SATHEE: Chemical Thermodynamics Question 352

Chemical Thermodynamics Question 352

Question: Given:

(I) $ H_2(g)+\frac{1}{2}O_2(g)\to H_2O(l); $

$ \Delta H^{o} _{298k}=-285.9,kJ,mol^{-1} $

(II) $ H_2(g)+\frac{1}{2}O_2(g)\to H_2O(g); $

$ \Delta H^{o} _{298k}=-241.8,kJ,mol^{-1} $

The molar enthalpy of vapourisation of water will be:

Options:

A) $ 241.8kJmo{{l}^{-1}} $

B) $ ~22.0kJmo{{l}^{-1}} $

C) $ 44.1kJ,mo{{l}^{-1}} $

D) $ 527.7kJmo{{l}^{-1}} $

Show Answer

Answer:

Correct Answer: C

Solution:

Given $ H_2(g)+\frac{1}{2}O_2(g)\xrightarrow{{}}H_2O(l); $

$ \Delta H{}^\circ =-285.9kJ,mo{{l}^{-1}} $ ….. (1) $ H_2(g)+\frac{1}{2}O_2\xrightarrow{{}}H_2O(g); $

$ \Delta {{H}^{{}^\circ }}=-241.8kJ,mo{{l}^{-1}} $ ….. (2) We have to calculate $ H_2O( l )\xrightarrow{{}}H_2O( g );\Delta {{H}^{{}^\circ }}=- $ On substracting eqn. (2) from eqn. (1) we get $ H_2O( l )\xrightarrow{{}}H_2O( g ); $

$ \Delta {{H}^{{}^\circ }}=-241.8-( -285.9 ) $

$ =44.1kJ,mo{{l}^{-1}} $

Play Store

App Store

Ask SATHEE

Welcome to SATHEE !
Select from 'Menu' to explore our services, or ask SATHEE to get started. Let's embark on this journey of growth together! 🌐📚🚀🎓

I'm relatively new and can sometimes make mistakes.
If you notice any error, such as an incorrect solution, please use the thumbs down icon to aid my learning.
To begin your journey now, click on "I understand".

Chemical Thermodynamics Question 352

Question: Given:

Options:

Answer:

Solution:

Engineering Preparation

Medical Preparation

NCERT Books & Solutions

Important Resources

Other Resources

Syllabus

Test Platform

Sample Mock Test

Mentorship

NCERT Exercise Video Solution

Menu