A particle is moving in a verticle circle. If `v_1` is the velocity of particle at highest point and `v_2`is the velocity of particle at lowest point , then the relation between `v_1` and `v_2` is

A particle of mass m is being circulated on a vertical circle of radius r. If the speed of particle at the highest point be v, then

A particle of mass m_1 moves with velocity v_1 and collides with another particle at rest of equal mass. The velocity of the second particle after the elastic collision is

A wheel rolls without slipping on a horizontal surface such that its velocity of center of mass is v . The velocity of a particle at the highest point of the rim is

If "v" is the velocity of a particle moving in a straight line and "a" is acceleration of the particle,then the speed of the particle would be decreasing if

A particle moves in a straight line with uniform acceleration. Its velocity at time t=0 is v_1 and at time t=t is v_2. The average velocity of the particle in this time interval is (v_1 + v_2)/2 . Is this statement true or false?

A particle is given velocity v_0 at point A as shown in the figure. Find the speed of particle at point B,C and D

In the figure block moves downwards with velocity v_(1) , the wedge rightwards with velocity v_(2) . The correct relation between v_(1) and v_(2) is

Velocity of a particle varies with time as v=athati+2ht^(2)hatj . If the particle starts from point (0,c) , the trajectory of the particle is