Two vessels of capactie 1.5 L and 2.0 L containing hydrogen at 750 mm pressure and oxygen at 100 mm pressure, respectivity are connected to each other through a valve. What will be the final pressure of the gaseous mixture assuming that the temperature remains constant?

Two vessels whose volumes are in the ratio 2:1 contains nitrogen and oxygen at 800 mm and 680 mm pressure respectively, when they are connected together, what will be the pressure (in cm of Hg) of the resulting mixture ?

In a 1 L flask, 250 mL nitrogen at 720mm pressure and 380 mL of oxygen at 650 mm pressure are taken together. If temperature is kept constant, what will be the pressure of the mixture?

500 mL of nitrogen at 0.936 bar pressure and 1000 mL oxygen at 0.80 bar pressure are put together in a 2 L flask. IF temperature is kept constant, calculate the final pressure of the mixture.

250 mL of nitrogen gas maintained at 720 mm pressure and 380 mL of oxygen gas maintained at 650 mm pressure are put together in 1 L flask. If temperature is kept constant, what will be the final pressure of the mixture?

250 mL of nitrogen gas maintained at 720 mm pressure and 380 mL of oxygen gas maintained at 650 mm pressure are put together in 1 L flask. If temperature is kept constant, what will be the final pressure of the mixture?

One litre flask contain air, water vapour and a small amount of liquid water at a pressure of 200 mm Hg. If this is connected to another 1L evacuated flask, what will be the final pressure of the gas mixture at equilibrium? Assume the temperature to be 50^(@)C. Aqueous tension at 50^(@)C = 93 mm of Hg

Two vessel of volumes 5 and 3 litres contain air at pressure of 3 and 7 atmospheres, respectively . What will be the resultant pressure when they are conncected through a small - bore tube ? Assume that the temperature remains constant throughout .