Consider the following data : ΔfH° (methane, g) = –X kJ mol⁻¹ Enthalpy of sublimation of graphite = Y kJ mol⁻¹ Dissociation enthalpy of H₂ = Z kJ mol⁻¹ The bond enthalpy of C

Bond enthalpy of C–H bond from formation enthalpy of methane

Q. Consider the following data :

Δ_fH° (methane, g) = –X kJ mol⁻¹

Enthalpy of sublimation of graphite = Y kJ mol⁻¹

Dissociation enthalpy of H₂ = Z kJ mol⁻¹

The bond enthalpy of C–H bond is given by :

A. \( \dfrac{X + Y + 2Z}{4} \)

B. \( \dfrac{X + Y + 4Z}{2} \)

C. \( \dfrac{-X + Y + Z}{4} \)

D. \( X + Y + Z \)

Correct Answer: A

Explanation (Stepwise Thermochemical Logic)

Formation reaction of methane:

\[ C(graphite) + 2H_2(g) \rightarrow CH_4(g) \]

Given:

\[ \Delta_f H^\circ = -X \]

To calculate bond enthalpy, we consider atomization process.

Step 1: Convert graphite to gaseous carbon

\[ C(graphite) \rightarrow C(g) \]

Energy required = Y

Step 2: Break H₂ into atoms

\[ 2H_2 \rightarrow 4H \]

Each H₂ requires Z energy, so:

\[ Energy = 2Z \]

Total energy to form gaseous atoms:

\[ Y + 2Z \]

Step 3: Formation of CH₄ from atoms

\[ C(g) + 4H(g) \rightarrow CH_4(g) \]

This releases energy equal to 4(C–H bond enthalpy).

Let bond enthalpy of C–H = D

Total energy released = 4D

Using Hess’s Law:

\[ (Y + 2Z) - 4D = -X \]

\[ Y + 2Z + X = 4D \]

\[ D = \frac{X + Y + 2Z}{4} \]

Correct Option: A

Related JEE Main Questions

Given below are two statements : Statement I: The correct order in terms of atomic/ionic radii is Al > Mg > Mg²⁺ > Al³⁺. Statement II: The correct order in terms of the magnitude of electron gain enthalpy is Cl > Br > S > O. In the light of the above statements, choose the correct answer from the options given below :

The correct increasing order of C–H(A), C–O(B), C=O(C) and C≡N(D) bonds in terms of covalent bond length is :

Match List - I with List - II. List - I Pair of Compounds A. 2-Methylpropene and but-1-ene B. Cis-but-2-ene and trans-but-2-ene C. 2-Butanol and diethyl ether D. But-1-ene and but-2-ene List - II Type of Isomers I. Stereoisomers II. Position isomers III. Chain isomers IV. Functional group isomers Choose the correct answer from the options given below :

Given below are some of the statements about Mn and Mn₂O₇. Identify the correct statements. A. Mn forms the oxide Mn₂O₇, in which Mn is in its highest oxidation state. B. Oxygen stabilizes the Mn in higher oxidation states by forming multiple bonds with Mn. C. Mn₂O₇ is an ionic oxide. D. The structure of Mn₂O₇ consists of one bridged oxygen. Choose the correct answer from the options given below :

The correct statements are : A. Activation energy for enzyme catalysed hydrolysis of sucrose is lower than that of acid catalysed hydrolysis. B. During denaturation, secondary and tertiary structures of a protein are destroyed but primary structure remains intact. C. Nucleotides are joined together by glycosidic linkage between C₁ and C₄ carbons of the pentose sugar. D. Quaternary structure of proteins represents overall folding of the polypeptide chain. Choose the correct answer from the options given below :

Important for Competitive Exams

jee mains jee advanced iit jee neet chemistry thermochemistry bond enthalpy hess law enthalpy of formation jee mains chemistry revision iit jee preparation neet preparation chemistry engineering entrance exam competitive exam chemistry chemical energetics exam oriented preparation bond energy calculation reaction enthalpy jee mains preparation jee advanced preparation iit entrance exam neet exam chemistry

Home / Complete JEE Main, JEE Advanced & NEET Study Material – neetjeerankers.com