(A) The change in entropy for a phase transition is given by the formula: $\Delta S_{vap} = \frac{n \times \Delta H_{vap}}{T}$.Given:$n = 3 \ mol$$\De

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(A) The change in entropy for a phase transition is given by the formula: $\Delta S_{vap} = \frac{n \times \Delta H_{vap}}{T}$.Given:$n = 3 \ mol$$\Delta H_{vap} = 40.668 \ kJ/mol$$T = 373 \ K$Substituting the values:$\Delta S_{vap} = \frac{3 \ mol \times 40.668 \ kJ/mol}{373 \ K} = \frac{122.004 \ kJ}{373 \ K} = 0.327 \ kJ/K$.

Class 11 Chemistry Thermodynamics 2 nd Law of thermodynamics and Entropy

Medium

$3$ moles of water is boiled at $373 \ K$ and is changed to vapour state having the same temperature. What will be the change in entropy of the system (in $kJ/K$)? [ The molar heat of vaporization of water is $40.668 \ kJ/mol$ ]

A
$0.327$
B
$0.109$
C
$0.981$
D
$0.654$

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Thermodynamics

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2 nd Law of thermodynamics and Entropy

For a reversible adiabatic expansion of an ideal gas,which of the following is equal to zero?

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Which of the following would be expected to have the largest entropy per mole?

Medium

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For the reaction $MgCO_3(s) \rightarrow MgO(s) + CO_2(g)$,the value of $\Delta S$ is:

Easy

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When a solid melts reversibly,which of the following occurs?

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The entropy values (in $J K^{-1} mol^{-1}$) of $H_{2(g)} = 130.6$,$Cl_{2(g)} = 223.0$ and $HCl_{(g)} = 186.7$ at $298 \ K$ and $1 \ atm$ pressure. Then entropy change for the reaction $H_{2(g)} + Cl_{2(g)} \to 2HCl_{(g)}$ is :-

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$3$ moles of water is boiled at $373 \ K$ and is changed to vapour state having the same temperature. What will be the change in entropy of the system (in $kJ/K$)? [ The molar heat of vaporization of water is $40.668 \ kJ/mol$ ]

Similar Questions

For a reversible adiabatic expansion of an ideal gas,which of the following is equal to zero?

Which of the following would be expected to have the largest entropy per mole?

For the reaction $MgCO_3(s) \rightarrow MgO(s) + CO_2(g)$,the value of $\Delta S$ is:

When a solid melts reversibly,which of the following occurs?

The entropy values (in $J K^{-1} mol^{-1}$) of $H_{2(g)} = 130.6$,$Cl_{2(g)} = 223.0$ and $HCl_{(g)} = 186.7$ at $298 \ K$ and $1 \ atm$ pressure. Then entropy change for the reaction $H_{2(g)} + Cl_{2(g)} \to 2HCl_{(g)}$ is :-

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