Mass(m)

A boy recalls the relation for relativistic mass (m) in terms of rest mass (m_(0)) velocity of particle v, but forgets to put the constant c (velocity of light). He writes m= (m_(0))/((1-v^(2))^(1//2)) correct the equation by putting the missing 'c'.

A particle of mass m_(1) is moving with a velocity v, and another of mass m_(2) is moving with velocity v_(2) . Both of them have the some momentum but their kinetic energies are E_(1) and E_(2) respectively. If m_(1) gt m_(2) then

A body of mass m is attached to lower end of a spring whose upper end is fixed. The spring has negligible mass. When the mass m is slightly pulled down and released, it oscillates with a time period of 3s. When the mass m is increased by 1 kg, the time period of oscillations becomes 5s. Find the value of m is kg.

A block of mass m and a pan of equal mass are connected by a string going over a smooth light pulley as shown in figure. Initially the system is at rest when a particle of mass m falls on the pan and sticks to it. If the particle strikes the pan with a speed v find the speed with which the system moves just after the collision.

A cannon of mass m_(1) = 12000 kg located on a smooth horizontal platform fires a shell of mass m _(2) = 300 kg in horizontal direction with a velocity v _(2)=400 m//s. Find the velocity of the cannon after it is shot.

The reduced mass of two particles having masses m and 2m is

The reduced mass of two particles having masses m and 2m is

Where will be the centre of mass on combining two masses m and M (M gt m) ?

A block of mass m is connect to another block of mass M by a massless spring of spring constant k. The blocks are kept on a smooth horizontal plane. Initially the blocks are at rest and the spring is unsrtretched when a constnt force F starts acting on the block of mass M to pull it. Find the maximum extension of the spring.