A vertical spring of force cosntant `100 N//m` is attached with a hanging mass of 10 kg. Now an external force is applied on the mass so that the spring is stretched by additional 2m. The work done by the force F is `(g = 10 m//s^(2))`

In spring constant of the spring is 100 N//m Extension produced in the spring is: (g=10 m//s^(2))

Certain force acting on a 20 kg mass changes its velocity from 5m//s to 2m//s . calculate the work done by the force.

A body of mass 10 kg is dropped to the ground from a height of 10 metres. The work done by the gravitational force is (g=9.8m//sec^(2))

A toy used for firing a ball vertically consists of a vertical spring which is compressed by 0.1 m by u"sin"g a force of 10 N. A ball of mass 0.050 kg is placed on the compressed spring and the spring is released. The ball will reach a height of ( Use g=10 m//s^(2))

A vertical spring carries a 5kg body and is hanging in equilibrium an additional force is applied so that the spring is further stretched. When released from this position. It performs 50 complete oscillation in 25 s, with an amplitude of 5 cm. The additional force applied is

20 J work is required to stretch a spring through 0.1 m . Find the force constant of the spring. If the spring is further stretched through 0.1 m. Calculate work done.

A block of mass 1kg is connected with a massless spring of force constant 100 N//m . At t = 0 , a constant force F = 10N is applied on the block. The spring is in its netural length at t = 0 . The speed of particel at x = 6cm form mean position is

An external unknown horizontal force F pulls a smooth block of mass m attached with an ideal spring of stiffness k. Block is initially at rest and spring is relaxed. Find the work done (in J) by the force F, when the block moves with a velocity v and the deformation of the spring is x (k = 25 N/m, v = 1 m/s, m = 1 kg, x =20 cm)