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.

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)

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

A man of weight W is standing on a lift which is moving upward with an acceleration a. The apparent weight of the man is

On applying a force F, point P is displaced vertically down by y from equilibrium positionl. Find force F in terms of the force constant k of the spring and displacement y, for the cases (a) and (b), as shown in fig.

On applying a force F the mass M is displaced vertically down by from equilibrium position, Find the force F in terms of the force constant k of the spring and displacement y for the cases (A) and (B) as shown in

Initially the spring is undeformed. Now the force F is applied to B as shown in the figure. When the displacement of B w.r.t. A is x towards right in some time then relative acceleration of B w.r.t. A at that moment is:

An agent applies force of constant magnitude F_(0) always in the tangential direction as shown in the figure -3.77 . Find the speed of the bob when string becomes horizontal, assuming that it is at rest at its lowest point:

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.