A weight W is lifted by applying a force F as shwon in Figur. Find F in terms of W. Assume constant velocity.

A block of weight W is placed on a wedge and arranged as shown in fig. find the force F needed to hold the cart equilibrium if there is no friction.

A sphere of weight w = 100N is kept stationary on a rought inclined plane by a horizontal string AB as shown in figure. Find (a)tension in the string, (b) force of friction on the sphere and (c)normal reation on the sphere by the plane.

In the adjacent figure blocks A and B of weight W each are lying at rest on a rough horizontal surface. They are pulled by applying forces F_(1) and F_(2) as shown in figure. When blocks are in limiting equilibrium F_(2)=5F_(1) Choose the correct statement (s) (Assume same coefficient of friction for both the blocks)

Ring is fixed on the horizontal surface and a rod starts rotatiing with constant angular velocity omega fixed at O as shown in the figure. Find the magnitude of velocity of intersection points of rod and ring when aplha become 90^(@)

A force of constant magnitude F_(0) is applied in the tangential direction as shown in the figure. Assume that the bob is at its lowest point initially.

A block weighs W is held against a vertical wall by applying a horizontal force F. The minimum value of F needed to hold the block is

In the figure shown a long conductor carries constant current I . A rod PQ of length l is in the plane of the rod.The rod is rotated about point P with constant angular velocity omega as shown in the figure.Find the e.m.f induced in the rod in the position shown.Indicate which points is at high potential.

A homogeneous block rests against a vertical wall for which the coefficient of friction is 1//2 . A force 'F' is applied to the block in the direction as shown in figure. Find the maximum magnitude of applied force 'F' such that block remains in rest.

A person used force (F) , shown in figure to move a load with constant velocity on given surface. Identify the correct surface profile:

A student pulls a wooden box along a rough horizontal floor( without the block loosing contact with the floor) at constant speed by means of a force P as shown to the right. (W is weights of block, N is normal reaction on the block, f is force of friction on the block). which of the following must be true?