A thin glass bulb of 100 mL capacity is evacuated and kept in 2.0 L container at `27^(@)C` and 800 mm pressure. If the bulb implodes isothermally, calculate the new pressure in the container in kilopascals (kPa)

Calculate the density of CO_(20 at 100^(@)C and 800mm hg pressure .

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.

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.

A vessel of 120 mL capacity is containing a certain mass of gas at 20^(@)C and 750 mm pressure. The gas was transferred to a vessel, whose volume is 180 ml. Calculate the pressure of the gas at 20^(@)C .

A Vessel of 120 mL capacity contains a certain mass of gas at 20^(@)C and 75 mm pressure. The gas was transferred to a vessel whose volume is 180 mL . Calculate the pressure of the gas at 20^(2)C

A 10.0 L container is filled with a gas to a pressure of 2.00 atm at 0^(@)C . At what temperature will the pressure inside the container be 2.50 atm ?

A 2 L flask containing nitrogen at 60 cm pressure is connected to a 4 L flask containing carbon monoxide at 48 cm pressure. If the temperature is kept constant, calculate the final pressure of the mixture.

A vessel of '120 mL' capacity contains a certain mass of a gas at '20^circ C' and '750 mm' pressure. The gas was trànsferred to a vessel whose volume is '180 mL .' Calculate the pressure of the gas at '20^circ C'.