A bike initially at rest travels the first `20 m` in `4 s` along a straight line with constant acceleration. Determine the acceleration of the bike in `"m.s"^(-2)`.

Starting from rest, a body moves in a straight line with a constant acceleration. Describe the nature of the graph relating the displacement with time.

An object after travelling at a uniform velocity of 4 "m.s"^(-1) for 5 s travels with a constant acceleration of 0.5 "m.s"^(-2) in the same direction for another 5s. Find the average velocity throughout the journey.

A particle of mass M has an acceleration of 3m//s^2 in the Y direction. Find the acceleration of centre of mass.

Two particles A and B move from rest along a straight line with constant accelerations f and f' respectively. If A takes m sec. more than that of B and describes n units more than that of B acquiring the same velocity, then

The acceleration of a particle starting from rest moving in a straight line with uniform acceleration is 8m//sec^2 . The time taken by the particle to move the second metre is:

A particle with constant acceleration travels x m in t th second and y m in (t+n)th second. Show that the acceleration is (y-x)/(n) "m.s"^(-2) .

A lift of mass 400 kg is hung by a wire. Calculate the tension in the wire when the lift is (a) at rest, (b) moving upward with a constant acceleration of 2.0 m//s^(2) and (c) moving downward with an acceleration 2.0 m//s^(2) .