The bob of a simple pendulum (mass m and length l ) dropped from a horizontal position strikes a block of the same mass elastically placed on a horizontal frictionless table. The K.E. of the block will be

The bob of a simple pendulum of length l dropped from a horizontal position strikes a block of the same mass elastically, placed on a horizontal table (frictionless) as shown in the diagram, the block shall have kinetic energy-

The bob of a simple pendulum of length l dropped from a horizontal position strikes a block of the same mass, placed on a horizontal table (frictionless) as shown in the diagram, the block shall have kinetic energy-

If a simple pendulum of mass m is released from a horizontal position, find the tension in the string as a function of the angle theta with the horizontal.

A force P acts on a smooth block of mass m placed on a horizontal floor at an angle theta with with horizontal on the block

A simple pendulum , made of a string of length l and a bob of mass m, is released from a small angle theta_(0) it strikes a block of mass M, kept on a horizontal surface at its lowest point of oscillations , elastically , it bounces back and goes up to an angle theta_(1) then M is given by :

A simple pendulum , made of a string of length l and a bob of mass m, is released from a small angle theta_(0) it strikes a block of mass M, kept on a horizontal surface at its lowest point of oscil,ations , elastically , it bounces back and goes up to an angle theta)(1-) then M is given by :

A simple pendulum , made of a string of length l and a bob of mass m, is released from a small angle theta_(0) it strikes a block of mass M, kept on a horizontal surface at its lowest point of oscil,ations , elastically , it bounces back and goes up to an angle theta)(1-) then M is given by :

A block of mass M rests on a smooth horizontal table. There is a small gap in the table under the block through which a pendulum has been attached to the block. The bob of the simple pendulum has mass m and length of the pendulum is L. The pendulum is set into small oscillations in the vertical plane of the figure. Calculate its time period. The table does not interfere with the motion of the string.

The bob A of a pendulum released from horizontal to the vertical hits another bob B of the same mass at rest on a table as shown in the figure. If the length of the pendulum is 1m, calculate the height to which bob A will rise after collision.