One mole of a non-ideal gas undergoes a change of state `(2.0atm,3.0L,95K)rarr(4.0atm,5.0L,245K)`
With a change in internal energy `DeltaE=30L` atm. The change in enthalpy `(DeltaH)` in the process in `L`-atm is

One mole of a non-ideal gas undergoes a change of state (2.0 atm, 3.01, 95K) to (4.0 atm, 5.01, 245K) with a change in internal energy, DeltaU=30.0L atm. The change in enthalpy DeltaH of the process in L atm is.

One mole of non - ideal gas undergoes a change of state (2.0 atm , 3 .0 L , 95 K rarr (4.0 atm , 5.0 L , 245 K) with a change in internal energy , DeltaU = 30.0L atm . The change in enthalpy (DeltaH) of the process in L atm is

One mole of a non-ideal gas undergoes a change of state ( 2.0 atm, 3.0L, 95 K) rarr (4.0 atm, 5.0L, 245 K) with a change in internal energy , Delta U= 30.0 L. atm . Calculate change in enthalpy of the process in L. atm .

One mole of an ideal gas undergoes a change of state (2.0) atm, 3.0 L) to (2.0 atm, 7.0 L) with a change in internal energy (DeltaU) = 30 L-atm. The change in enthalpy (DeltaH) of the process in L-atm :

One mole of non-ideal gas undergoes a change of state ( 2.0 "atm" , 3.0 L , 95 K ) to ( 4.0 "atm" , 5.0 L , 245 K ) with a change in internal energy, DeltaU=30.0 L atm . The change in enthalpy (DeltaH) of the process in L "atm" is

One mole of a non-ideal gas undergoes a change of state (2.0atm, 3.01L, 95K) to (4atm,5L,245K) with a change in interanl energy, /_\U=30.0Latm . The change in enthalpy, /_\H , of the process in L atm is