A ball of mass 150g starts moving with an acceleration of 20 m/s2 when hit by a force, which acts on it for 0.1 sec. The impulsive force is:
(1) 0.5 N-s
(2) 0.1 N-s
(3) 0.3 N-s
(4) 1.2 N-s
A body, whose momentum is constant, must have a constant:
(1) force.
(2) velocity.
(3) acceleration.
(4) All of these
Rocket engines lift a rocket from the earth surface because hot gases with high velocity:
(1) push against the earth.
(2) push against the air.
(3) react against the rocket and push it up.
(4) heat up the air which lifts the rocket.
A force of 50 dynes is acted on a body of mass 5 g which is at rest for an interval of 3 seconds, then impulse is
(1)
(2)
(3)
(4)
A bullet of mass 0.1 kg is fired with a speed of 100 m/sec, the mass of gun is 50 kg. The velocity of recoil is
1. 0.2 m/sec
2. 0.1 m/sec
3. 0.5 m/sec
4. 0.05 m/sec
Three forces starts acting simultaneously on a particle moving with velocity These forces are represented in magnitude and direction by the three sides of a triangle ABC (as shown). The particle will now move with velocity
(1) remaining unchanged
(2) Less than
(3) Greater than
(4) in the direction of the largest force BC
Two blocks are connected by a string as shown in the diagram. The upper block is hung by another string. A force F applied on the upper string produces an acceleration of 2 m/s2 in the upward direction in both the blocks. If T and T’ be the tensions in the two parts of the string, then
(1) T = 70.8 N and T’ = 47.2 N
(2) T = 58.8 N and T’ = 47.2 N
(3) T = 70.8 N and T’ = 58.8 N
(4) T = 70.8 N and T’ = 40.2 N
A block is kept on a frictionless inclined surface with an angle of inclination 'α'. The incline is given an acceleration 'a' to keep the block stationary. Then a is equal to
(1) g
(2) gtanα
(3) g/tanα
(4) gcosecα
A block of mass M is pulled along a horizontal frictionless surface by a rope of mass m. If a force P is applied at the free end of the rope, the force exerted by the rope on the block will be:
(1) P
(2)
(3)
(4)
Three equal weights A, B and C of mass 2 kg each are hanging on a string passing over a fixed frictionless pulley as shown in the figure The tension in the string connecting weights B and C is
(1) Zero
(2) 13 N
(3) 3.3 N
(4) 19.6 N