(A) The enthalpy of combustion $\Delta H_c$ for $1$ $mol$ of benzene is given by:$\Delta H_c = [6 \times \Delta H_f(CO_{2(g)}) + 3 \times \Delta H_f(H

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(A) The enthalpy of combustion $\Delta H_c$ for $1$ $mol$ of benzene is given by:$\Delta H_c = [6 \times \Delta H_f(CO_{2(g)}) + 3 \times \Delta H_f(H_2O_{(l)})] - [\Delta H_f(C_6H_{6(l)}) + \frac{15}{2} \Delta H_f(O_{2(g)})]$Given $\Delta H_f(O_{2(g)}) = 0$:$\Delta H_c = [6 \times (-393.5) + 3 \times (-286)] - [48.5]$$\Delta H_c = [-2361 - 858] - 48.5$$\Delta H_c = -3219 - 48.5 = -3267.5$ $kJ \ mol^{-1}$For $2$ $mol$ of benzene:$\Delta H = 2 \times (-3267.5) = -6535$ $kJ$Thus,$-x = -6535$ $kJ$,so $x = 6535$.

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

Medium

Combustion of $1$ $mol$ of benzene is expressed as:
$C_6H_{6(l)} + \frac{15}{2} O_{2(g)} \rightarrow 6CO_{2(g)} + 3H_2O_{(l)}$
The standard enthalpy of combustion of $2$ $mol$ of benzene is $-x$ $kJ$.
$x = . . . . . . . . . .$
$(1)$ Standard enthalpy of formation of $1$ $mol$ of $C_6H_{6(l)}$ is $48.5$ $kJ \ mol^{-1}$.
$(2)$ Standard enthalpy of formation of $1$ $mol$ of $CO_{2(g)}$ is $-393.5$ $kJ \ mol^{-1}$.
$(3)$ Standard enthalpy of formation of $1$ $mol$ of $H_2O_{(l)}$ is $-286$ $kJ \ mol^{-1}$.

JEE MAIN 2024 All JEE MAIN

A
$6535$
B
$6540$
C
$6545$
D
$6550$

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Class 11

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Thermodynamics

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Heat of reaction, Bond energy and Hess law

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For the reaction $2 H_2 + O_2 \rightarrow 2 H_2 O$,$\Delta H = -571 \ kJ$. Bond energy of $H-H = 435 \ kJ$ and $O=O = 498 \ kJ$. Then the average bond energy of $O-H$ bond will be:

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For the reaction $\frac{1}{2} X_2O_{(s)} \to X_{(s)} + \frac{1}{4} O_{2(g)}$ with $\Delta H = 90 \ kJ$,the enthalpy change for the reaction of $1 \ mol$ of $O_2$ with metal $X$ is ................ $kJ$.

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The heat of neutralization of a strong dibasic acid by a dilute solution of $NaOH$ is approximately ....... $Kcal/equivalent$.

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From the following,the heat of neutralization is maximum in:

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For the reaction $2 H_2 + O_2 \rightarrow 2 H_2 O$,$\Delta H = -571 \ kJ$. Bond energy of $H-H = 435 \ kJ$ and $O=O = 498 \ kJ$. Then the average bond energy of $O-H$ bond will be:

The bond energies of $C-C$,$C=C$,$H-H$,and $C-H$ bonds are $350$,$600$,$400$,and $410 \ kJ \cdot mol^{-1}$ respectively. The heat of hydrogenation of ethylene $(C_2H_4)$ is ... $kJ \cdot mol^{-1}$.

For the reaction $\frac{1}{2} X_2O_{(s)} \to X_{(s)} + \frac{1}{4} O_{2(g)}$ with $\Delta H = 90 \ kJ$,the enthalpy change for the reaction of $1 \ mol$ of $O_2$ with metal $X$ is ................ $kJ$.

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From the following,the heat of neutralization is maximum in:

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