(B) The given equation is $\frac{1}{2} H_2 + \frac{1}{2} Cl_2 \to HCl$ with $\Delta H_{298} = -22.060 \ kcal$.Since the enthalpy change $\Delta H$ is

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The heat evolved when one gram molecule of $HCl$ is formed from its elements at $298 \ K$ is $22.060 \ kcal$.

(B) The given equation is $\frac{1}{2} H_2 + \frac{1}{2} Cl_2 \to HCl$ with $\Delta H_{298} = -22.060 \ kcal$.Since the enthalpy change $\Delta H$ is negative,the reaction is exothermic,meaning heat is released (evolved).The reaction represents the formation of $1 \ \text{mole}$ (one gram molecule) of $HCl$ from its constituent elements in their standard states at $298 \ K$.Therefore,the heat evolved during the formation of $1 \ \text{mole}$ of $HCl$ is $22.060 \ kcal$.

Class 11 Chemistry Thermodynamics Heat of reaction, Bond energy and Hess law

Medium

The equation $\frac{1}{2} H_2 + \frac{1}{2} Cl_2 \to HCl$ $(\Delta H_{298} = -22.060 \ kcal)$ means:

A
The heat absorbed when one gram molecule of $HCl$ is formed from its elements at $25 \ ^oC$ is $22.060 \ kcal$.
B
The heat evolved when one gram molecule of $HCl$ is formed from its elements at $298 \ K$ is $22.060 \ kcal$.
C
The heat absorbed when one atom of hydrogen reacts with one atom of chlorine to form one molecule of $HCl$ at $25 \ ^oC$ and $1 \ atm$ pressure is $22.060 \ kcal$.
D
The heat absorbed when one gram equivalent of $HCl$ is formed from its elements at $298 \ K$ is $22.060 \ kcal$.

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Class 11

Chemistry Questions

Chapter

Thermodynamics

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Heat of reaction, Bond energy and Hess law

The enthalpies of combustion of carbon and carbon monoxide are $-393.5 \, kJ/mol$ and $-283 \, kJ/mol$ respectively. The enthalpy of formation of carbon monoxide in $kJ/mol$ is: (in $.5$)

Medium

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Consider the following data :
Heat of formation of $CO_{2(g)} = -393.5 \ kJ \ mol^{-1}$
Heat of formation of $H_2O_{(l)} = -286.0 \ kJ \ mol^{-1}$
Heat of combustion of benzene $= -3267.0 \ kJ \ mol^{-1}$
The heat of formation of benzene is $........... \ kJ \ mol^{-1}$. $(Nearest \ integer)$

MediumJEE MAIN 2025

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$AB$,$A_2$ and $B_2$ are diatomic molecules. If the bond enthalpies of $A_2$,$AB$ and $B_2$ are in the ratio $1:1:0.5$ and enthalpy of formation of $AB$ from $A_2$ and $B_2$ is $-100 \, kJ \, mol^{-1}$,what is the bond energy of $A_2$ in $kJ \, mol^{-1}$?

DifficultAIIMS 2012

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Which of the following equations correctly represents the standard heat of formation $(\Delta H_f^o)$ of methane?

MediumIIT 1992

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If the ratio of bond dissociation energies of $XY$,$X_2$,and $Y_2$ is $1 : 1 : 0.5$ and the enthalpy of formation of $XY$ is $\Delta_f H = -200 \ kJ \ mol^{-1}$,then the bond dissociation energy of $X_2$ in $kJ \ mol^{-1}$ is:

Medium

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The equation $\frac{1}{2} H_2 + \frac{1}{2} Cl_2 \to HCl$ $(\Delta H_{298} = -22.060 \ kcal)$ means:

Similar Questions

The enthalpies of combustion of carbon and carbon monoxide are $-393.5 \, kJ/mol$ and $-283 \, kJ/mol$ respectively. The enthalpy of formation of carbon monoxide in $kJ/mol$ is: (in $.5$)

Consider the following data :Heat of formation of $CO_{2(g)} = -393.5 \ kJ \ mol^{-1}$Heat of formation of $H_2O_{(l)} = -286.0 \ kJ \ mol^{-1}$Heat of combustion of benzene $= -3267.0 \ kJ \ mol^{-1}$The heat of formation of benzene is $........... \ kJ \ mol^{-1}$. $(Nearest \ integer)$

$AB$,$A_2$ and $B_2$ are diatomic molecules. If the bond enthalpies of $A_2$,$AB$ and $B_2$ are in the ratio $1:1:0.5$ and enthalpy of formation of $AB$ from $A_2$ and $B_2$ is $-100 \, kJ \, mol^{-1}$,what is the bond energy of $A_2$ in $kJ \, mol^{-1}$?

Which of the following equations correctly represents the standard heat of formation $(\Delta H_f^o)$ of methane?

If the ratio of bond dissociation energies of $XY$,$X_2$,and $Y_2$ is $1 : 1 : 0.5$ and the enthalpy of formation of $XY$ is $\Delta_f H = -200 \ kJ \ mol^{-1}$,then the bond dissociation energy of $X_2$ in $kJ \ mol^{-1}$ is:

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Consider the following data :
Heat of formation of $CO_{2(g)} = -393.5 \ kJ \ mol^{-1}$
Heat of formation of $H_2O_{(l)} = -286.0 \ kJ \ mol^{-1}$
Heat of combustion of benzene $= -3267.0 \ kJ \ mol^{-1}$
The heat of formation of benzene is $........... \ kJ \ mol^{-1}$. $(Nearest \ integer)$