The apparent weight of man inside a lift moving up with certain acceleration is 900N. When the lift is coming down with the same acceleration apparent weight is found to be 300N. The mass of the man is (g = `10 ms^(-2)`)

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.

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 .

A lift is moving up with an acceleration of 3.675 m//sec_(2) . The weight of a man-

A pendulum is hanging from the ceiling of a cage. When the cage is moving up with certain acceleration and when it is moving down with the same acceleration, the tensions in the string are T_(1) and T_2 respectively. When the cage moves horizontally with the same acceleration, the tension in the string is,

A man of weight mg is moving up in a rocket with acceleration 4 g . The apparent weight of the man in the rocket 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

A 60kg man is inside a lift which is moving up with an acceleration of 2.45 ms^(-2) . The apparent percentage change in his weight is,

A man weighing 60 kg is in a lift moving down with an acceleration of 1.8" ms"^(-2) . The force exerted by the floor on him is

A man in a lift feels an apparent weight W when the lift is moving up with a uniform acceleration of 1/3rd of the acceleration due to gravity. If the same man were in the same lift now moving down with a uniform acceleration that is 1/2 of the acceleration due to gravity, then his apparent weight is

A person of mass 50 kg stands on a weighing scale on a lift . If the lift is descending with a downward acceleration of 9ms^(-2) what would be the reading of the weighing scale? (g =10ms^(-2)) .