A solid sphere of mass 2 kg is resting inside a cube as shown in the figure. The cube is moving with a velocity . Here t is the time in second. All surface are smooth. The sphere is at rest with respect to the cube. What is the total force exerted by the sphere on the cube. (Take g = 10 m/s2)
1.
2. 29 N
3. 26 N
4.
The masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. A force of 200 N acts on the 20 kg mass. At the instant shown, the 10 kg mass has acceleration 12 m/sec2. What is the acceleration of 20 kg mass?
(1) 12 m/sec2
(2) 4 m/sec2
(3) 10 m/sec2
(4) Zero
The blocks A and B are arranged as shown in the figure. The pulley is frictionless. The mass of A is 10 kg. The coefficient of friction of A with the horizontal surface is 0.20. The minimum mass of B to start the motion will be
(1) 2 kg
(2) 0.2 kg
(3) 5 kg
(4) 10 kg
Two carts of masses 200 kg and 300 kg on horizontal rails are pushed apart. Suppose the coefficient of friction between the carts and the rails are same. If the 200 kg cart travels a distance of 36 m and stops, then the distance travelled by the cart weighing 300 kg is
(1) 32 m
(2) 24 m
(3) 16 m
(4) 12 m
Assuming the coefficient of friction between the road and tyres of a car to be 0.5, the maximum speed with which the car can move round a curve of 40.0 m radius without slipping, if the road is unbanked, should be
(1) 25 m/s
(2) 19 m/s
(3) 14 m/s
(4) 11 m/s
Consider a car moving on a straight road with a speed of 100 m/s. The distance at which the car can be stopped is:
(1) 100 m
(2) 400 m
(3) 800 m
(4) 1000 m
A block of mass 0.1 kg is held against a wall by applying a horizontal force of 5 N on the block. If the coefficient of friction between the block and the wall is 0.5, the magnitude of the frictional force acting on the block is
(1) 2.5 N
(2) 0.98 N
(3) 4.9 N
(4) 0.49 N
A body of mass m rests on horizontal surface. The coefficient of friction between the body and the surface is μ. If the mass is pulled by a force P as shown in the figure, the limiting friction between body and surface will be
(1) μmg
(2)
(3)
(4)
Two blocks A and B of masses 3m and m respectively are connected by a massless and inextenisible string. The whole system is suspended by a massless spring as shown in figure. The magnitudes of acceleration of A and B immediately after the string is cut, are respectively
1.
2.
3.
4.
A spring of force constant k is cut into lengths of ratio 1:2:3. They are connected in series and the new force constant is . If they are connected in parallel and force constant is is
(1) 1:6
(2) 1:9
(3) 1:11
(4) 6:11