The equation of distance travelled by a body s with time t is given as `S=A(t+B)+Ct^(2)`. The dimension of B is given by

A body slides down on an inclined plane of inclination 37^(@) with horizontal. The distance travelled by the body in time t is given by s = t^(2) . Find the friction coefficient between the body and the incline.

If the distance s travelled by a body in time t is given by s = a/t + bt^2 then the acceleration equals

The distance (s) travelled by a body in time (t) is given by s = ut + (1)/(2)at^(2) . How is the formula modified when (i) body starts from rest , (ii) motion of body is uniform.

The distance covered by a particle in time t is given by x=a+bt+ct^2+dt^3 , find the dimensions of a,b,c and d.

Distance travelled by particle at any time t is given by S=t^(2)+6t+8 Speed of particle at any time t is

The distance travelled by a particle in time t is given by s = (2.5 t^(2)) m. Find (a) the average speed of the partion during time 0 to 0.5 s and (b) the instantaneous speed at t = 5.0s.

The distance travelled by an object along a straight line in time t is given by s = 3 -41 + 5t^(2) , the initial velocity of the objectis

The relationship between the displacement travelled by a body and the time t is described by the equation s = A + Bt + Ct^(2) + Dt^(3) . Where C = 0.14m//s^(2) and D=0.01m//s^(3) . In what time after motion begins will the acceleration of the body be equal to 1 m//s^(2)?