The container shown below holds kerosene and air as indicated compute the pressure at P,Q,R and S in `KN//m^(2)` take spacific gravity of kerosene as 0.8

Oil enters the bend of a pipe in the horizontal plane with velocity 4ms^(-1) and pressure 280xx10^(3)Nm^(-2) as shown in the figure. Find the pressure of oil at the point Q in (kNm^(2)) (Take specific gravity of oil as 0.9 and sin37^@=0.6. )

Find the change in the volume of 1.0 litre kerosene when it is subjected to an extra pressure of 2.0xx 10^5 N m^-2 from the following data. Density of kerosene = 800 kg m^-3 and speed of sound in kerosene = 1330 m s^-1

With what terminal velocity will an air bubble 0.8 mm in diameter rise in a liquid of viscosity 0.15 N-s//m^(2) and specific gravity 0.9 ? Density of air is 1.293 kg//m^(3) .

A wide vessel of uniform cross- section with a small hole in the bottom is filled with 40cm thick layer of water and 30cm thick layer of kerosene.The relative density of kerosene is 0.8 .The initial velocity of flow of water streaming out of the hole is (take g=10ms^(-2) )

A cylindrical container has cross sectional area of A = 0.05 m^(2) and length L = 0.775 m. Thickness of the wall of the container as well as mass of the container is negligible. The container is pushed into a water tank with its open end down. It is held in a position where its closed end is h = 5.0 m below the water surface. What force is required to hold the container in this position? Assume temperature of air to remain constant. Atmospheric pressure P_(0) = 1 x× 10^(5) Pa, Acceleration due to gravity g = 10 m//s^(2) Density of water = 10^(3) kg//m^(3)

A rectangular container moves with an acceleration a along the positive direction as shown in figure. The pressure at the A in excess of the atmospheric pressure p_(0) is (take rho as the density of liquid)

Pressure 3 m below the free surface of a liquid is 15KN//m^(2) in excess of atmosphere pressure. Datermine its density and specific gravity. [g = 10m//sec^(2)]

A wide vessel of uniform cross-section with a small hole in the bottom is filled with "40cm thick layer of water and "30cm" thick layer of kerosene.The relative density of kerosene is "],[0.8" .The initial velocity of flow of water streaming out of the hole is (take g=10ms^(-2)

In the figure, l" || "m and r" || "t . They intersect at P, Q, R and S as shown in the figure. Find the angles of angleSPQ and anglePSR .

Answer the question based on the information given below: A person is standing at point P, he starts walking towards his west and walks for 8m and reached at point Q then he takes a left turn and walks for 6m and reached at point R then he takes a left turn and walks for 4m then he takes a right turn and walks for 6m and reached at point S. Point S is 8m to the east of point T.In which of the following direction is point R with respect to point S?