Given the following properties for water: T= 0℃, ∆(fus)H= 6.010 kJ/mol T=100℃, ∆vapH= 40.65 kJ/mol a) Calculate the entropy change when: 1) 1.0 mol of ice is melted at its melting point. 2) 1.0 mol of liquid water is boiled at its boiling point. b) Using the statistical definition of entropy, estimate the ratios of multiplicities Wℓ / Ws and Wg / Wℓ. c) For each entropy change you calculated above, what isothermal change in volume of 1.0 mol of an ideal gas produces the same change in entropy? Express each change in volume as the ratio V2/V1. d) Interpret your results from parts b) and c). Do your results make sense? Do they agree with
Given the following properties for water: T= 0℃, ∆(fus)H= 6.010 kJ/mol T=100℃, ∆vapH= 40.65 kJ/mol a) Calculate the entropy change when: 1) 1.0 mol of ice is melted at its melting point. 2) 1.0 mol of liquid water is boiled at its boiling point. b) Using the statistical definition of entropy, estimate the ratios of multiplicities Wℓ / Ws and Wg / Wℓ. c) For each entropy change you calculated above, what isothermal change in volume of 1.0 mol of an ideal gas produces the same change in entropy? Express each change in volume as the ratio V2/V1. d) Interpret your results from parts b) and c). Do your results make sense? Do they agree with
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Given the following properties for water:
T= 0℃, ∆(fus)H= 6.010 kJ/mol
T=100℃, ∆vapH= 40.65 kJ/mol
a) Calculate the entropy change when:
1) 1.0 mol of ice is melted at its melting point.
2) 1.0 mol of liquid water is boiled at its boiling point.
b) Using the statistical definition of entropy, estimate the ratios of multiplicities Wℓ / Ws and Wg / Wℓ.
c) For each entropy change you calculated above, what isothermal change in volume of 1.0 mol of an ideal gas produces the same change in entropy? Express each change in volume as the ratio V2/V1.
d) Interpret your results from parts b) and c). Do your results make sense? Do they agree with your intuition and answers from part a)?
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