A monkey of mass 20 kg is holding a vertical rope. The rope will not break when a mass of 25 kg is suspended from it but will break, if the mass exceeds 25 kg. What is the maximum acceleration with which the monkey can climb up along the rope ? (Take `g=10m//s^(2)`)

A monkey of mass 20kg is holding a vertical rope. The rope will not break when a mass of 25kg is suspended from it but will break it the mass exeeds 25kg . What is the maximum acceleration with which the monkey can climb up along the rope? (g=10m//s^(2)) .

A monkey of mass 20kg is holding a vertical rope. The rope will not break when a mass of 25kg is suspended from it but will break it the mass exeeds 25kg . What is the maximum acceleration with which the monkey can climb up along the rope? (g=10m//s^(2)) .

A monkey of 25 kg is holding a vertical rope. The rope does not break if a body of mass less than 30 kg is suspended with the rope. What will be the maximum acceleration with which the monkey can climb up along the rope ? (Take g=10 ms^(-2) )

A body of mass 60 kg is holding a vertical rope . The rope can break when a mass of 75 kg is suspended from it. The maximum acceleration with which the boy can climb the rope without breaking it is : ( g = 10 m//s^(2))

A monkey of mass 20 kg climbs on a rope which can stand a maximum tension of 300 N. In which of the following case will the rope break . The monkey

The maximum tension a rope can withstand is 60 kg.wt. The ratio of maximum acceleration with which two boys of masses 20 kg and 30 kg can climb up the rope at the same time is

A rope of negligible mass passes over a pulley of negligible mass attached to the ceiling, as shown in figure. One end of the rope is held by Student A of mass 70 kg , who is at rest on the floor. The opposite end of the rope is held by Student B of mass 60 kg , who is suspended at rest above the floor. The minimum acceleration a_(0) with which the Student B should climb up the rope to lift the Student A upward off the floor. (g=10m//s^(2))

A rope of negligible mass passes over a pulley of negligible mass attached to the ceiling, as shown in figure. One end of the rope is held by Student A of mass 70 kg , who is at rest on the floor. The opposite end of the rope is held by Student B of mass 60 kg , who is suspended at rest above the floor. The minimum acceleration a_(0) with which the Student B should climb up the rope to lift the Student A upward off the floor. (g=10m//s^(2))

A 50 kg man stuck in flood is being lifted vertically by an army helicopter with the help of light rope which can bear a maximum tension of 70 kg-wt. The maximum acceleration with which helicopter can rise so that rope does not breaks is (g = 9.8 ms^-2)

A monkey of mass 40 kg climbs on a massless rope which can stand a maximum tension of 500 N. In which of the following cases will the rope break? ("Take g"=10m s^(-2))