A spherical tank of `1.2 m` radius is half filled with oil of relative density `0.8`. If the tank is given a horizontal acceleration of `10 m//s^(2)`, the maximum pressure on the tank is `sqrt(2P)` pascal. Find the value of `P`.

(a) A spherical tank of 1.2m radius is half filled with oil of relaive density 0.8 . If the tank is given a horizontal acceleration of 10m//s^(2) . Calculate the inclination of the oil surface to horizontal and maximum pressure on the tank. (b) The volume of an air bubble is doubled as it rises from the bottom of a lake to its surface. If the atmospheric pressure is H m of mercury & the density of mercury is n times that of lake water. Find the depth of the lake.

A spherical tank of radius 0.35m is half filled with oil of relative density 0.8. if the tank is moving with a horizontal acceleration of 10(m)/(s^(2)) . The surface of oil is at rest with respect to sphere. The maximum gauge pressure of oil in the tank is nxx10^(3)Pa , the value of n is approximately equal to (take g=10(m)/(s^(2))

A spherical tank of radius 0.35m is half filled with oil of relative density 0.8. if the tank is moving with a horizontal acceleration of 10(m)/(s^(2)) . The surface of oil is at rest with respect to sphere. The maximum gauge pressure of oil in the tank is nxx10^(3)Pa , the value of n is approximately equal to (take g=10(m)/(s^(2))

A cubical tank of side 1 m is filled with 800 kg of a liquid. Find the density of liquid in kg m^(-3)

An open cubical tank completely filled with water is kept on a horizontal surface. Its acceleration is then slowly increasesd to 2m//s^(2) as shown in the figure. The side of the tank is 1m. Find the mass of water that would spill out of the tank.

A tank 5 m high is hall filled with water and then is filled to the top with oil of density 0.85 g//cm^(3) The pressure at the bottom of the tank, due to these liquids is

An open retangular tank 5mxx4mxx3m high containing water upto a height of 2m is accelerated horizontally along the longer side. (i). Determine the maximum acceleration that can be given without spilling the water. (ii). Calculate the percentage of water split over if this acceleration of increased by 20% (iii). If initially the tank is closed at the top and its accelerated horizontally by 9m//s^(2) find the gauge pressure at the bottom of the front and rear walls of the tank.