(A) Subtracting the second equation from the first:$(S_{\text{(rhombic)}} + O_{2(g)}) - (S_{\text{(monoclinic)}} + O_{2(g)}) = -297.5 - (-300) \, kJ$$

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$S_{\text{(rhombic)}}$ is more stable than $S_{\text{(monoclinic)}}$.

(A) Subtracting the second equation from the first:$(S_{\text{(rhombic)}} + O_{2(g)}) - (S_{\text{(monoclinic)}} + O_{2(g)}) = -297.5 - (-300) \, kJ$$S_{\text{(rhombic)}} - S_{\text{(monoclinic)}} = +2.5 \, kJ$$S_{\text{(monoclinic)}} \rightarrow S_{\text{(rhombic)}}; \Delta H = -2.5 \, kJ$Since the transition from monoclinic to rhombic releases energy (negative $\Delta H$),rhombic sulfur is at a lower energy state and is more stable than monoclinic sulfur.

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

Medium

$S_{\text{(rhombic)}} + O_{2(g)} \rightarrow SO_{2(g)}; \Delta H = -297.5 \, kJ$
$S_{\text{(monoclinic)}} + O_{2(g)} \rightarrow SO_{2(g)}; \Delta H = -300 \, kJ$
From the given data,which of the following statements is correct?

A
$S_{\text{(rhombic)}}$ is more stable than $S_{\text{(monoclinic)}}$.
B
$S_{\text{(monoclinic)}}$ is more stable than $S_{\text{(rhombic)}}$.
C
The transition of $S_{\text{(rhombic)}}$ to $S_{\text{(monoclinic)}}$ is exothermic.
D
The transition of $S_{\text{(monoclinic)}}$ to $S_{\text{(rhombic)}}$ is endothermic.

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Thermodynamics

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Heat of reaction, Bond energy and Hess law

Explain the bond enthalpy.

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$H_{2(g)} + \frac{1}{2}O_{2(g)} \to H_2O_{(l)}$; $\Delta H$ at $298 \ K = -285.8 \ kJ$. The molar enthalpy of vaporization of water at $1 \ atm$ and $25^{\circ}C$ is $44 \ kJ$. The standard enthalpy of formation of $1 \ mole$ of water vapor at $25^{\circ}C$ is $...... \ kJ$. (in $.8$)

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The $\Delta H_f^o$ values for $ICl_{(g)}$,$Cl_{(g)}$,and $I_{(g)}$ are $17.57$,$121.34$,and $106.96 \, J \, mol^{-1}$ respectively. What is the bond dissociation energy of the $I-Cl$ bond in $J \, mol^{-1}$?

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The heat of neutralisation of a strong acid and a strong alkali is $57.0 \ kJ \ mol^{-1}$. The heat released when $0.5 \ mol$ of $HNO_3$ solution is mixed with $0.2 \ mol$ of $KOH$ is: (in $kJ$)

MediumMHT CET 2011

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The standard enthalpies of formation of $CO_{2(g)}$,$H_2O_{(\ell)}$ and glucose$_{(s)}$ at $25^{\circ} C$ are $-400 \ kJ/mol$,$-300 \ kJ/mol$ and $-1300 \ kJ/mol$,respectively. The standard enthalpy of combustion per gram of glucose at $25^{\circ} C$ is

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$S_{\text{(rhombic)}} + O_{2(g)} \rightarrow SO_{2(g)}; \Delta H = -297.5 \, kJ$$S_{\text{(monoclinic)}} + O_{2(g)} \rightarrow SO_{2(g)}; \Delta H = -300 \, kJ$From the given data,which of the following statements is correct?

Similar Questions

Explain the bond enthalpy.

$H_{2(g)} + \frac{1}{2}O_{2(g)} \to H_2O_{(l)}$; $\Delta H$ at $298 \ K = -285.8 \ kJ$. The molar enthalpy of vaporization of water at $1 \ atm$ and $25^{\circ}C$ is $44 \ kJ$. The standard enthalpy of formation of $1 \ mole$ of water vapor at $25^{\circ}C$ is $...... \ kJ$. (in $.8$)

The $\Delta H_f^o$ values for $ICl_{(g)}$,$Cl_{(g)}$,and $I_{(g)}$ are $17.57$,$121.34$,and $106.96 \, J \, mol^{-1}$ respectively. What is the bond dissociation energy of the $I-Cl$ bond in $J \, mol^{-1}$?

The heat of neutralisation of a strong acid and a strong alkali is $57.0 \ kJ \ mol^{-1}$. The heat released when $0.5 \ mol$ of $HNO_3$ solution is mixed with $0.2 \ mol$ of $KOH$ is: (in $kJ$)

The standard enthalpies of formation of $CO_{2(g)}$,$H_2O_{(\ell)}$ and glucose$_{(s)}$ at $25^{\circ} C$ are $-400 \ kJ/mol$,$-300 \ kJ/mol$ and $-1300 \ kJ/mol$,respectively. The standard enthalpy of combustion per gram of glucose at $25^{\circ} C$ is

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$S_{\text{(rhombic)}} + O_{2(g)} \rightarrow SO_{2(g)}; \Delta H = -297.5 \, kJ$
$S_{\text{(monoclinic)}} + O_{2(g)} \rightarrow SO_{2(g)}; \Delta H = -300 \, kJ$
From the given data,which of the following statements is correct?