Reading shown in two spring balances `S_(1)` and `S_(2)` is 90kg and 30kg respectively and lft is accelerating upwards with acceleration `10m//s^(2).S_(1)` in elongated and `S_(2)` is compressed. The mass is stationary with respect to life. Then the mass of the block will be

The apparent weight of the body, when it is travelling upwards with an acceleration of 2m//s^(2) and mass is 10 kg , will be

The mass of a lift is 600 kg and it is moving upwards with a uniform acceleration of 2m//s^(2) . Then the tension in the cable of the lift is-

A block of mass 1 kg and density 0.8g//cm^(3) is held stationary with the help of a string as shown in figure. The tank is accelerating vertically upwards with an acceleration a =1.0m//s^(2) . Find (a) the tension in the string, (b) if the string is now cut find the acceleration of block. (Take g=10m//s^(2) and density of water =10^(3)kg//m^(3)) .

The mass of a lift if 600kg and it is moving upwards with a uniform acceleration of 2m//s^(2) . Then the tension in the cable of the lift is :

In the figure acceleration of A is 1m//s^(2) upward, acceleration of B is 7m//s^(2) upward acceleration of C is 2m//s^(2) upward. The acceleration of D will be.

Two blocks with masses M_(1) and M_(2) of 10 kg and 20 kg respectively are placed as in fig. mu_(s)=0.2 between all surfaces, then tension in string and acceleration of M_(2) block will be:

A mass of 1 kg is supended by a string. It is (i) lifted up with an acceleration 4.9 m//s^(2) (ii) lowered with an acceleration 4.9 m//s^(2) Then the ration of the tension in the string in the two cases is

A block of mass 10 kg, moving with acceleration 2m//s^(2) on horizontal rough surface is shown in figure

A force of 10 N gives a mass m_(1) an acceleration of 10m//s^(2) and a mass m_(2) an acceleration of 20m//s^(2) What acceleration would it give if both the masses are tid together ?