Particles of masses 2M, m and M are respectively at points A, B and C with `sqrt((GM)/(R))(sqrt(2)+1)` is much-much smaller than M and at time `t=0`, they are all at rest as given in figure

At subsequent time before any collision takes place.

particles of masses 2M m and M are resectively at points A , B and C with AB = (1)/(2) (BC) m is much - much smaller than M and at time t=0 they are all at rest as given in figure . As subsequent times before any collision takes palce .

particles of masses 2M m and M are resectively at points A , B and C with AB = (1)/(2) (BC) m is much - much smaller than M and at time t=0 they are all at rest as given in figure . As subsequent times before any collision takes palce .

Two particle of masses m and 2m are coliding elastically as given in figure. If V_(1) and V_(2) speed of particle just after collision then

Four particles of masses m, 2m, 3m & 4m respectively are placed on the periphery of a circle of radius R as shown in the figure then CM of the system contains the particle is at

Two particles of mass m and 2m are connected by a string of length L and placed at rest over a smooth horizontal surface. The particles are then given velocities as indicated in the figure shown. The tension developed in the string will be

Two particles of masses 1kg and 2kg respectively are initially 10m aprt. At time t=0 , they start moving towards each other with uniform speeds 2m//s and 1m//s respectively. Find the displacement of their centre of mass at t=1s .

consider a head on collision between two particles of masses m_1 and m_2 . The initial speeds of the particles are u_1 and u_2 in the same direction. The collision starts at t=0 and the particles interact for a time interval /_\t. during the collision the speed of the first particle varies as v(t)=u_1+t//_\ t(v_1-u_1) Find the speed of the second particle as as function of time during the collision.

A particle of mass m is released from rest at point A in Fig., falling parallel to the (vertical) y -axis. Find the angular momentum of the particle at any time t with respect to the same origin O .

A particle of mass m moving with a speed v hits elastically another staionary particle of mass 2m on a smooth horizontal circular tube of radius r . Find the time when the next collision will take place?

A particle of mass m moving with a speed v hits elastically another staionary particle of mass 2m on a smooth horizontal circular tube of radius r . Find the time when the next collision will take place?