The mass of a lift is 2000 kg. When the tension in the supporting cable is 28000 N, then its acceleration is

The mass of a lift is 2000kg . When the tensioon in the supporting cable is 28000N , then its acceleration is.

When an empty lift is moving down with an acceleration of g/4 ms^(-2) the tension in the cable is 9000N. When the lift is moving up with an acceleration of g/3 ms^(-2) the tension in the cable is

The apparent weight of a man in a lift is w_1 when lift moves upwards with some acceleration and is w_2 when it is accelerating down with same acceleration. Find the true weight of the man and acceleration of lift.

A lift is going up with variable velocity as shown in figure if mass of the lift is 2000 kg Then tension in the rope of lift at t = 5 second is

The mass of man when standing on the lift is 60 kg. The weight when the lift is moving upwards with acceration 4.9 ms^(-2) is

A lift is going up. The total mass of the lift and the passenger is 1500 kg. The variation in the speed of the lift is as shown in the figure. Find the tension in the rope pulling the lift at t = 11 th second.

Two masses 8 kg and 12 kg are connected at the two ends of a light in extensible string that passes over a friction less pulley Find the acceleration of the masses and tension in the string , when the masses are released .

The apparent weight of a man in a lift is W_(1) when lift moves upwards with some acceleration and is W_(2) when it is accerating down with same acceleration. Find the true weight of the man and acceleration of lift .

The mass of a lift if 600kg and it is moving upwards with a uniform acceleration of 2m//s^(2) . Then the tension in the cable of the lift is :

Consider two objects of different masses connected by a cable passing over a massless and frictionless Pulley. Derive expressions for the tension in the cable and acceleration of the objects.