Find the typical de Broglie wavelength associated with a He atom in helium gas at room temperature `(27^(@)C)` and 1 atm pressure, and compare it with the mean separation between two atoms under these conditions.

The weight of 350 mL of a diatomic gas at 0^(@)C temperature and 2 atm pressure is 1g. Calculate the weight of its one atom.

Volume of a given mass of an ideal gas is VL at 27^(@)C and 1 atm pressure. If volume of the gas is reduced by 80% at constant pressure, temperature of the gas will have the be-

Find the. final temperature when under same pressure a gas expands from 750 cc to 1 lit. Initial temperature is -30^@C

Pressure of 1 g of an ideal gas A at 27^@C is found to be 2 bar when 2g of another ideal gas B is introduce in the same flask at same temperature the pressure becomes 3 bar. Find a relationship between their molecular masses.

When 2 g of a gas 'M' is introduced into an empty flask at 30^(@)C , its pressure becomes 1 atm. Now, if 3g of another gas 'N' is introduced in the same flask at the same temperature, the total pressure becomes 1.5 atm. Find the ratio of the molar masses of the two gases.

Pressure of 1g of ann ideal gas A at 27^(@)C is found to be 2 bar. When 2 g of another ideal gas B is introduced in the same flask at same temperature, the pressure becomes 3 bar. Find a relationship between their molecular masses.

A closed vessel of fixed volume is filled with 3.2g O_(2) at a pressure of P atm and at a temperature of TK. The container is then heated to a temperature of (T+30)K. to maintain the pressure of P atm inside the container at (T+30)K, a certain amount of gas is removed from the container. the gas removed is found to have a volume of 246 mL at 1 atm and 27^(@)C . calculate T.