A weighing machine inside a stationary lift reads 50 kg when a man stands on it. In which following cases can the reading be more than 50 kg ?

A spring weighing machine inside a stationary lift reads 50kg when a man stands on it. What would happen to the scale reading if the lift is moving upward with constant acceleration?

A spring weighing machine inside a stationary lift reads 50kg when a man stands on it. What would happen to the scale reading if the lift is moving upward with constant velocity

Pseudo force is an imaginary force which is recognised only by a non-inertial observer to explain the physical situation according to newton’s laws. Magnitude of pseudo force Fp is equal to the product of the mass m of the object and the acceleration a of the frame of reference. The direction of the force is opposite to the direction of acceleration, F_(p)=-ma spring weighing machine inside a stationary lift reads 50 kg when a man stand on it. What would happen to the scale reading if the lift is moving upward with (i) constant velocity (ii) constant acceleratioin

A spring weghing machine inside a stationary life reads 50 kg when man standds on it. What would happen to the scale reasing if the life is moving upward with (i) costant velocity, and (ii) constant acceleraton ?

A spring weghing machine inside a stationary life reads 50 kg when man standds on it. What would happen to the scale reasing if the life is moving upward with (i) costant velocity, and (ii) constant acceleraton ?

A spring balance is set in a stationary lift. A person of mass 50 kg is standing on that balance. What will be the change in the reading of the balance if the lift moves upwards with constant velocity?

A man of mass 98 kg, is standing on a weighing machine in a lift. What will be the readings of the weighing machine in the following cases: (i) the lift ascends at 100 cm per second. (ii) The lift descends with an acceleration of 30 cm cdot s^(-2) ? [ g = 980 cm cdot s^(-2) ]

A man stands on a weighing machine kept inside a lift. Initially the lift is ascending with the acceleration 'a' due to which the reading is W . Now the lift decends with the same acceleration and reading 10% of initial. Find the acceleration of lift ?

A man stands on a weighing machine kept inside a lift. Initially the lift is ascending with the acceleration 'a' due to which the reading is W . Now the lift decends with the same acceleration and reading 10% of initial. Find the acceleration of lift ?

A spring balance is set in a stationary lift. A person of mass 50 kg is standing on the balance. What will be the change in the balance reading when the lift moves upwards with constant acceleration?