Answer to Question #198270 in Chemistry for Cache

Question #198270

Given the average bond energies in kJ/mol: H-H = 436; Cl-Cl = 242; H-Cl = 431.

What is the energy change for the decomposition of hydrogen chloride? 2HCl -> H2 + Cl2

Is the decomposition of hydrogen chloride an exothermic or endothermic process? How do you know?

Expert's answer

Solution:

Balanced chemical equation:

2HCl → H₂ + Cl₂

To find enthalpy of the decomposition of hydrogen chloride, use the following formula:

ΔH_rxn = ∑(bonds broken) − ∑(bonds formed)

In this reaction, 2 H-Cl bonds must be broken. Also, 1 H-H bond and 1 Cl-Cl bond are formed.

Bond energies of these bonds:

Bonds broken = 2 × (H-Cl) = 2 × 431 kJ/mol = 862 kJ/mol

Bonds formed = 1 × (H-H) + 1 × (Cl-Cl) = 436 kJ/mol + 242 kJ/mol = 678 kJ/mol

ΔH_rxn = Bonds broken - Bonds formed = 862 kJ/mol - 678 kJ/mol = 184 kJ/mol

ΔH_rxn = +184 kJ/mol

ΔH > 0 - endothermic process

Answer:

ΔH_rxn = +184 kJ/mol

ΔH > 0 - endothermic process

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