A block is hanging in a lift as shown in figure. If lift is falling freely then time period of block is

A block is hanging with a light string in a lift as shown in the figure (a). The lift is moving in upward direction and its speed time graph is plotted as shown in the figure (b) : (take g = 10 m//s^(2) )

A body of mass 50 kg is suspended using a spring balance inside a lift at rest. If the lift startts falling freely, the reading of the spring balance is

A block is equilibrium at rest in a lift as shown in figure. Now lift starts acclerating. The minimum magnitude of acceleration of lift for which block will touch the floor of lift, is

Statement-1: A block is immersed in a liquid inside a beaker which is falling freely buoyant force acting on block is zero. Statement-2: In case of freely falling liquid there is no pressure difference between any two points.

A block of mass m compresses a spring iof stifffness k through a distacne l//2 as shown in the figure .If the block is not fixed to the spring the period of motion of the block is

A block of mass m lie on a horizontal smooth surface and connected with the springs at their natural length as shown in figure. When block slightly displaced then find the time period of oscillation.

A block is released from point A as shown in figure .All surfaces are smooth and there is no loss of mechnical energy anywhere. Find the time period of oscillation of block.

In the figure shown acceleration of the block is

Power of a force acting on a block varies with time t as shown in figure. Then, angle between force acting on the block and its velocity is

A block of mass 'm' is released on the top of a frictionless incline as shown in the figure. The time period of the oscillation of the block is