The entropy change involed in the isothermal reversible expansion of 2 moles of an ideal gas from a volume of `10dm^3` to a volume of `100dm^3` at `27^@C` is

The entropy change involved in the isothermal reversible expansion of 2 mol of an ideal gas from a volume of 10 cm^(3) to a volume of 100 cm^(3) at 27^(@)C is-

Calculate the entropy change involved in the isothermal expansion of 5 mol of ideal gas from a volume of 10 L to 100 L at 300 k

Calculate triangleq, W, triangleE for the isothermal reversible expansion of one mole of an ideal gas from an initial pressure of 1.0 bar to final pressure of 0.1 bar at a constant temperature of 273 K.

Work done during isothermal expension of one mole of an ideal gas from 10 atm to 1 atm at 300 K is

The change in entropy for 2 mol ideal gas in an isothermal reversible expansion from 10 mL to 100 mL at 27^(@)C is-

The entropy change accompanying the heating of one mole of helium gas, assuming ideal behaviour from a temperature of 300 K to a temperature of 1000 K at constant pressure.

The work done when one mole of an idea! gas is compressed form a volume of 5 m^3 to 1 dm^3 at 300 K, under a pressure of 100 kPa is

Calculate entropy change when 10 moles of an ideal gas expands reversibly and isothermally from an initial volume of 10 litre to 100 litre at 300K.

Work done by 3 mol of an ideal in an isothermal reversible expansion of 30^(@)C is 9.5 kJ. If the initial volume of the gas is 20 L, then what will be the final volume of the gas?

If the change in entropy of reversible isothermal expansion of 1 mol of an ideal gas is 9.135 " J mol"^(-1). K^(-1) , what will be the entropy change of the surroundings and universe ? If the above expansion of gas is allowed to occur against zero pressure, what will be the entropy change of the system and surroundings ?