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Department of Electrical Engineering and Computer Science
Department of Mechanical Engineering
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6.050J/2.110J – Information, Entropy and Computation –
Spring 2009
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Unit 11: Energy
Schedule
Lecture |
Tuesday, Apr 28, 2009, 1:00 PM |
Room 36-153 |
Recitation |
Thursday, Apr 30, 2009, 1:00 PM |
Room 36-153 |
Lecture Handouts
Students who for any reason did not receive these items can pick up a copy
in Room 38-344. Most of this material is also available on the 6.050J/2.110J
Web site
http://mtlsites.mit.edu/Courses/6.050.
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Unit
11 Resources (this page)
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6.050J/2.110J Notes
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Chapter
11, Energy
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Seth Lloyd, "Quantum-Mechanical Computers," Scientific American, vol. 273,
no. 4, pp. 44-49; October, 1995.
Reading Assignment
Resources
Technical
Seminal papers on the Principle of Maximum Entropy by Edwin T. Jaynes (July
5, 1922 - April 30, 1998):
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Jaynes, E. T., "Information Theory and Statistical Mechanics," Physical
Review, vol. 106, no. 4, pp. 620-630; May 15, 1957.
PDF (2.2
MB), PS (2.6
MB). This paper started the use of the Principle of Maximum Entropy in
physics
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Jaynes, E. T., "Information Theory and Statistical Mechanics. II,"
Physical Review, vol. 108, no. 2, pp. 171-190; October 15, 1957.
PDF (3.9
MB), PS (4.7
MB). Continuation of the previous reference
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The philosophy of assuming maximum uncertainty is discussed in Chapter 3 of
M. Tribus, "Thermostatics and Thermodynamics," D. Van Nostrand Co, Inc.,
Princeton, NJ; 1961
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Another good explanation, in terms of estimating probabilities of an unfair
die is in E. T. Jaynes, "Information Theory and Statistical Mechanics," pp.
181-218 in "Statistical Physics," Brandeis Summer Institute 1962, W. A.
Benjamin, Inc., New York, NY; 1963.
PDF,
PS
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Personal history by Jaynes, Edwin T. Jaynes, "Where Do We Stand on Maximum
Entropy?," pp. 15-118, in "The Maximum Entropy Formalism," Raphael D.
Levine and Myron Tribus, editors, The MIT Press, Cambridge, MA; 1979.
PDF,
PS
Historical
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Joseph-Louis Lagrange
biography
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Biography of Ludwig Boltzmann, Austrian physicist, 1844-1906, who was a
pioneer in thermodynamics and entropy, is Carlo Cercignani, "Ludwig
Boltzmann, The Man Who Trusted Atoms," Oxford University Press, Oxford, UK;
1998.
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On Boltzmann's
tombstone
(closeup)
is the formula for entropy "S = k log W"
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Ludwig Boltzmann
biography
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Another Ludwig Boltzmann
biography
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History of the twisted and convoluted development of the difficult concept
of entropy, C. Truesdell, "The Tragicomical History of Thermodynamics, 1822
- 1854," Springer-Verlag, Berlin; 1980. Professor Truesdell died January
14, 2000 at the age of 80. He retired from the faculty at Johns Hopkins
University in 1989.
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Edwin T. Jaynes biography,
photograph,
bibliography
Books
There are many textbooks on thermodynamics and energy conversion.
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R. Silbey and R. Alberty, "Physical Chemistry," Wiley; 2001. These authors
are from MIT. Alberty was formerly Dean of Science, and Silbey was until
recently Dean of Science. It's amazing that anyone can be a Dean and still
keep up with science.
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Typical excellent book in a traditional style, Mark W. Zemansky, "Heat and
Thermodynamics," McGraw-Hill Book Company, Inc., New York, NY; Third
Edition, 1951, or earlier editions starting in 1937. This book does not
mention information, and starts with assumed knowledge about temperature,
pressure, and volume. Suitable for advanced undergraduates.
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Introductory book, used for sophomores, covering classical thermodynamics
(no information), H. C. Van Ness, "Understanding Thermodynamics," Dover
Publications, New York, NY; 1969. Succinct and carefully crafted treatment.
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Book covering both equilibrium and irreversible thermodynamics, Herbert B.
Callen, "Thermodynamics," John Wiley and Sons, Inc., New York NY; 1962.
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Careful treatment of classical thermodynamics (no mention of information)
with emphasis on the mathematical formalism, C. Truesdell, "Rational
Thermodynamics," McGraw-Hill Book Company, New York, NY; 1969. Suitable
for graduate courses, for those with some prior exposure to thermodynamics.
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Textbook developed at MIT in energy conversion (no thermodynamics), David
C. White and Herbert H. Woodson, "Electromechanical Energy Conversion,"
John Wiley and Sons, Inc., New York, NY; 1959.
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An early textbook to use the Principle of Maximum Entropy as an approach
to thermodynamics is M. Tribus, "Thermostatics and Thermodynamics," D. Van
Nostrand Co, Inc., Princeton, NJ; 1961
Help Wanted
6.050J/2.110J students: be the first to suggest a resource, for example a
useful Web site or a good book or article, to add to the list above. Send
your suggestion by e-mail during Spring 2009
to 6.050-staff at mit.edu.
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