Which of the following describes the entropy change in the given reaction? 2 C₁₂O(g) →2 Cl2(g) + 7 O̟₂(g) A B C E The entropy change is negative because a larger molecule (C₁₂O) is converted into two smaller molecules (CI, and O₂). The entropy change is zero because the reactants and products are all gases. The entropy change cannot be determined because the temperature is not specified. The entropy change is negative because there are more moles of products than reactants. The entropy change is positive because there are more moles of products than reactants.
Which of the following describes the entropy change in the given reaction? 2 C₁₂O(g) →2 Cl2(g) + 7 O̟₂(g) A B C E The entropy change is negative because a larger molecule (C₁₂O) is converted into two smaller molecules (CI, and O₂). The entropy change is zero because the reactants and products are all gases. The entropy change cannot be determined because the temperature is not specified. The entropy change is negative because there are more moles of products than reactants. The entropy change is positive because there are more moles of products than reactants.
General Chemistry - Standalone book (MindTap Course List)
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Chapter18: Thermodynamics And Equilibrium
Section: Chapter Questions
Problem 18.120QP
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Transcribed Image Text:Which of the following describes the entropy change in the given reaction?
2 C₁₂O(g) →2 Cl2(g) + 7 O̟₂(g)
A
B
C
E
The entropy change is negative because a larger
molecule (C₁₂O) is converted into two smaller
molecules (CI, and O₂).
The entropy change is zero because the reactants
and products are all gases.
The entropy change cannot be determined because
the temperature is not specified.
The entropy change is negative because there are
more moles of products than reactants.
The entropy change is positive because there are
more moles of products than reactants.
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