A man of mass `m` is suspended in air by holding the rope of a ballon of mass `M`. As the man climbs up the rope, the ballon

A person of mass m is hanging from a rope fastened to a stationary balloon of mass M If the person climbs the rope , then with what velocity the balloon would move and in what direction ?

A ladder of length l carrying a man of mass m at its end is attached to the basket of a balloon of mass M. The entire system is in equilibrium in the air. As the man climbs up the ladder into the balloon, the balloon descends by a height h. The work done by the man is

A ladder of length l carrying a man of mass m at its end is attached to the basket of a balloon of mass M. The entire system is in equilibrium in the air. As the man climbs up the ladder into the balloon, the balloon descends by a height h. The potential energy of the man

A ladder of length l carrying a man of mass m at its end is attached to the basket of a balloon of mass M. The entire system is in equilibrium in the air. As the man climbs up the ladder into the balloon, the balloon descends by a height h. The potential energy of the balloon

A man of mass m climbs to a rope ladder suspended below a balloon of mass M . The balloon is stationary with respect to the ground. (a) If the man begins to climb the ladder at speed v (with respect to the ladder), in what direction and with what speed (with respect to the ground) will the balloon move? (b) What is the state of the motion after the man stops climbing?

A man of mass M stands on the floor of a box of mass m as shown in fig. He raises himself and the box with an acceleration a = g/3 by means of a rope going over a fixed frictionless pulley. If the mass of the rope is negligible compared to (M + m) and if M = 2m, the tension in the rope will be?