A block of weight W is suspended from the mid-point of a rope whose ends are at the same horizontal level. The force required to straighten the rope is

A weight w is suspended from the midpoint of a rope, whose ends are at the same level. In order to make the rope perfectly horizontal, the force applied to each of its ends must be

A weight w is suspended from the midpoint of a rope, whose ends are at the same level. In order to make the rope perfectly horizontal, the force applied to each of its ends must be

A weight mg is suspended from the middle of a rope whose ends are at the same level. The rope is no longer horizontal. Find the minimum tenstion required to completely straighten the rope.

Two persons are holding a rope of negligible weight tightly at its ends so that it is horizontal. A 15kg weight is attached to the mid point which is no longer remains horizontal. The minimum tension required to completely straighten the rope is:

A wire of cross section A is stretched horizontally between two clamps located 2l m apart. A weight W kg is suspended from the mid-point of the wire. If the mid-point sags vertically through a distance x lt l , the strain produced is

A body of weight W is suspended by a string It is pulled aside with a horizontal force of 2W and held at rest. The tension in it is

A body of weight w_1 is suspended from the ceiling of a room through as chain of weight w_2 . The ceiling pulls the chain by a force

A heavy rope is suspended from a rigid support A wave pulse is set up at the lower end, then

A heavy rope is suspended from a rigid support A wave pulse is set up at the lower end, then

A uniform of rope length L and mass M is placed on a smooth fixed wedge as shown. Both ends of rope are at same horizontal level. The rope is initially released from rest, then the magnitude of initial acceleration of rope is.