Prove that the change in enthalpy of a system in which a chemical reaction occurs is equal to the heat gained by the system at constant pressure.
(N/A) According to the first law of thermodynamics,$\Delta U = q + w$.
At constant pressure,the work done by the system is $w = -p \Delta V$.
Substituting this into the equation,we get $\Delta U = q_p - p \Delta V$.
Here,$q_p$ is the heat absorbed by the system at constant pressure.
When the system undergoes a change from state $1$ to state $2$,we have $\Delta U = U_2 - U_1$ and $\Delta V = V_2 - V_1$.
Substituting these values: $U_2 - U_1 = q_p - p(V_2 - V_1)$.
Rearranging the terms: $q_p = (U_2 - U_1) + p(V_2 - V_1)$.
$q_p = (U_2 + pV_2) - (U_1 + pV_1)$.
Defining enthalpy as $H = U + pV$,we get $q_p = H_2 - H_1 = \Delta H$.
Thus,the change in enthalpy $\Delta H$ is equal to the heat absorbed at constant pressure $q_p$.
At constant pressure,the work done by the system is $w = -p \Delta V$.
Substituting this into the equation,we get $\Delta U = q_p - p \Delta V$.
Here,$q_p$ is the heat absorbed by the system at constant pressure.
When the system undergoes a change from state $1$ to state $2$,we have $\Delta U = U_2 - U_1$ and $\Delta V = V_2 - V_1$.
Substituting these values: $U_2 - U_1 = q_p - p(V_2 - V_1)$.
Rearranging the terms: $q_p = (U_2 - U_1) + p(V_2 - V_1)$.
$q_p = (U_2 + pV_2) - (U_1 + pV_1)$.
Defining enthalpy as $H = U + pV$,we get $q_p = H_2 - H_1 = \Delta H$.
Thus,the change in enthalpy $\Delta H$ is equal to the heat absorbed at constant pressure $q_p$.
Explore More
Similar Questions
An ideal gas undergoes isothermal expansion at constant pressure. During the process
DifficultJEE MAIN 2017
View SolutionWork done during isothermal expansion of $1 \, \text{mole}$ of an ideal gas from $10 \, \text{atm}$ to $1 \, \text{atm}$ at $300 \, \text{K}$ is ....... $\text{cal}$ (Gas constant $R = 2 \, \text{cal} \, \text{K}^{-1} \, \text{mol}^{-1}$) (in $.8$)
MediumAIIMS 2000
View SolutionWhat happens when methane undergoes combustion in systems $A$ and $B$ respectively?
System $A$ System $B$ Temperature rise Temperature remains same
| System $A$ | System $B$ |
|---|---|
| Temperature rise | Temperature remains same |
Define open,closed,and isolated systems with examples.
Medium
View SolutionWhich of the following are extensive properties?
Medium
View SolutionVedclass Products
For Students
Vedclass Test Series
Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.
Start Free TrialFor Teachers
Exam Paper Generator
Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.
Try FreeFor Institutes
Online Exam Module
Live online exams with unlimited students, 360° analytics & white-label branding.
See Demo