One mole each of hydrogen, oxygen and nitrogen are mixed in a close container of volume `10` L and temperature `27^(@)C.` Calculate the pressure exerated by the mixture. `(R=.314Jmol^(-1)K^(-1))`

2 moles of each of hydrogen, carbon dioxide and chlorine are mixed in a close vessel of volume 3 litres and temperature 0^(@)C . Calculate the pressure exerted by the mixture. (R=8.31" J "mol^(-1)K^(-1))

2 moles each of hydrogen, carbon dioxide and chlorine are mixed in a close vessel of volume 3 litres and temperature 0^@ C . Calculate the pressure exerted by the mixture. ( R=8.31 J mol^(-1) K^(-1) )

One half mole each of nitrogen, oxygen and carbon dioxide are mixed in enclosure of volume 5 litres and temperature 27^(@) C . Calculate the pressure exerted by the mixture. Given R = 8.31 J mol^(-1) K^(-1) .

8g of oxygen, 14 g of nitrogen and 22 g carbon dioxide are mixed in an encloser of volume 10 litre and temperature 27^(@)C . Calculate the pressure exerted by the mixture , R= 8.3 J "mole"^(-1)K^(-1) , Molecular weight of oxygen , nitrogen and carbon 32 , 28 and 44 respectively.

16 gram of oxygen, 14 gram of nitrogen and 11 gram of carbon dioxide are mixed in an enclosure of volume 5 L and temperature 27^(@)C. The pressure exerted by the mixture is

One gram of hydrogen and 112 g of nitrogen are enclosed in two separate containers each of volume 5 L and at 27^@C . If the pressure of the hydrogen is 1 atm, then the pressure of nitrogen would be

One mole of gas A and three moles of a gas B are placed in flask of volume 100 litres at 27°C. Calculate the total partial pressure of the gases in the mixture.

Calculate the molar specific heat of oxygen gas at constant volume. (R=8.314" J "mol^(-1)K^(-1))

An enclosure of volume 3 litre contains 16g of oxygen, 7 g of nitrogen and 11 g of carbon - di-oxide at 27^(@)C . The pressure exerted by the mixture is approximately [R = 0.0821 lit "atm mole"^(-1) K^(-1)]