A vessel of 5 litre capacity maintained at `27^(@)C" was filled with 16g of "O_(2)gas.` Calculate the pressure of the gas in atmospheres in the container.

10 g of O_(2) were introduced into an evacuated vessel of 5 litre capacity maintained at 27^(@)C . Calculate the pressure of the gas in atmosphere in the container.

A vessel of 4.00L capacity contains 4.00 g of methane and 1.00 g of hydrogen at 27^(@)C . Calculate the partial pressure of each gas and also the total pressure in the container.

5 gm of XeF_(4) gas was introduced into a vessel of 6 litre capacity at 80^(@)C . What is the pressure of the gas in atmosphere-

A sample of charcoal weighing 6 g was brought into contact with a gas contained in a vessel of one litre capacity at 27^(@)C . The pressure of the gas was found to fall from 700 to 400 mm. Calculate the volume of the gas (reduced to STP) that is adsorbent under the condition of the experiment ("density of charcoal sample is" 1.5 g cm^(3)) .

A gaseou mixture containing 50 g of nitrogen and 10 g of oxygen were enclosed in a vessel of 10 L capacity at 27^(@)C . Calculate (a) the number of moles of each gas. (b) the partial pressure of each gas. (c ) the total pressure of gaseous mixture.

One mole of ideal gas is filled in "2" litre flask at 0^(@)C ,the pressure of the gas will be

A 6 litre cylinder contained 280 g of N_(2) gas at 27^(@) C. Due to sudden leakage through the hole, all the gas escaped into atmosphere and the cylinder became empty.If the atmospheric pressure is 1.0 atmosphere, calculate the work done by the gas.