A car A is travelling on a straight level road with a uniform speed of 60 km/h. It is followed by another car B which is moving with a speed of 70 km/h. When the distance between them is 2.5 km, the car B is given a deceleration of 20 km/h2. After how much time will B catch up with A
(1) 1 hr
(2) 1/2 hr
(3) 1/4 hr
(4) 1/8 hr
The speed of a body moving with uniform acceleration is u. This speed is doubled while covering a distance S. When it covers an additional distance S, its speed would become
(1)
(2)
(3)
(4)
Two trains one of length 100 m and another of length 125 m, are moving in mutually opposite directions along parallel lines, meet each other, each with speed 10 m/s. If their acceleration are 0.3 m/s2 and 0.2 m/s2 respectively, then the time they take to pass each other will be
1. 5 s
2. 10 s
3. 15 s
4. 20 s
A body starts from rest with uniform acceleration. If its velocity after n second is v, then its displacement in the last two seconds is
(1)
(2)
(3)
(4)
A particle is moving in a straight line and passes through a point O with a velocity of 6 ms–1. The particle moves with a constant retardation of 2 ms–2 for 4 s and there after moves with constant velocity. How long after leaving O does the particle return to O
(1) 3s
(2) 8s
(3) Never
(4) 4s
A particle is projected with velocity along x-axis. The deceleration of the particle is proportional to the square of the distance from the origin i.e., The distance at which the particle stops is :
1.
2.
3.
4.
A body is projected vertically up with a velocity v and after some time it returns to the point from which it was projected. The average velocity and average speed of the body for the total time of flight are
(1) and v/2
(2) 0 and v/2
(3) 0 and 0
(4) and 0
A stone is dropped from a height \(h\). Simultaneously, another stone is thrown up from the ground which reaches a height \(4h\). The two stones cross each other after time:
1. \(\sqrt{\frac{h}{8g}}\)
2. \(\sqrt{8g}~h\)
3. \(\sqrt{2g}~h\)
4. \(\sqrt{\frac{h}{2g}}\)
Four marbles are dropped from the top of a tower one after the other at a one-second interval. The first one reaches the ground after \(4\) seconds. When the first one reaches the ground the distances between the first and second, the second and third, and the third and fourth will be, respectively:
1. | \(35\) m, \(25\) m, and \(15\) m | 2. | \(30\) m, \(20\) m, and \(10\) m |
3. | \(20\) m, \(10\) m, and \(5\) m | 4. | \(40\) m, \(30\) m, and \(20\) m |
A balloon rises from rest with a constant acceleration g/8. A stone is released from it when it has risen to height h. The time taken by the stone to reach the ground is
(1)
(2)
(3)
(4)