The distance travelled by a body, falling freely from rest in t=1s, t=2s and t=3s are in the ratio of

When a body falls freely towards the earth, then its T.E.

From the veloicty time graph of a particle given in figure describe the motion of the particle qualitively int eh interval 0 to 4s. Find a. the distance travelled during first two seconds, b. during the time 2s to 4s, c. during the time 0 to 4s d. displacement during 0 to 4 s. e. acceleration at t=1/2 and f. acceleration at t=2s .

The distance travelled by a particle in time t is given by s=(2.5m/s^2)t^2 . Find a. the average speed of the particle during the time 0 to 5.0 s, and b. the instantaneous speed at t=5.0 is

Find the distance travelled by the particle during the time t = 0 to t = 3 second from the figure .

The distance covered by a particle moving in a straight line from a fixed point on the line is s , where s^2=a t^2+2b t+c dot Then prove that acceleration is proportional to s^(-3)dot

The distance s meters moved by a particle travelling in a straight line t seconds is given by s = 45t + 11t^(2) - t^(3) . Find the acceleration when the particle comes to rest.

The distance S (in kms ) travelled by a particle in time t hours is given by S (t) =( t^(2)+3t)/( 2) The distance travelled in 3 hrs .