A `34.0 dm^(3)` cylinder contains `212 g` of oxygen gas at `21^(@)C`. What mass of oxygen must be released to reduce the pressure in the cylinder to `1.24` bar ?

A cylinder of 20.0 L capacity contains 160 g oxygen gas at 25^(@)C . What mass of oxygen must be released to reduce the pressure of the cylinder to 1.2 atm ?

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

A 1 L flask contains 32 g O_(2) gas at 27^(@)C . What mass of O_(2) must be released to reduce the pressure in the flask to 12.315 atm?

A 8.3 L cylinder contains 128.0gO_(2) gas at 27^(@)C . The mass of O_(2) gas must be released to reduce the pressure to 6.0 bar is grms

A 5L cylinder contained 10 moles of oxygen gas at 27^(@)C . Due to sudden leakage through the hole, all the gas escaped into the atmosphere and the cylinder got empty. If the atmospheric pressure is 1.0atm , calculate the work done by the gas.

A 5L cylinder contained 10 moles of oxygen gas at 27^(@)C . Due to sudden leakage through the hole, all the gas escaped into the atmosphere and the cylinder got empty. If the atmospheric pressure is 1.0atm , calculate the work done by the gas.

A 5 litre cylinder contained 10 moles of oxygen gas at 27^(@)C . Due to sudden leakage through the hole, all the gas escaped into the atmosphere and the cylinder got empty. If the atmosphere pressure is 1.0 atm. Calculate the work done by the gas. Assuming gas to be ideal.