A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at `x=0`, where, x is the position of the car at any time 't'.

The maximum displacement from the starting position will be :-

A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at x=0 , where, x is the position of the car at any time 't'. The time interval during which the car is retarding can be :-

A particle starts from the origin at time t = 0 and moves along the positive x-axis. The graph of velocity with respect to time is shown in figure. What is the position of the particle at time t = 5s ?

The velocity of a car as a function of time is shown in Fig. Find the distance travelled by the car in 8 s and its acceleration.

Car A and car B move on a straight road and their velocity versus time graph are as shown in figure. Comparing the motion or car A in between t=0 to t =8 sec . And motion of car B in between t=0 to t=7 sec ., pick up the correct statement. .

A racing car is travelling along a straight track at a constant velocity of 40m//s . A fixed TV camera is recording the even as shown in figure. In order to keep the car in view in the position shown the angular velocity of camera should be

A car is moving along a straight horizontal road with a speed v_(0) . If the coefficient of friction between the tyres and the road is mu , the shortest distance in which the car can be stopped is

The speed of a car as a function of time is shown in figure. Find the distance travelled by the car in 8 seconds and its acceleration.

As soon as a car just starts from rest in a certain dercation, a scooter moveing with a uniform speed overtakes the car. Their velocity-time graph is shown in . Calculate . a. The difference between the distances travlled by the car and the scooter in 15 s , b. The distance of car and scooter from the starting point at that instant.

A car is moving on a straight road with a speed of 20 m//s . The drive of the car put the breaks at some instant which retards the car uniformly at a rate of 2 m//s^(2) , until the car stops completely then find the time (t_(0)) taken by the car and distance (d) travelled by car, from the instant the drive put the breaks till it stops:

The velocity (v)-time (t) graph of a partide moving along a straight line is as shown in the figure. The displacement of the particle from t = 0 to t = 4 is