A bus starts from rest with a constnat acceleration of `5m//s ^(2).` At the same time a car travelling with a constnat velocity 50 m/s overtakes and passes the bus. How fast is the bus travelling when they are side by side ?

A bus starts from rest with a constant acceleration of 5 m//s^(2) at the same time a car travelling with a constant velocity 50 m//s over takes and passes the bus. How fast is the bus travelling when they are side by side?

A body starting from rest has an acceleration of 5m//s^(2) . Calculate the distance travelled by it in 4^(th) second.

A body starts from rest and accelerates with 4 "m/s"^2 for 5 seconds. Find the distance travelled with 5 seconds.

A body starting from rest is moving with a uniform acceleration of 8m/s^(2) . Then the distance travelled by it in 5th second will be

A bus starting from rest moves with a uniform acceleration of 0.1 m//s^(2) for 2 minutes. Find (a) the speed acquired, (b) the distance travelled.

A man is 25 m behind a bus, when bus starts accelerating at 2 ms^(-2) and man starts moving with constant velocity of 10 ms^(-1) . Time taken by him to board the bus is

A bus starts from rest and moves whith acceleration a = 2 m/s^2 . The ratio of the distance covered in 6^(th) second to that covered in 6 seconds is

A body starts from rest with an acceleration 2m//s^(2) till it attains the maximum velocity then retards to rest with 3m//s^(2) . If total time taken is 10 second, then maximum speed attained is

A student is running at her top speed of 5.0 m s^(-1) , to catch a bus, which is stopped at the bus stop. When the student is still 40.0m from the bus, it starts to pull away, moving with a constant acceleration of 0.2 m s^(-2) . a For how much time and what distance does the student have to run at 5.0 m s^(-1) before she overtakes the bus? b. When she reached the bus, how fast was the bus travelling? c. Sketch an x-t graph for bothe the student and the bus. d. Teh equations uou used in part (a)to find the time have a second solution, corresponding to a later time for which the student and the bus are again at thesame place if they continue their specified motions. Explain the significance of this second solution. How fast is the bus travelling at this point? e. If the student s top speed is 3.5 m s^(-1), will she catch the bus? f. What is the minimum speed the student must have to just catch up with the bus?For what time and what distance dies she have to run in that case?

A particle starts moving with acceleration 2 m//s^(2) . Distance travelled by it in 5^(th) half second is