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))

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)

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 :

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 :

A block of mass 250 g slides down an incline of inclination 37^0 with a uniform speed. Find the work done against the friction as the block slides through 1.0 m.

Calculate the velocity with which a solid cylinder rolls down an inclined plane of height 10m with slipping (take g=10m//s^(2) )

Calculate the velocity with which a solid cylinder rolls down an inclined plane of height 10m with slipping (take g=10m//s^(2) )

A block of mass m is moving down with constant velocity along an inclined plane of inclination theta . What is the work done by external force in pulling the block along the inclined plane through a height h with constant velocity?

A body of mass 0.3 kg is taken up an inclined plane of length 10 m and height 5 m, and then allowed to slide down the bottom again. The coefficient of friction between the body and the plane is 0.15. What is the (i) work done by the applied force over the upward journey? (ii) work the by gravitational force over the round trip? (iii)work the by the frictional force over the round trip? Which of the above forces (except applied force )is/are conservative forces?