A gas occupies a volume of `2.5 L` at `9xx10^(5)Nm^(-2)`. Calculate the additional pressure required to decrease the volume of the gas to `1.5 L`, Keeping temperature constant.

A gas occupies a volume of 250 mL at 0.98 bar of Hg and 25^(@)C . What additional pressure is required to reduce the volume of the gas to 200 mL at the same temperature ?

Calculate the minimum pressure required to compress 250 L of air of 100 L at 1 bar keeping the temperature constant.

A gas occupies a volume of 250 cm^(3) at 745 torr and 25^(@)C . What additional pressure is required to reduce the volume of the gas to 200 cm^(3) at the same temperature ?

What should be the percentage increase in pressure for a 5% decrease in volume of gas at constant temperature ?

At a particular temperature, a certain quantity of gas occupies a volume of 74 cm^3 at a pressure gas occupies a volume of 74 cm at a pressure 740 mm, what will be the volume of the gas at the same temperature ?

Calculate the moles of an ideal gas at pressure 2 atm and volume 1 L at a temperature of 97.5 K

A 1 mol gas occupies 2.4L volume at 27^(@) C and 10 atm pressure then it show :-

7.00 g of a gas occupies a volume of 4.1 L at 300 K and 1 atm pressure. What is the molecular mass of the gas?

A gas occupying a volume of 10^(-2) m ^(3). at a pressure of 5 atmospheres expands isothermally to a pressure of 1 atmosphere. Calculate the work done.

Assertion: On compressing a gas to half the volume, the number of molecules is halved. Reason: The number of moles present decreases with decrease in volume keeping the pressure and temperature constant.