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
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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.

As soon as a car just starts from rest in a certain direction, a scooter moving with a uniform speed overtakes the car. Their velocity-time graphs are shown in Fig. Calculate the difference between the distances travelled by the car and the scooter in 15 s.

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. Find the time at which the car passes the scooter and the distance of car and scooter from the starting point at that instant.

As soon as a car just starts from rest in a certain direction, a scooter moving with a uniform speed overtake the car. Their velocity- time graphs are shown in Fig. 3.38. Calculate (i) the difference between the distance travelled by the car and the scooter in 15 s (ii) the time when the car will catch up the scooter and (iii) the distance of car and scooter from the starting point at that instant.

As soon as a car just starts from rest in a certain direction, a scooter moving with a uniform speed overtakes the car. Their velocity-time graphs are shown in Fig. 3.66. Calculate the time when the car will catch up the scooter.

As soon as a car starts from rest in a certain dirction, a scooter moving with a uniform speed overtakes the car. Their velcity-time graphs are shown in Fig. 2 (b) .19. Calcutate (a) the difference between the distances travelled by the car and the scooter in 25 s . (b) the time when car will catch up the secooter. (c ) the distance of the car and scooter from the starting point at the meeting point. .

The velocity-time graphs of a car and a scooter are shown in the figure. (i) The difference between the distance travelled by the car and the scooter in 15 s and (ii) the time at which the car will catch up with the scooter are, respectively.

The velocity-time graphs of a car and a scooter are shown in the figure. (i) The difference between the distance travelled by the car and the scooter in 15 s and (ii) the time at which the car will catch up with the scooter are, respectively.

The velocity-time graphsof a car and a scooter are shown in the figure. (i) The difference between the distance travelled by the car and the scooter in 15 and (ii) the time at which the car will catch up with the scooter are, respectively.

The velocity-time graphsof a car and a scooter are shown in the figure. (i) The difference between the distance travelled by the car and the scooter in 15 and (ii) the time at which the car will catch up with the scooter are, respectively.

A car starts from erest accelerates uniform by for 4 second and then moves with uniform velocity which of the x-t graph represent th motion of the car:-