Removing the Mystery of Entropy and Thermodynamics — Part I

Left, Harvey S.

doi:doi:10.1119/1.3670080

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The Physics Teacher -- January 2012 -- Volume 50, Issue 1, pp. 28

Removing the Mystery of Entropy and Thermodynamics — Part I

Harvey S. Left

Reed College, Portland, OR

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Abstract

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Energy and entropy are centerpieces of physics. Energy is typically introduced in the study of classical mechanics. Although energy in this context can be challenging, its use in thermodynamics and its connection with entropy seem to take on a special air of mystery. In this five-part series, I pinpoint ways around key areas of difficulty to reduce that mystery. In Part I, the focus is on building an understanding of fundamental ideas of thermodynamics, including its connection with mechanics, and how entropy is defined and calculated. A central thread is that energy tends to spread within and between macroscopic objects, and this spreading is a surrogate for entropy increase. Specific questions are posed and answered, building on foundations laid in prior articles.^1–8 Parts II–V elaborate considerably on the ideas introduced here. A question-answer format is used throughout, with major results enumerated in Key Points 1.1–1.5.

Article Outline

Questions and answers
1. •What distinguishes thermodynamics from classical mechanics?
2. • What is a “state function” and why is internal energy a state function?
3. • Why are heat and work NOT state functions?
4. • What is entropy and why does it occur in thermodynamics and not in mechanics?
5. • How is entropy calculated?

KEYWORDS and PACS

Keywords

entropy, physics education, thermodynamics

PACS

01.50.-i

Educational aids
65.40.gd

Entropy

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0031-921X (print)

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American Association of Physics Teachers

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http://dx.doi.org/10.1119/1.3670080

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