A particle starts from rest, accelerates at 2 m/s2 for 10s and then goes for constant speed for 30s and then decelerates at 4 m/s2 till it stops. What is the distance travelled by it?
(1) 750 m
(2) 800 m
(3) 700 m
(4) 850 m
A car, moving with a speed of 50 km/hr, can be stopped by brakes after at least 6m. If the same car is moving at a speed of 100 km/hr, the minimum stopping distance is
(1) 6m
(2) 12m
(3) 18m
(4) 24m
A student is standing at a distance of 50 metres from the bus. As soon as the bus begins its motion with an acceleration of 1 ms–2, the student starts running towards the bus with a uniform velocity u. Assuming the motion to be along a straight road, the minimum value of u, so that the student is able to catch the bus is:
1. 5 ms–1
2. 8 ms–1
3. 10 ms–1
4. 12 ms–1
A body A moves with a uniform acceleration a and zero initial velocity. Another body B, starts from the same point moves in the same direction with a constant velocity v. The two bodies meet after a time t. The value of t is
1.
2.
3.
4.
A particle moves along X-axis in such a way that its coordinate X varies with time t according to the equation . The initial velocity of the particle is
(1) –5 m/s
(2) 6 m/s
(3) –3 m/s
(4) 3 m/s
A car starts from rest and moves with uniform acceleration 'a' on a straight road from time t = 0 to t = T. After that, a constant deceleration brings it to rest. In this process the average speed of the car is:
(1)
(2)
(3)
(4) aT
An object accelerates from rest to a velocity of 27.5 m/s in 10 sec . Then find the distance covered by the object in the next 10 sec:
(1) 550 m
(2) 137.5 m
(3) 412.5 m
(4) 275 m
If the velocity of a particle is given by m/s, then its acceleration will be:
1. Zero
2. 8 m/s2
3. – 8 m/s2
4. 4 m/s2
The displacement of a particle is proportional to the cube of time elapsed. How does the acceleration of the particle depends on time obtained
(1)
(2)
(3)
(4)
Starting from rest, acceleration of a particle is The velocity of the particle at is:
1. 15 m/sec
2. 25 m/sec
3. 5 m/sec
4. None of these