If one mole of an ideal gas `(C_(p,m)=(5)/(2)R)` is expanded isothermally at 300 K until it's volume is tripled, then change in entropy of gas is :

If one mole of an ideal gas (C_(p.m.)=(5)/(2)R) is expanded isothermally at 300K until it’s volume is tripled, then change in entropy of gas is:

If one mole of an ideal gas C_p = 5/2 R is expanded isothermally at 300 k until it's volume is tripled., if expansion is carried out freely (P_(ext)=0), then DeltaS is :

One mole of an ideal gas is expanded isothermally at 300 K until its volume is tripled . Find the values of DeltaS_("sys") under the condition.

When two moles of an ideal gas (C_(p.m.)=(5)/(2)R) heated form 300K to 600K at constant pressure, the change in entropy of gas (DeltaS) is:

An ideal gas at 300K is expanded isothermally to double its volume,then pressure of the gas will be

One mole of an ideal gas at 25^(@)C is subjected to expand reversible ten times of its initial volume. The change in entropy of expansion is

One mole of a perfect gas expands isothermally to ten times its original volume. The change in entropy is

Two moles of an ideal gas is expanded irreversibly and isothermally at 37^(@)C until its volume is doubled and 3.41 KJ heat is absorbed from surrounding. DeltaS_("total")("system +surrounding") is:

Four moles of an ideal gas expand isothermally from 1 litre to 10 litres are 300 K. Calculated the change in free energy of the gas (R 8.314 JK^(-1)mol^(-1)) .

One mole of an ideal gas at 250 K is expanded isothermally from an initial volume of 5 litre to 10 litres. The Delta E for this process is (R = 2 cal. Mol^(-1)K^(-1))