Question 24 of 30 Cl₂ is a stable diatomic molecule. It can be decomposed to form two Cl atoms as shown below. Cl₂ → 2Cl(g) Predict the change in free energy (AG) of this reaction. A) AG is (-); endergonic B) AG is (+); endergonic C) AG is (-); exergonic D) AG is (+); exergonic E) AG is dependent upon the temperature of the reaction
Question 24 of 30 Cl₂ is a stable diatomic molecule. It can be decomposed to form two Cl atoms as shown below. Cl₂ → 2Cl(g) Predict the change in free energy (AG) of this reaction. A) AG is (-); endergonic B) AG is (+); endergonic C) AG is (-); exergonic D) AG is (+); exergonic E) AG is dependent upon the temperature of the reaction
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![Question 24 of 30
Cl₂ is a stable diatomic molecule. It can be decomposed to form two Cl atoms as
shown below.
Cl₂ → 2Cl(g)
Predict the change in free energy (AG) of this reaction.
A) AG is (-); endergonic
B) AG is (+); endergonic
C) AG is (-); exergonic
D) AG is (+); exergonic
E) AG is dependent upon the temperature of
the reaction](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc7cfbf0b-4345-4268-a259-634bcd51c9b5%2F47ea4721-f3fa-4492-bac9-3955a8feed91%2Fzpjis0e_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question 24 of 30
Cl₂ is a stable diatomic molecule. It can be decomposed to form two Cl atoms as
shown below.
Cl₂ → 2Cl(g)
Predict the change in free energy (AG) of this reaction.
A) AG is (-); endergonic
B) AG is (+); endergonic
C) AG is (-); exergonic
D) AG is (+); exergonic
E) AG is dependent upon the temperature of
the reaction
Expert Solution
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Step 1
Cl2 ---> 2Cl
Conversion of Cl2 to Cl atoms is the endothermic reaction.
Here, dissociation of Cl2 molecule into atoms takes place.
So, we have to supply energy to break the bond between two Cl atoms.
This energy is called bond dissociation energy.
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