Two men of same mass m hold the two ends of a rope and start pulling each other on a friction less plane. Find the position where they will meet. Is there any difference, if masses of men are not equal.

Two men of unequal masses hold on to the two sections of a light rope passing over a smooth light pulley. Which of the following are possible ?

Tow men of masses m_(1)and m_(2) hold on the opposite ends of a rope passing over a frictionless pulley. The men m_(1) climbs up the pore with an acceleration of 1.2m//s^(2) relative to the rope. The mann m_(2) climbs up the rope with an acceleration of 2m//s^(2) relative to the rope. Find the tension in the rope if m_(1)40 kg and m_(2)=60kg. Also find the time after the time after which they will be at same horizontal level if they start from rest and are initially separted by 5 m.

Two men of equal masses stand at opposite ends of the diameter of a turntable disc of a certain mass. Moving with constant angular velocity. The two men make their way to the middle of the turntable at equal rates in doing so

A block of mass M is tied to one end of a massless rope the other end of the rope is in the hands of a man of mass 2M as shown in the figure the block and the man are resting on a rough plank of mass M as shown in the figure the whole system is resting on a smooth horizontal surface the man pulls the rope pulley is massless and friction what is the displacement of the plank when the block meets the pulley ( Man does not leave his position on plank during the pull)

A block of mass M is pulled along a horizontal frictionless surface by a rope of mass m . A force P is applied to the other end of the rope . (a) Find the acceleration of the block and the rope . (b) Find the force that the rope exerts on the block M in terms of P, M and m .

The pulley arrangements of Figs. (a) and (b) are identical. The mass of the rope is negligible. In (a) the mass m is lifted up by attaching a mass 2m to the other end of the rope. In (b), m is lifted up by pulling the other end of the rope with a constant downward force F=2mg . The acceleration of m is the same in both cases

As shown in figure a monkey of 20g mass is holding a light rope that passes over a frictionless pulley. A bunch of bananas of the same mass is tied to the other end of rope. Inorder to get access to the bunch the monkey starts climbing the rope. The distance between the monkey and the bananas is