A wide vessel with small hole in the bottom is filled with water and kerosence, Neglecting viscosity, the velocity of water flow v, if the thickness of water laer is `H_(1)` and that of kerosene layer is `H_(2)` is (density of water `p_(1)//cc` and that of kerosene is `p_(2)//cc`.

A wide vessel with a small hole in the bottom is filled with water and kerosene. Find the velocity of water flow if the thickness of water layer is h_(1)=30 cm and that of kerosene is h_(2)=20cm brgt

A wide vessel with a small hole at the bottom is filled with two liquids. The density and height of one liquid are rho_1 and h_1 and that of the other are rho_2 and h_2(rho_1 gt rho_2) . The velocity of liquid coming out of the hole is:

Find no protons in 180mol H_(2)O Density of water = 1 gm//ml .

There is a small hole at the bottom of tank filled with water. If total pressure at the bottom is 3 atm(1 atm=10^(5)Nm^(-2)) , then find the velocity of water flowing from hole.

There is a small hole at the bottom of tank filled with water. If total pressure at the bottom is 3 atm(1 atm=10^(5)Nm^(-2)) , then find the velocity of water flowing from hole.

A water tank has a hole at a distance of 7 m from free water surface. Find the velocity of water through the hole. If the radius of the hole is 2 mm what is the rate of flow of water?

A tank is filled with water of density 10^(3)kg//m^(3) and oil of density 0.9xx10^(3)kg//m^(3) .The height of water layer is 1 m and that of the oil layer is 4 M . The velocity of efflux front an opening in the bottom of the tank is

On the opposite sides of vertical vessel filled with water, two identical holes are opened. If area of cross-section for each is a and difference of height of these two is h and p is density of water, then force on the vessel is

A wide cylindrical vessel 50cm in height is filled with water and rests on a table. Assuming the viscosity to be negligible, find at what height from the bottom of the vessel a small hole should be perforated for the water jet coming out of it to hit the surface of the table at the maximum distance l_(max) from the vessel. Find l_(max) .

A vessel whose bottom has round holes with a diameter of d=0.1mm is filled with water. The maximum height of the water level h at which the water does not flow out, will be (The water does not wet the bottom of the vessel). [ST of water=70 "dyne"//cm]