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 .

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

The distance in meters described by a car in time t seconds is given by s = 4t^(3) - 3t^(2) + 6t -1 . Determine the velocity and acceleration when (i) t = 0, (ii) t =2 seconds.

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.

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 x metres travelled by a vehicle in time t seconds after the breakes are applied is given by x=20 t-(5)/(3) t^(2) . Determine (i) the speed of the vehicle (in km /hr) at the instant the brakes are applied and (ii) the distance the car travelled before it stops.

A car starts from a point P at time t = 0 seconds and stops at point Q. The distance x, in metres, covered by it, in t seconds is given by x=t^(2) (2-(t)/(3)) Find the time taken by it to reach Q and also find distance between P and Q.

The distance S an object travles under the influence of gravity in time t seconds is given by S(t)=(1)/(2)"gt"^(2)+at+b where, (g is the acceleration due to gravity), a, b, are constants. Check if the function S(t) is one-one.

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