A mass `m` moving horizontal (along the x-axis) with velocity `v` collides and sticks to mass of `3m` moving vertically upward (along the y-axis) with velocity `2v`. The final velocity of the combination is

A uniform rod of mass m and length / is hinged at upper end. Rod is free to rotate in vertical plane. A bail of mass m moving horizontally with velocity vo collides at lower end of rod perpendicular to it and sticks to it. The minimum velocity of the ball such that combined system just completes the vertical circle will be

A ball of mass m moving with velocity v collides head on elastically with another identical ball moving with velocity - V. After collision

Particle A of mass m_A=m/2 moving along the x - axis with velocity v_0 collides elastically with another particle B at rest having mass m_B=m/3 . If both particles move along the x - axis after the collision , the change Deltalamda in de - Broglie wavelength of particle A , in terms of its de - Broglie wavelength (lamda_0) before collision is :

A particle of mass m moving with speed v in position x - direction collides perfectly inelastically with another identical particle moving with same speed in positive y - direction . Find final velocity of the combination.

A ball of mass in m= 1 kg is hung vertically by a thread of length l = 1.50 m . Upper end of the thread is attached to the ceiling of a trolley of mass M= 4 kg . Initially, the trolley is stationary and it is free to move along horizontal rails without friction. A shell of mass m=1 kg, moving horizontally with velocity v_(0) = 6 m//s collides with the ball and gets stuck with it. As a result, the thread starts to deflect towards right. The velocity of the combined body just after collision is

A body of mass m, moving with velocity mu collides elasticity with another body at rest having mass M. If the body of mass M moves with velocity V, then the velocity of the body of mass m after the impact is

A body of mass m moving with a constant velocity v hits another body of the same mass moving with the same velocity v but in the opposite direction and sticks to it. The velocity of the compound body after collision is

A body of mass m/2 moving with velocity v_0 collides elastically with another mass of m/3 . Find % change in KE of first body

A particle of mass m is moving along the x-axis with initial velocity ui . It collides elastically with a particle of mass 10 m at rest and then moves with half its initial kinetic energy (see figure).If sin theta _(1) = sqrt(n) sin theta_(2) then value of n is

A uniform cube of mass m and edge a moves on a horizontal surface along the positive x-axis, with initial velocity v_(0) . Then