For a reversible process at T = 300K, the volume is increased from `V_(i)=1L` to `V_(f)=10L`. Calculate `Delta H` if the process is isothermal -

2 mol of an ideal gas is compressed by an isothermal reversible process at 27^(@)C . As a result, pressure of the gas increases from 1 to 10 atm. Calculate w, q, Delta U and Delta H .

If 1.0 kcal of heat is added to 1.2 L of O_(2) in a cyclinder at constant pressure of 1 atm, the volume increases to 1.5L . Calculate Delta U and Delta H of the process. (1L-atm=100J)

If 1.0 kcal of heat is added to 1.2 L of O_(2) in a cyclinder at constant pressure of 1 atm, the volume increases to 1.5L . Calculate Delta U and Delta H of the process. (1L-atm=100J)

10 g of argon is compressed isothermally and reversibly at a temperature of 27^@C from 10 L to 5L. Calculate , w, DeltaE and DeltaH for the process. R = 2.0 cal K^(-1) mol^(-1), log 2 = 0.30, At. Wt. of argon = 40.

10 g of argon gas is compressed isothermally and reversibly at a temperature of 27^(@)C from 10 L to 5 L. Calculate q and Delta H for this process. Atomic wt. of Ar=40 .

10 g of argon gas is cmpressed isothermally and reversibly at a temperature of 27^(@)C from 10 L to 5L . Calculate enthalpy change (Delta H) for this process R = 2.0 cal K^(-1) mol^(-1) . log_(10)2 = 0.30 Atomic mass of Ar = 40

10g of argon gas is compressed isothermally and reversibly at a temperature of 27^(@)C from 10L to 5L . Calculate q, w, DletaU , and DeltaH for this process. R = 2.0 cal K^(-1) "mol"^(-1), log_(10)2 = 0.30 . Atomic weight of Ar = 40 .

10g of argon gas is compressed isothermally and reversibly at a temperature of 27^(@)C from 10L to 5L . Calculate q, w, DletaU , and DeltaH for this process. R = 2.0 cal K^(-1) "mol"^(-1), log_(10)2 = 0.30 . Atomic weight of Ar = 40 .