An elevator is accelerating upwards with an acceleration of `6m//s^(2)` . Inside it a person of mass 50kg is standing on a weighing machine which is kept on an inclined plane having angle of inclination `60^(@)` . The reading of the weighing machine is:

A man of mass 75kg stands on a weighing machine in a lift which is moving upwards with uniform acceleration 1.2m s^(-2) ,find the reading of weighing machine.

A 80 kg man is standing on a weightless weighing machine as shown in the figure if mass of hanging block is 40 kg, then reading of weighing machine, is

A man of mass 70 kg stands on a weighing scale in a lift which is moving downward with the uniform acceleration of 5 m/s^2 . The reading on the weighing scale is

A block of mass m kg is kept on a weighing machine in an elevator. If the elevator is retarding upward by a ms^(-2) , the reading of weighing machine is (in kgf)

A man of mass 60kg is standing on a weighing machine kept in a box of mass 30kg as shown in the diagram If the man man ages to keep the box stationary, find the read ing of the weighing machine .

A man of mass M stands on a weighing machine in an elevator accelerating upwards with an acceleration a. Draw the free-body diagram of the man as observed by the observer A (stationary on the ground) and observer B (stationary on the elevator). Also, calculate the reading of the weighing machine.

A person of mass 50kg stands on a weighting scale on a lift If the lift is ascending upwards with a uniform acceleration of 9ms^(-2) what would be the reading of the weighing scale?(g=10ms^(-1)) in kg wt

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)) .

An elevator weighing 6000 kg is pulled upward by a cable with an acceleration of 5ms^(-2) . Taking g to be 10 ms^(-2) , then the tension in the cable is