A mass of 10 kg is hung to a spring balance in lift. If the lift is moving with an acceleration `g//3 `in upward & downward directions, choose the correct options related to the reading of the spring balance.

A body of mass 2 kg is hung on a spring balance mounted vertically in a lift. If the lift descends with an acceleration equal to the acceleration due to gravity ‘ g ’, the reading on the spring balance will be

A block of mass m is placed on weighing machine and it is also attached with a spring balance. The whole system is placed in a lift as shown in figure. Left is moving with constant acceleration 10 m//s^(2) in upward direction. The reading of the weighing machine is 500 N and the reading of spring balance is 300 N. Find the actual mass of the block in kg. (Takr g = 10 m//s^(2) )

A lift of mass 1000kg is moving with an acceleration of 1m//s^(2) in upward direction. Tension developed in the string, which is connected to the lift, is.

A body of 2 kg is suspended on a spring balance hung vertically in a lift . If the lift is falling downward under acceleration due to gravity g then what will be the reading of the balance ? If going upward with the same acceleration then ?

A man of mass 60 kg is standing on a spring balance inside a lift. If the lift falls downwards, then the reading of the spring balance will be:-

A boy whose mass is 50 kg stands on a spring balance inside a lift. The lift starts to ascent with an acceleration of 2ms^(-2) . The reading of the machine or balance (g=10ms^(-2)) is

The mass of a body measured by a physical balance in a lift at rest is found to be m . If the lift is going up with an acceleration a , its mass will be measured as