A ball is held at rest in position A by two light cords. The horizontal cord is now cut and the ball swings to the position B. What is the ratio of the tension in the cord in position B to that in position A?

A ball is held at rest in position A by two light strings. The horizontal string is now cut and the ball swings to the position B as shown in figure. If 5kg is the mass of the ball and g is the acceleration due to gravity, then tension in the string attached to the bob in position A is (xg)/(costheta) The value of 'x' is

Using two light cords a bob is held in equilibrium at A. The horizontal cord is cut and the bob is allowed to swing as a pendulum. Calculate the ratio of the tension in the supporting cord in position B to that in position A.

A ball of mass 1kg is at rest in position P by means two light strings OP and RP . The string RP is now cut and the ball swings to position Q . If theta =45^(@) . Find the tensions in the strings in position OP (when RP was not cut ) and OQ (when RP was cut ). (take g =10m//s^(2) ).

A ball of mass 1kg is at rest in position P by means two light strings OP and RP . The string RP is now cut and the ball swings to position Q . If theta =45^(@) . Find the tensions in the strings in position OP (when RP was not cut ) and OQ (when RP was cut ). (take g =10m//s^(2) ).

In the shown figure the tension in the horizontal cord is 30N. Find the weight of the body B.

In the shown figure the tension in the horizontal cord is 30N. Find the weight of the body B.

A small mass m and its supporting wire because a simple pendulum when the horizontal cord is cut . Find the ratio of the tension in the supporting wire immediately after the cord is cut to the tension in the wire before the cord is cut

A small mass m and its supporting wire because a simple pendulum when the horizontal cord is cut . Find the ratio of the tension in the supporting wire immediately after the cord is cut to the tension in the wire before the cord is cut

A small object of mass m, on the end of a light cord, is held horizontally at a distance r from a fixed support as shown. The object is then released. What is the tension in the cord when the object is at the lowest point of its swing?

A small object of mass m, on the end of a light cord, is held horizontally at a distance r from a fixed support as shown. The object is then released. What is the tension in the cord when the object is at the lowest point of its swing?