16g of oxygen and 14 g of nitrogen are mixed in an enclosure of volume 5000`cm^3` at a temperature of 300K. The resulting pressure of the mixture is nearly

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

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.

12 gm He and 4 gm H_(2) is filled in a container of volume 20 litre maintained at temperature 300 K. the pressure of the mixture is nearly :

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) .

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))

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))

32 g of oxygen and 3.0 g of hydrogen are mixed and kept in a vessel at 760 mm pressure and 0^(@)C . The total volume occupied by the mixture will be nearly

56.0 g of nitrogen and 48.0 g of O_(2) are mixed together in a vessel at a temperature of 300K and a pressure of one atmosphere . Assuming the gases to be ideal, find the density of the mixture.

2g of hydrogen is sealed in a vessel of volume 0.02m^(3) and is maintained at 300K. Calculate the pressure in the vessel.

16 g of oxygen and 3g of hydrogen are mixed and kept at 760 mm of Hg pressure and 0^(@)C . The total volume occupied by the mixture will be nearly "_______________" .