The elevator shown in fig. is descending...

The elevator shown in fig. is descending with an acceleration of 2 `m//s^(2)`. The mass of block A is 0.5 kg. The force exerted by the block A on the block B is

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The elevator shown in figure is descending, with an acceleration of 2 m//s^(2) . The mass of block A is 0.5 kg. the force exerted by block A on block B is (mass of block B is 1 kg)

A block is kept on the floor of an elevator. The elevator starts descending with an acceleration of 12 m//s^(2) the displacement of the block during 1^(st) one second wth respect to elevator is-

1m downwards

1 m upwards

5m downwards

zero meter.

A block of mass ( sqrt( 3))/( 10) kg is placed on a rough horizontal surface as shown in the figure. A force of 1N is applied at on end of the block and the block remains stationary . The normal force exerted by the surface on the block acts ( g = 10 m//s^(2) )

through the center of mass of the block

through point A.

through point B.

through the point at a distance 5cm. From A

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The elevator shown in fig. is descending with an acceleration of 2 `m//s^(2)`. The mass of block A is 0.5 kg. The force exerted by the block A on the block B is

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The elevator shown in figure is descending, with an acceleration of 2 m//s^(2) . The mass of block A is 0.5 kg. the force exerted by block A on block B is (mass of block B is 1 kg)

A block is kept on the floor of an elevator. The elevator starts descending with an acceleration of 12 m//s^(2) the displacement of the block during 1^(st) one second wth respect to elevator is-

A block of mass ( sqrt( 3))/( 10) kg is placed on a rough horizontal surface as shown in the figure. A force of 1N is applied at on end of the block and the block remains stationary . The normal force exerted by the surface on the block acts ( g = 10 m//s^(2) )

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