In a given figure the acceleration of `M` is `(g=10ms^(-2))`

Three blocks of masses m_(1)=4kg, m_(2)=2kg, m_(3)=4kg are connected with ideal strings passing over a smooth, massless pulley as shown in figure. The acceleration of blocks will be (g=10m//s^(2))

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)) .

In the figure shown, the acceleration of block of mass m_(2) is 2m//s^(2) . The acceleration of m_(1) :

A balloon of mass 10 kg is raising up with an acceleration of 20 ms^(-2) . If a mass of 4 kg is removed from the balloon its acceleration becomes ( take, g=10ms^(-2) )

A block B is pulled by a force of 18 N applied to a light pulley as shown in the figure. If the coefficient of friction is 0.4 and the acceleration of the block is 0.5 ms^(-2) , the mass of the block is (g = 10 m//s^2)

A man of 60kg mass is in a lift. Find the apparent weight of the man when the lift is moving (a) up with uniform acceleration 4ms^(-2) (b) down with uniform acceleration of 2ms^(-2) ( g=10ms^(-2))

The friction of the air causes a vertical retardation equal to 10% of the acceleration due to gravity (take g=10ms^(-2)) The maximum height will be decreased by:

Two blocks A and B of masses 10 kg and 15 kg are placed in contact with each other rest on a rough horizontal surface as shown in the figure. The coefficient of friction between the blocks and surface is 0.2. A horizontal force of 200 N is applied to block A. The acceleration of the system is ("Take g"=10ms^(-2))

A train is moving along a straight line with a constant acceleration a. A body standing in the train throws a ball forward with a speed of 10ms^(-1) , at an angle of 60^(@) to the horizontal . The body has to move forward by 1.15 m inside the train to cathc the ball back to the initial height. the acceleration of the train. in ms^(-2) , is:

A 4 kg mass is resting on a horizontal surface. For this surface mu_s = 0.6 & mu_(k) = 0.2 . Force required to move the body with 5ms^(-2) acceleration is (g = 10ms^(-2) )