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))`.

A block of mass 6 kg is kept in equilibrium with the help of strings as shown in figure. The tension in string PQ is (g = 10 m/s2)

A wooden block of mass 1kg and density 800 Kg m^(-3) is held stationery, with the help of a string, in a container filled with water of density 1000 kg m^(-3) as shown in the figure. If the container is moved upwards with an acceleration of 2 m s^(-2) , then the tension in the string will be ( take g=10ms^(-2) )

Find the tension in the horizontal string PQ and the string QR in the given figure. [Take g=10m//s^(2) ]

A solid sphere of mass m=2 kg and density rho=500kg//m^(3) is held stationary relative to a tank filled with water. The tank is acceerating upward with acceleration 2m//s^(2) . Calculate (a) Tension in the thread connected between the sphere and the bottom of the tank. (b) If the thread snaps, calculate the acceleration of sphere with respect to the tank. (Density of water =1000kg//m^(3),g=10m//s^(2))

Two block of mass 4 kg and 2 kg are attached by an inextensible light string as shown in figure. Both the blocks are pulled vertically upwards by a force F=120N Find (a) the acceleration of the blocks, (b) tension in the string. (Take g= 10 ms^(-2) )

A bob of mass 0.2kg is suspended from the roof of a car with a massless string.The car is accelerating horizontally at a constant acceleration of 5sqrt(5) m/ s^(2) .Find the tension in the string. (g=10m/ s^(2) )

A string is used to pull a block of mass m vertically up by a distance h at a constant acceleration (g)/(3) . The work done by the tension in the string is

Two blocks of masses 2 kg and 4 kg are hanging with the help of massless string passing over an ideal pulley inside an elevator. The elevator is moving upward with an acceleration (g)/(2) . The tension in the string connected between the blocks will be (Take g=10m//s^(2) ).

A block of mass 2 kg is kept at rest on a smooth inclied plane as shown in (a) with the help of a string Find the tension in the string and reaction on the block if the string is cut, find the acceleration of the block neglecting friction.

The block shown in figure has a mass M and descends with an acceleration a. the mass of the string below the point A is m. Find the tension of the string at the point A and at the lower end.