Use the thermodynamic table to solve AS",00 for 2C0(g) + O,(g) → 2CO,(g). (a) First perform the calculation using the following temperature-dependent heat capacities for the gases: C®"(0,, g) = 25.67 + 0.01330T – (3.764×10*)T² – (7.310×10'")T³ C'"(CÓ, g) = 28.74 – 0.00179T + (1.046×10*)T² – (4.288×10")T³ C®"(CO,, g) = 21.64 + 0.06358T – (4.057×10*)T² + (9.700×10*)T All heat capacities are in units of J/(mol K). AS. Type your answer here J/(mol K) 1000 (b) Now repeat the calculation using C'",g data, and assuming that C", is independent of temperature. AS. Type your answer here J/(mol K) 1000
Use the thermodynamic table to solve AS",00 for 2C0(g) + O,(g) → 2CO,(g). (a) First perform the calculation using the following temperature-dependent heat capacities for the gases: C®"(0,, g) = 25.67 + 0.01330T – (3.764×10*)T² – (7.310×10'")T³ C'"(CÓ, g) = 28.74 – 0.00179T + (1.046×10*)T² – (4.288×10")T³ C®"(CO,, g) = 21.64 + 0.06358T – (4.057×10*)T² + (9.700×10*)T All heat capacities are in units of J/(mol K). AS. Type your answer here J/(mol K) 1000 (b) Now repeat the calculation using C'",g data, and assuming that C", is independent of temperature. AS. Type your answer here J/(mol K) 1000
Chemistry: Principles and Practice
3rd Edition
ISBN:9780534420123
Author:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Publisher:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Chapter17: Chemcial Thermodynamics
Section: Chapter Questions
Problem 17.103QE: A 220-ft3 sample of gas at standard temperature and pressure is compressed into a cylinder, where it...
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Transcribed Image Text:Use the thermodynamic table to solve AS",00 for 2C0(g) + O,(g) → 2CO,(g).
(a) First perform the calculation using the following temperature-dependent heat capacities for the gases:
C®"(0,, g) = 25.67 + 0.01330T – (3.764×10*)T² – (7.310×10'")T³
C'"(CÓ, g) = 28.74 – 0.00179T + (1.046×10*)T² – (4.288×10")T³
C®"(CO,, g) = 21.64 + 0.06358T – (4.057×10*)T² + (9.700×10*)T
All heat capacities are in units of J/(mol K).
AS.
Type your answer here
J/(mol K)
1000
(b) Now repeat the calculation using C'",g data, and assuming that C", is independent of temperature.
AS.
Type your answer here
J/(mol K)
1000
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