Find the distance covered by the particles in the following figures,
and
while a particle travels from A to B as shown by the arrows

Four particles of masses m, 2m, 3m and 4m are placed at the vertices of a rectangle ABCD as shown in the figure. The particles move from A to B, B to C. C to D and D to A respectively. In this process find the displacement of centre of mass of the system.

A particle A is projected with an initial velocity of 60 m/s at an angle 30^(@) to the horizontal. At the same time a second particle B is projected in opposite direction with intial speed of 50 m/s from a point at a distance of 100 m from A. if the particles collide in air, find a the angle of projection alpha of particle B (b) time when the collisions takes place and c the distance of P from A. where collision occurs (g=10m//s^(2))

A particle A is projected with an initial velocity of 60 m/s at an angle 30^(@) to the horizontal. At the same time a second particle B is projected in opposite direction with initial speed of 50 m/s from a A point at a distance of 100 m from A. If the particles collide in air, find (a) the angle of projection of particle B (b) timewhen the collisions takes place and (c) the distance of P from A. where collision occurs. (g=10 m//s^(2))

For the velocity time graph shown in figure below the distance covered by the body in last two seconds of its motion is what fraction of the total distance covered by it in all the total distance covered by it in all the seven seconds

The displacement of a particle starts from rest is proportional to the square of time,then the particle travels with

Two particles are projected with speed 4 m/s and 3 m/s simultaneously from same point as shown in the figure. Then:

The acceleration of a particle is increasing linearly with time t as bt. The particle starts from origin with an initial velocity v_(0) . The distance travelled by the particle in time t will be