An oil of relative density `0.9` and viscosity `0.12 kg//ms` flows through a `2.5 cm` diameter pipe with a pressure drop of `38.4 kN//m^(2)` in a length of `30 m`. Determine
Determine the discharge

An oil of relative density 0.9 and viscosity 0.12 kg//ms flows through a 2.5 cm diameter pipe with a pressure drop of 38.4 kN//m^(2) in a length of 30 m . Determine Determine the shear stress at the pipe wall

An oil of relative density 0.9 and viscosity 0.12 kg//ms flows through a 2.5 cm diameter pipe with a pressure drop of 38.4 kN//m^(2) in a length of 30 m . Determine Determine the shear stress at the pipe wall

An oil of relative density 0.9 and viscosity 0.12 kg//ms flows through a 2.5 cm diameter pipe with a pressure drop of 38.4 kN//m^(2) in a length of 30 m . Determine Determine the power required to maintain the flow

An oil of relative density 0.9 and viscosity 0.12 kg//ms flows through a 2.5 cm diameter pipe with a pressure drop of 38.4 kN//m^(2) in a length of 30 m . Determine Determine the power required to maintain the flow

Two horizontal pipes of diameter 4 cm and 8 cm are connected together and water is flowing through the first pipe with a speed of 5 ms ""^(-1) . Calculate the speed and pressure of water in the second pipe if water pressure in the first pipe is 3 xx 10^(4) N//m^(2) .

An oil drop of density 950 kg. m^-3 and radius 10^-6 m is falling through air. The density of air is 1.3 kg. m^-3 and its coefficient of viscosity is 181xx10^-7 SI unit. Determine the terminal velocity of the oil drop. [g=9.8m. S^-2]

A sphere of radius 0.25mm and of density 9000kg/m^3 falls through an oil of co-efficient of viscosity 0.2 Ns/m^2 and of density 800kg/m^3 . Find the terminal velocity of the sphere.

A vessel of 4m^(3) volume contains an oil which weight 30.2kN. Determine the specific gravity of the oil.

Oil of density 800 kg/m^3 is flowing through a horizontal pipe line. At two points separated by a distance of 1km pressure difference is 5 N/m^3 . Calculate the change in KE per kg of the oil flowing at these points.