A partical is moving in a straight line under constant acceletation. If the motion starts from rest, Find the ratio of displacement in `n` second to that in the `n^(th)` second.

A partical is moving in a straight line under constant acceleration 4 m//s^(2) . The motion starts from rest. Sketch v-t and s-t graph for the duration t=0 to t=5 s .

A particle is moving under constant acceleration a=k t . The motion starts from rest. The velocity and displacement as a function of time t is

A particle is moving in a straight line under constant acceleration of 4 m//s^(2) . If its velocity at t=0 is 10 m//s, the displacement of particle in the 5^(th) second of its motion is

A wheel rotates under constant angular acceleration starting from rest. Find the ratio of angle rotated in n second and n^(th) second .

A particle is moving in a straight line under constant acceleration. It travels 15 m in the 3^(rd) second and 31 m in the 7^(th) second. Find the initial velocity and constant acceleration.

A particle starts from rest and moves under constant acceleration in a straight line. Find the ratio of time in successive displacement d .

A particle starts from rest and moves under constant acceleration in a straight line. Find the ratio of displacement (a) in successive second and (b) in successive time interval t_(0) .

A particle starts from rest and moves under constant acceleration in a straight line. Find the ratio of displacement (a) in successive second and (b) in successive time interval t_(0) .

A particle moves with constant acceleration along a straight line starting from rest. The percentage increase in its displacement during the 4th second compared to that in the 3rd second is