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Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]
Correct answer is between '0.087,0.093'. Can you explain this answer?
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Methylcyclohexane molecules may exist in one of the two conformation w...
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Explanation:
Introduction:
Methylcyclohexane can exist in two different conformations based on the position of the methyl group. The two conformations are equatorial and axial. It is important to know the relative population of these two conformations because it affects the physical and chemical properties of the compound.
Given:
- Energy difference between axial and equatorial forms = 6 kJ/mol
- Temperature = 300 K
- Gas constant = 8.314 J/K·mol
Calculations:
The energy difference between two forms can be calculated in terms of the population ratio using the Boltzmann distribution law.
Ratio of population = e^(-ΔE/RT)
Where,
ΔE = energy difference between axial and equatorial forms
R = gas constant
T = temperature
Substituting the given values in the above formula, we get:
Ratio of population = e^(-6000 J/mol / (8.314 J/K·mol * 300 K))
Ratio of population = e^(-2.403)
Ratio of population = 0.090
Therefore, the relative population of molecules in axial and equatorial state is 0.090.
Conclusion:
The relative population of molecules in axial and equatorial state is 0.090 at a temperature of 300 K. This means that the equatorial form is more stable and predominant than the axial form.
Introduction:
Methylcyclohexane can exist in two different conformations based on the position of the methyl group. The two conformations are equatorial and axial. It is important to know the relative population of these two conformations because it affects the physical and chemical properties of the compound.
Given:
- Energy difference between axial and equatorial forms = 6 kJ/mol
- Temperature = 300 K
- Gas constant = 8.314 J/K·mol
Calculations:
The energy difference between two forms can be calculated in terms of the population ratio using the Boltzmann distribution law.
Ratio of population = e^(-ΔE/RT)
Where,
ΔE = energy difference between axial and equatorial forms
R = gas constant
T = temperature
Substituting the given values in the above formula, we get:
Ratio of population = e^(-6000 J/mol / (8.314 J/K·mol * 300 K))
Ratio of population = e^(-2.403)
Ratio of population = 0.090
Therefore, the relative population of molecules in axial and equatorial state is 0.090.
Conclusion:
The relative population of molecules in axial and equatorial state is 0.090 at a temperature of 300 K. This means that the equatorial form is more stable and predominant than the axial form.
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Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer?
Question Description
Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? for Chemistry 2024 is part of Chemistry preparation. The Question and answers have been prepared according to the Chemistry exam syllabus. Information about Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? covers all topics & solutions for Chemistry 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer?.
Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? for Chemistry 2024 is part of Chemistry preparation. The Question and answers have been prepared according to the Chemistry exam syllabus. Information about Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? covers all topics & solutions for Chemistry 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer?.
Solutions for Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? in English & in Hindi are available as part of our courses for Chemistry.
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Here you can find the meaning of Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer?, a detailed solution for Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? has been provided alongside types of Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Methylcyclohexane molecules may exist in one of the two conformation with the methyl group in either equatorial or axial position. The equatorial form is lower in energy with the axial form by 6kJ/mol. At a temp of 300 K, this difference in energy implies that relative population of molecules in axial and equatorial state is? [R = 8.314JK-1mol-1 rounded up to three decimal place]Correct answer is between '0.087,0.093'. Can you explain this answer? tests, examples and also practice Chemistry tests.
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