500 J of work is done in sliding a 4 kg block up along a rough inclined plane to a vertical height of 10 m slowly. The work done against friction is `(g = 10 m/s^2)`

300J of work is done in slinding a 2 kg block up an inclined plane of height 10m. Taking g = 10m//s^(2) , work done against friction is

If 250 J of work is done in sliding a 5 kg block up an inclined plane of height 4 m. Work done against friction is (g=10ms^(-2))

If 250 J of work is done in sliding a 5 kg block up an inclined plane of height 4 m. Work done against friction is (g=10ms^(-2))

A block of mass m slides down a rough inclined plane with an acceleration g/2

A block of mass 2kg slipped up a slant plane requires 300J of work. If height of slant is 10m the work done against friction is :

A crane pulls up a car of mass 500 kg to a vertical height of 4 m. Calculate the work done by the crane.

A body is mass 300 kg is moved through 10 m along a smooth inclined plane of inclination angle 30^@ . The work done in moving (in joules) is (g = 9.8 ms^(-2)) .

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 block of mass 50 kg slides over a horizontal distance of 1m. If the coefficient of friction between their surface is 0.2, then work done against friction is (take g = 9.8 m//s^(2) ) :

When a body of mass M slides down an inclined plane of inclination theta , having coefficient of friction mu through a distance s, the work done against friction is :