A sample of helium has volume of 520 mL at `100^(@)C`. Calculate the temperature at which the volume will become 260 mL. Assume that pressure is constant.

A sample of helium gas has a volume of 500 cm^(3) at 373 K . Calculate the temperature at which the volume become 260 dm^(3) . Assume that pressure id kept constant.

A sample of gas is found to occupy a volume of 900 cm^(-3) at 27^(@)C . Calculate the temperature at which it will occupy a volume of 300 cm^(3) , provided the pressure is kept constant.

1 mole of H_(2) gas has a volume of 25 mL at 20^(@) C and at a certain pressure. At what temperature, the volume will be doubled if the pressure is kept constant ?

A sample of ozone gas occupies 117 mL at 100^(@) C . At what temperature in degrees Celsius would it occupy 234 mL if the pressure did not change? Strategy : We know the volume of the gas at one temperature and we wish to know its temperature corresponding to a seconf volume(constant pressure). This implies the use of Charles'law, we must remember to carry out calculations with all temperatures expressed on the Kelvin scale , converting to or from Celsius as required.

A sample of gas has a volume of 0.2 litre at 1 atm pressure and 0^(@) C. At the same pressure but at 273^(@) C its volume will become

The volume of a gas at 20^(@)C is 200 ml. If the temperature is reduced to -20^(@)C at constant pressure, its volume will be :-

A sample of nitrogen occupies a volume of 1.0 L at a pressure of 0.5 bar at 40^(@)C . Calculate the pressure if the gas is compressed to "0.225 mL at "-6^(@)C .

A sample of a gas occupies 600 mL at 27^(@)C and 1 atm. What will be the volume at 127^(@)C if the pressure is kept constant ?