`2.25 dm^(3)` of chlorine at 283 K is heated until the volume becomes `30 dm^(3)`. To what temperature the gas must be raised to accomplish the change ?

1 L of air weighs 1.293 g at 0^(@)C and 1 atm pressure. At becomes 30 dm^(3) . To what temperature the gas must be raised to accomplish the change ?

At what temperature 25 dm ^3 of oxygen at 283 K is heated to make its volume 30 dm^3 ?

It is desired to increase of the volume of a gas by 20% without changing the pressure. To what temprature the gas must be heated if the initial temperature of the gas is 27^(@)C .

10 dm^(3) of N_(2) gas and 10 dm^(3) of gas X contain the same number of molecules at the same temperature, the gas (X) may be

2 dm^(3) of methane under 600 kPa and 300K and 4 dm^(3) of oxygen under 900k Pa and 300K are forced into 3 dm^(3) evacuated vessel, the temperature being maintained at 300K . Calculate the change in entropy of gases assuming that they are ideal.

(i) A sample of a gas initially at 27^(@) C is compressed from 40 litres to 4 litres adiabatically and reversibly. Calculate the final temperature (C_(v) =2.5 R) . (ii) Calculate the maximum work done in expanding 16 gm of oxygen at 300 K and occupying, a volume of 5 dm^(3) isothermally until the volume becomes 25 dm^(3) . (iii) 10 gm of argon gas is compressed isothermally and reversibly at a temperature of 27^(@) C from 10 litre to 5 litre. Calculate q, w .DeltaE and DeltaH for this process.

A sample of a gas occupies 100 dm^(3) at 1 bar pressure and at 27^(o)C .If the volume of the gas is reduced to 25 dm^(3) at the same temperature, what additional pressure must be be applied?

A sample of a gas occupies 100 dm^(3) at 1 bar pressure and at 25^(o)C .If the volume of the gas is reduced to 5 dm^(3) at the same temperature, what additional pressure must be be applied?

A sample of a gas occupies 100 dm^(3) at 1 bar pressure and at 27^(o)C .If the volume of the gas is reduced to 5 dm^(3) at the same temperature, what additional pressure must be be applied?

Three moles of an ideal gas (C_(v,m) = 12.5 J K^(-1) mol^(-1)) are at 300 K and 5 dm^(3) . If the gas is heated to 320K and the volume changed to 10 dm^(3) , calculate the entropy change.