A wheel starting from rest is uniformly accelerated at `2 red/s^(2)` for 20 seconds. It is allowed to rotate uniformly for the next 10 seconds and is finally brought to rest in next 20 seconds. The total angle rotated by the wheel (in radian) is :-

A wheel starting from rest is uniformly accelerate at 4 rad/s^2 for 10 seconds. It is allowed to rotate uniformly for the next 10 seconds and is finally brought to rest in the next 10 seconds. Find the total angle rotated by the wheel.

A wheel starting from rest is uniformely accelerated at 2 rad//s^(2) for 5 s . It is allowed to rotated uniformly for the next 10 s and is finally brought to rest in the next 5 s . Find the total angle rotated by the wheel.

A wheel starting from rest is uniformly accelerated at 4rad//s^(2) for 10s . It is allowed to rotated uniformly for the next 10 s and is finally brought to rest in the next 10 s. Find the total angle rotated by the wheel.

A wheel starting from rest is uniformly acceleration with angular acceleration of 4 "rad"//s^(2) for 10 seconds . It is then allowed to rotate uniformly for next 10 seconds and finally brought to rest in next 10 seconds by uniform angular retardation. Total angle rotated is (100 n) radian. Find value of n.

A disc rotating about its axis/s in 4 second. The angle rotated by it during these seconds (in radian ) is :-

A wheel starting from rest,rotates with a uniform angular acceleration of 2rad/s^(2) .Then the number of rotations it performs in tenth second is

A cheetah starts from rest, and accelerates at 2 m/ s^(2) for 10 seconds. Calculate : (a) the final velocity (b) the distance travelled.

A car starts from rest and accelerates uniformly for 20 seconds to a velocity of 72 km h^(–1) . It then runs at constant velocity and finally brought to rest in 200 m with a constant retardation. The total distance covered is 600 m. Find the acceleration, retardation and the total time taken.

A body starts from rest and moves with a uniform acceleration of 10ms^(-2) for 5 seconds. During the next 10 seconds it moves with uniform velocity. Find the total distance travelled by the body (Using graphical analysis).

A body starts from rest and accelerates uniformly at 5m//s^(2) for 7 seconds, along a straight line, it then starts decelerating at a rate of 2m//s^(2) for the next 5 seconds, moves uniformly with a velocity of 25m/s for the next 2 seconds and then retards again and comes to rest in another 3 seconds. (i) Plot the velocity versus time graph for the body. (ii) Calculate the total distance travelled by the body with the help of the graph.