The pressure at the bottom of a liquid tank is not proportional to the

The pressure at the bottom of a tank of liquid is not proprtional to

The pressure at the bottom of a liquid container is determined by the

The pressure at the bottom of a water tank is 4 P, where P is .atmospheric pressure. If water is drawn out till the water level decreases by — 3/5 th, then pressure at the bottom of the tank is

The pressure at the bottom of an open tank of water is 3p where p is the atmospheric pressure. If the water is drawn out till the level of water remains one fifth, the pressure at the bottom of the tank will now be

The pressure at the bottom of a tank of water is 2P , where P is the atmospheric pressure.If the water is drawn out till the level of water is lowered by one half of initial,the pressure at the bottom of the tank will now be

If the gauge pressure, at the bottom of a water tank is 2.7 kPa, what is the height of the water [Take g = 10 m s^(-2) ] Hint : Gauge Pressure = absolute pressure - atmospheric pressure = pgh

A hole is made at the bottom of the tank filled with water (density =1000 kgm^(-3)) . If the total pressure at the bottom of the tank is three atmospheres (1 atmosphere =10^(5) Nm^(-2)) , then the velocity of efflux is nearest to

P is the atmospheric pressure and the pressure at the bottom of a tank of water is 3P. If the water is drawn out to lower the level of water by one fifth, then the pressure at the bottom of the tank will be

Assertion : The solubility of a gas in a liquid increases with increase of pressure. Reason : The solubility of a gas in a liquid is directly proportional to the pressure of the gas.

The solubility of gas in liquid is directly proportional to the pressure over the solutions at a given temperature.