Statement -1: Two particles moving in the same direction do not lose all their energy in a completely inelastic collision.
Statement -2 : Principle of conservation of momentum holds true for all kinds of collisions.

Statement-1 : A particle of mass m strikes a smooth wedge of mass M as shown in the figure. Linear momentum of particles along the inclined surface of wedge is conserved during collision. and Statement-2 : Wege exerts a force on particle perpendicular to inclined face of wedge during collision.

A particle of mass m moving in the x - direction with speed 2c is hit by another particle of mass 2m moving in the y - direction with with speed v . If the collision is perfectly inelastic , the percentage loss in the enrgy during the collision is close to .

Three objects A , B and C are kept in a straight line on a smooth horizontal surface. These have masses m , 2m and 3 m , respectively . The head - on elastic collision takes place between A and B and then B makes completely inelastic collision with C . All motions occur on the same straight line. The final speed of C will be

This question has statement -I and statement - II of the four choices given after the statements , choose the one that best describes the two statements . Statement - I : A point particle of mass m moving with speed v collides with stationary point particle of mass M . If the maximum energy loss possible is given as f(1/2 mv^(2)) " then" F = (m/(M+m)) Statement -II : Maximum energy loss occurs when the particles get stuck together as a result of the collision .

Statement I: No external force acts on a system of two spheres which undergo a perfectly elastic head-on collision. The minimum kinetic energy of this system is zero if the net momentum of the system is zero. Statement II: If any two bodies undergo a perfectly elastic head-on collision, at the instant of maximum deformation. the complete kinetic energy of the system is converted to' deformation potential energy of the system.

Statement-1 : Among the particles of same kinetic energy, lighter particle has greater de brogile wavelength. and Statement-2 : The de-Brogile wavelength of a particle depends only on the charge of the particle.

Statement-1. For a charged particle moving from point P to point Q , the net work done by an electrostatic field on the particle is independent of the path connecting point P to point Q Statement-2. The net work done by a conservative force on an object moving along a closed loop is zero.

Statement-1 : In the case of a stationary wave, a person hear a loud sound at the nodes as compared to the antinodes Statement-2 : In a stationary wave all the particles of the medium vibrate in phase.

Statement-1: The relation R on the set N xx N defined by (a, b) R (c, d) iff a+d = b+c for all a, b, c, d in N is an equivalence relation. Statement-2: The intersection of two equivalence relations on a set A is an equivalence relation.