What work will be done, when 3 moles of an ideal gas are compreseed to half the initial volume at a constant temperature of 300K?

Calculate the work invoved when when 1 mol of an ideal gas is compressed reversibly from 1.00 bar to 5.00 at a constant temperature of 300K .

What will be the entropy change when two moles of an ideal gas expand reversibly from initial volume of 1 litre to 10 litre at constant temperature of 300 K?

When one mole of an ideal gas is compressed to half of its initial volume and simultaneously heated to twice its initial temperature , the change in entropy of gas (DeltaS) is :

When one mole of an ideal gas is compressed to half of its initial volume and simultaneously heated to twice its initial temperature, the change in entropy of gas (DelataS) is:

The work done in joules when two moles of an ideal gas are compressed at 300 K from 1 dm^3 to 100 cm^3 against a constant pressure of 3.2 xx 10^5 Nm^-2 is _________ .

The work done in joules when two moles of an ideal gas are compressed at 300 K from 1 dm^3 "to " 100 cm^3 against a constant pressure of 3.2 xx 10^5 Nm^2 is

What is the amount of work done when two moles of an ideal gas is comoressed from a volume of 1 m^(3) to 10 dm^(3) at 300 K against a pressure of 100 kPa?