A: A body is moving along a straight line such that its velocity varies with time as shown in figure. Magnitude of displacement of the body from `t = 0` to `t = 12s` is the same as the distance travelled by it in the given time duration,

R: For a unidirectional motion of a body, |displacement| = distance

Assertion : A body is moving along a straight line such the its velocity varies with a time as shown in figure. Magnmitude of displacement of the body from t = 0 to t = 12 s is the same as the distance travelled by it in the given time duration. Reason : For unidirectional motion of a body, |displacement|=distance

The kinetic energy of a body moving along a straight line varies with time as shown in figure. The force acting on the body:

The velocity-time graph of a body is shown in . The displacement of the body in 8 s is. .

The velocity versus time graph of a body in a straight line is as shown in figure. The displacment of the body in five seconds is

A particle is moving in a straight line along the xaxis. Its velocity-time graph is as shown. Sketch the displacement-time and distance-time grapgs.

A body is moving along a circular path of radius R. What will be the distance travelled and displacement of the body when it completes half a revolution ?

body moves along x-axis with velocity v = 5 sin(2t)m/s starting from x_i =-2.5 m Ratio of displacement to distance traveled by body from t= 0s "to" t= 3pi //2 sec is :

Find the distance and displacement if the body moves from A to B along the path APQRB.

The velocity versus time graph of a body moving along a straight line is as shown in figure. The ratio of displacement and distance covered body in 5 second is :-