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) .

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 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)

A large cylindrical container with open top contains a liquid upto height (2H=8m) and whose density varies as shown in the figure. Atmospheric pressure is 1 atm (=10^(5)N//m^(2)) Find the pressure at botom of cylindrical container in atm. (given rho_(0)=10^(3)Kg//m^(2), and g=10m//s^(2) )

A non-viscous liquid of constant density 1000kg//m^3 flows in a streamline motion along a tube of variable cross section. The tube is kept inclined in the vertical plane as shown in Figure. The area of cross section of the tube two point P and Q at heights of 2 metres and 5 metres are respectively 4xx10^-3m^2 and 8xx10^-3m^2 . The velocity of the liquid at point P is 1m//s . Find the work done per unit volume by the pressure and the gravity forces as the fluid flows from point P to Q.

An iron tank tas a capacity of V=50 litres of kerosene at T_(0)=273K . What amount of kerosene will flow out of the full tank, if it is brought in a room where the temperature is T=293K? [The density of kerosene rho=0.8xx10^(3)kg//m^(3) , coefficient of volume expansions of kerosene gamma_(k)=10xx10^(-4) and coefficient of linear expansio of iron alpha_(i)=1.2xx10^(-5) , all in SI units].

There is an air bubble of radius 1.0 mm in a liquid of surface tension 0.075Nm^-1 and density 1000 kg m^-3 . The bubble is at a depth of 10 cm below the free surface. By what amount is the pressure inside the bubble greater than the atmospheric pressure? Take g=9.8ms^-2 .

The air tight and smooth piston of a cylindrical vessel are connected with a string as shown. Initially pressure and temperature of the gas are P_(0) and T_(0) . The atmospheric pressure is also P_(0) . At a later time, tension in the string is (3)/(8) P_(0)A where A is the cross-sectional are of the cylinder. at this time, the temperature of the gas has become.