A particle tied to a string describes a vertical circular motion of radius r continually. If it has a velocity at the highest point, then the ratio of the respective tensions in the string holding it at the highest and lowest points is
4 : 3
5 : 4
1 : 4
3 : 2
The potential energy of a conservative system is given by V(x) = (x2 − 3x) joule, where x is measured in metre. Then its equilibrium position is at
1.5 m
2 m
3 m
1 m
Two bodies of masses 4 kg and 9 kg are separated by distance of 60 cm. A 1 kg mass is placed in between these two masses. If the net force on 1 kg is zero, then its distance from 4 kg mass is
26 cm
30 cm
24 cm
32 cm
Two spherical rain drops with radii in the ratio 1 : 2 fall from a great height through the atmosphere. The ratio of their momenta after they have attained terminal velocity is
1 : 8
2 : 1
1 : 32
1 : 2
The sum of magnitudes of two forces acting at a point is 16 N and their resultant N is at 90° with the force of smaller magnitude. The two forces (in N) are
11, 5
9, 7
2, 14
4, 12
A particle of mass m is moving in a horizontal circle of radius r, under a centripetal force , where k is a constant.
The potential energy of the particle is zero
The potential energy of the particle is
The total energy of the particle is
The kinetic energy of the particle is
A.
The potential energy of the particle is zero
For horizontal planes potential energy remains constant equal to zero, if we assume surface to be the zero level.
A passenger getting down from a moving bus, falls in the direction of the motion of the bus. This is an example for
moment of inertia
second law of motion
inertia of motion
inertia of rest
A body of mass 6 kg is hanging from another body of mass 10 kg as shown in figure. This combination is being pulled up by a string with an acceleration of 2 ms-2. The tension T1 is, (g =10 ms-2)
240 N
150 N
220 N
192 N
Which one of the following is not a contact force ?
Viscous force
Air resistance
Magnetic force
Buoyant force