A moving car possesses average velocities of `5 m s^(-1), 10 m s^(-1)`, and `15 m s^(-1)`, in the first, second, and third seconds, respectively. What is the total distance covered by the car in these `3 s`.?

A moving car possesses average velocities of 5 m s^(-1), 10 m s^(-1) , and 15 m s^(-1) , in the first, second, and third seconds, respecticely. What is the total destance coverd by the car in these 3 s .?

A moving car possesses average velocities of 5 ms^-1, 10 ms^-1 and 15 ms^-1 in the first, second and third seconds respectively. What is the total distance covered by the car in these three seconds ?

A motor car, starting from rest, moves with uniform acceleration and attains a velocity of 8 ms^(-1) in 8 s. It then moves with uniform velocity and finally brought to rest in 32 m under unifrom retardation. The total distance covered by the car is 464 m. Find the total time taken.

A body has V, 2 2 and 3v in first 2/3 of distance S, second 1/3 of S and third 1/3 of s respectively. Its average speed wil be

Find the acceleration of the car, if it changes its velocity from 20 m s^(-1) to 30 ms^(-1) in 5 seconds.

The velocity of a car changes from -5 m s^(-1) to -7 m s^(-1) in 2 s. What is the acceleration of the car? What does the negative sign suggest?

The speed of a car increases uniformly from zero to 10ms^-1 in 2s and then remains constant (figure) a. Find the distance travelled by the car in the first two seconds. b. Find the distance travelled by the car in the next two seconds. c. Find the total distance travelled in 4s .

If the r.m.s. velocity of 5.15 m s^(-1) at 298 K, then a velocity of 10.30 ms^(-1) will be possessed at a temperature

A particle moves rectilinearly with a constant acceleration 1 m//s^2 . Its speed after 10 seconds is 5 m//s . The distance covered by the particle in this duration is.

A car A moves with velocit 20 m s^(-1) and car B with velocity 15 m s^(-1) as shown is. Find the relativety B w.r.t. A w.r.t. B . .