An explosion breaks a rock into three parts in a horizontal plane. Two of them go off at right angles to each other. The first part of mass 1 kg moves with a speed of 12 ms-1 and the second part of mass 2kg moves with 8 ms-1 speed. If the third part flies off with 4 ms-1 speed, then its mass is
(1) 3kg
(2) 5kg
(3) 7kg
(4) 17kg
Two spheres A and B of masses respectively collide. A is at rest initially and B is moving with velocity v along x-axis. After collision B has a velocity in a direction perpendicular to the original direction.The mass A moves after collision in the direction
(1)same as that of B
(2)opposite to that of B
(3)
(4)
The potential energy of a system increases if work is done
(1) by the system against a conservative force
(2) by the system against a nonconservative force
(3) upon the system by a conservative force
(4) upon the system by a nonconservative force
Force F on a particle moving in a straight line varies with distance d as shown in the figure. The work done on the particle during its displacement of 12 m is
(a) 21 J (b) 26 J
(c) 13 J (d) 18 J
A ball moving with velocity collides head on with another stationery ball of double the mass. If the coefficient of restitution is 0.5, then their velocities (in ) after collision will be
(1)0,1
(2)1,1
(3)1,0.5
(4)0,2
An engine pumps water through a hosepipe. Water passes through the pipe and leaves it with a velocity of 2 The mass per unit length of water in the pipe is 100 What is the power of the engine?
1. 400 W
2. 200 W
3. 100 W
4. 800 W
A particle of mass M starting from rest undergoes uniform acceleration. If the speed acquired in time T is v, the power delivered to the particle is
(1)
(2)
(3)
(4)
An explosion blows a rock into three parts. Two parts go off at right angles to each other. These two are, 1 kg first part moving with a velocity of and 2 kg second part moving with a velocity of If the third part flies off with a velocity of its mass would be
(a) (b)
(c) (d)
A body of mass 1 kg is thrown upwards with a velocity It momentarily comes to rest after attaining a height of 18 m. How much energy is lost due to air friction?
(a) 20 J (b) 30 J
(c) 40 J (d) 10 J