The magnitude of enthalpy changes for irreversible adiabatic expansion of a gas from `1 L` to `2 l` is `Delta H_(1)` and for reversible adiabatic expa

Question

The magnitude of enthalpy changes for irreversible adiabatic expansion of a gas from `1 L` to `2 l` is `Delta H_(1)` and for reversible adiabatic expa

The magnitude of enthalpy changes for irreversible adiabatic expansion of a gas from `1 L` to `2 l` is `Delta H_(1)` and for reversible adiabatic expansion for the same expansion is `Delta H_(2)`. Then
A. `DeltaH_(1) gt DeltaH_(2)`
B. `DeltaH_(1) lt DeltaH_(2)`
C. `DeltaH_(1)=Delta H_(2)`, enthalpy being a state function `(Delta H_(1)=Delta H_(2))`
D. `Delta H_(1)=Delta E_(1) & Delta H_(2)=Delta E_(2)` where `Delta E_(1) & DeltaE_(2)` are magnitudes of change in internal energy of gas in these expansions respectively.

Monjur Alahi

7 views

2025-01-04 04:42

1 Answers

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Salim Ahmed Kawsar · Accepted Answer · 2023-02-05T15:29:48+06:00

Salim Ahmed Kawsar

Correct Answer - B
`|W_(rev)| gt|W_(lrr)|rArrT_("final"(rev)) ltT_("final"(lrr)) " "rArr DeltaT_(rev) gt DeltaT_(lrr)`
`:. DeltaH prop Delta T rArr DeltaH_(rev) gt Delta H_(lrr)`

7 views Answered 2023-02-05 15:29