A lift ascends with constant acceleration f, then with constant velocity, and finally stops under a constant retardation f. If the total distance ascended is s and the total time occupied is t, then the time during which the lift is ascending with constant velocity is `(t^(2)-4s//f)^(1//2)`

A left storing from rest assends with constants acceleration 'a', then with a constant velcoity and finally stops under a constant retardation 'a'. If the total distance assended is 'x' and the total time taken is 't',show that the time during which the left is assending with constant vlocity is sqrt(t^(2)-(4x)/a

A lift ascends with a constant acceleration of 4 m s^(-2) then with a constant velocity v and finally stops under a constant retardation of 4 m s^(-2) . If the total height ascended be 20 m and the total time taken is 6 s then the time during which the lift was movitng with a vclocity nu is

A lift ascends with constant acceleration a=1ms^(-2) , then with constant velocity and finally, it stops under constant retardation a=1ms^(-2) . If total distance ascended by the lift is 7 m, in a total time of the journey is 8 s. Find the time (in second) for which lift moves with constant velocity.

A train starting from rest travels the first part of its journey with constant acceleration a, secondpart with constant velocity v nd third part with constant retardation a, being brought to rest.the average speed for the whole journey is7v8. The train travels with constant velocity for...of the total time -

A particle is moving under constant acceleration a=k t . The motion starts from rest. The velocity and displacement as a function of time t is

Starting from rest a particle is first accelerated for time t_1 with constant acceleration a_1 and then stops in time t_2 with constant retardation a_2. Let v_1 be the average velocity in this case and s_1 the total displacement. In the second case it is accelerating for the same time t_1 with constant acceleration 2a_1 and come to rest with constant retardation a_2 in time t_3. If v_2 is the average velocity in this case and s_2 the total displacement, then

A train accelerates from at the constant rate b for time t_(2) at a constant rate a and then it retards at the comes to rest. Find the ratio t_(1) // t_(2) .

A particle moves in a straight line with constant acceleration under a constant force F. Select the correct alternative(s).