STATEMENT-1 : A person standing on a stationary trolley placed on rough ground walks for a moment and then stops. The system acquires a net velocity due to this.

and
STATEMENT-2 : In the present situation, law of conservation of linear momentum is violated.

STATEMENT-1 : Two bodies of mass M and 2M released from rest and they move towards each other due to their mutual gravitational force of attraction and collide at mid point. STATEMENT-2 : If the total mechanical energy of a body is zero than its linear momentum is necessarily non zero at any point other than reference point. STATEMENT-3 : The linear momentum of the bob of a simple pendulum suspended by the roof of a car accelerating on a horizontal road increases due to tension in the string of the pendulum.

STATEMENT - 1 : Two identical balls B and C lie on a horizontal smooth straight groove so that they are touching. A third identical ball A moves at a speed v along the groove. And collides with B as shown in figure. If the collisions are perfectly elastic, then after the collision, balls A and B will come to rest and ball C moves with velocity v to the right. because STATEMENT - 2 : In an elastic collision, linear momentum and kinetic energy are both conserved.

Statement - 1 : If net force vecF acting on a system is changing in direction only, the linear momentum (vec p) of system changes in direction. Statement - 2 : In case of uniform circular motion, magnitude of linear momentum is constant but direction

STATEMENT-l : In an elastic collision between two bodies, the relative speed of the bodies after collision is equal to the relative speed before the collision. STATEMENT-2 : In an elastic collision, the linear momentum of the system is conserved.

STATEMENT -1 : Kepler's second law is the consequence of law of conservation of angular momentum. STATEMENT -2 : In planetary motion, the momentum, angular momentum and mechanical energy is conserved. STATEMENT -3 : The gravitational field of a circular ring is maximum at a point upon axis at distance (R )/(sqrt(2)) from the centre, where R is the radius of ring.

STATEMENT-1 : When tall builidings are constructed on earth, the duration of day and night change. STATEMENT-2 : If our earth shrinks to half of the present radius then the time period will become 12 hrs. STATEMENT-3 : When a rotating disc is placed on a rough horizontal surface its angular momentum is conserved about the centre of disc.

STATEMENT -1 : In absence of air friction, it is claimed that all object fall with the same acceleration although, a heavier object is pulled towards the earth with more force than a lighter object. because STATEMENT-2 : Net external force is always equal to rate of change of linear momentum.

In figure, a block A of mass 2kg is moving to the right with a speed 5m//s on a horizontal frictionless surface. Another block B of mass 3kg a massless spring of spring constant 222N//m attached to it, is moving to the left on the same surface and with a speed 2m//s . Let us take the direction to the right as the positive X- direction. At some instant, block A collides with the spring attached to block B . At some other instant , the spring has maximum compression and then, finally, blocks move with their final velocities. Assuming that (i) the spring force is conservative and so there is no conversion of kinetic energy to internal energy and (ii) , no sound is made when block A hits the spring, answer the following questions. STATEMENT -1: The net momentum of a system of two moving particles is zero. Then a particular instant of time, the net angular momentum of system of given two particle is same about any point. STATEMENT -2: If net momentum of a system of two moving particle is zero, then angular mometum of system of given two particles is zero about any point.

Two particles mass m_(1) and m_(2) are kept at rest at t=0 . They start attracting each other due to their gravitational pull, then STATEMENT-1 : The toal mometum of the system is zero at any instant. and STATEMENT-2 : Both are particles gain equal momentum in opposite direction in equl interval of time as both are acted upon equal and opposite forces.

STATEMENT-1 : If a particle is projected from the ground with some velocity (not very large a) at an angle with horizontal, path of the particle is assumed parabolic, although it is not exactly parabolic. because STATEMENT-2 : Magnitude of acceleration due to gravity at all places is assumed to be the constant, although is it not so.