figure. When block is pulled down and released the mass oscillates with maximum velocity v .

A block of mass m suspended from a spring of spring constant k . Find the amplitude of S.H.M.

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

A body of mass m is suspended from three springs as shown in figure. If mass m is displaced slightly then time period of oscillation is

A block is suspended by an ideal spring of force constant force F and if maximum displacement of block from its initial mean position of rest is x_(0) then

A block of mass m is attached with a spring of force constant k. The block is kept on a frictionless plank. Mass of the plank is M and it is also kept on a horozontal frictionless surface. Initially the sysetm is stationaryl. An impulse p is applied on the block as shown. The maximum copression in the spring will be

A body of mass 5 kg is suspended by a spring balance on an inclined plane as shown in figure. The spring balance measure

A block of mass m held touching the upper end of a light spring of force constant K as shown in figure. Find the maximum potential energy stored in the spring if the block is released suddenly on the spring.