A vessel of 2L capacity contain hydrogen at 380 mm pressure at `27^(@)C.` 16 gm of `O_(2)` is added to the container-then find the total pressure where R = 0.0821 L atm `mol^(-1) K^(-1).`

The volume of 2.8g of CO at 27°C and 0.821 atm pressure is (R = 0.0821 l atm Km^(-)ol^(-) )

Equal masses of CH_(4) and O_(2) are mixed in an empty container at 25^(@)C. The fraction of the total pressure exerted by oxygen is

A 34.0 L cylinder contains 212 g O_(2) gas at 27^(@)C. What mass of O_(2) (g) must be released to reduce the pressure to 2.463 atm?

A vessel of '1000 K' contains 'CO_2', with a pressure of '0.5 atm .' Some of the 'CO_2' converted into 'CO' on the addition of graphite. The value of 'K' if the total pressure at equilibrium is '0.8 atm'. is:

The temperature at which 10% (w/v) aqueous solution of glucose will exhibit the osmotic pressure of 16.4 atm, is: ("R = 0.082 dm"^(3)" atm K"^(-1) "mol"^(-1))

A flask at 295 K contains a gaseous mixture of N_2 and O_2 at a total pressure of 1.8 atm. If 0.2 moles of N_2 and 0.6 moles of O_2 are present, find the partial pressure on N_2 and O_2 .