Book ID: CBB042236017

Hot Molecules, Cold Electrons: From the Mathematics of Heat to the Development of the Trans-Atlantic Telegraph Cable (2020)

unapi

Nahin, Paul J. (Author)


Princeton University Press


Publication Date: 2020
Physical Details: 232
Language: English

An entertaining mathematical exploration of the heat equation and its role in the triumphant development of the trans-Atlantic telegraph cableHeat, like gravity, shapes nearly every aspect of our world and universe, from how milk dissolves in coffee to how molten planets cool. The heat equation, a cornerstone of modern physics, demystifies such processes, painting a mathematical picture of the way heat diffuses through matter. Presenting the mathematics and history behind the heat equation, Hot Molecules, Cold Electrons tells the remarkable story of how this foundational idea brought about one of the greatest technological advancements of the modern era.Paul Nahin vividly recounts the heat equation’s tremendous influence on society, showing how French mathematical physicist Joseph Fourier discovered, derived, and solved the equation in the early nineteenth century. Nahin then follows Scottish physicist William Thomson, whose further analysis of Fourier’s explorations led to the pioneering trans-Atlantic telegraph cable. This feat of engineering reduced the time it took to send a message across the ocean from weeks to minutes. Readers also learn that Thomson used Fourier’s solutions to calculate the age of the earth, and, in a bit of colorful lore, that writer Charles Dickens relied on the trans-Atlantic cable to save himself from a career-damaging scandal. The book’s mathematical and scientific explorations can be easily understood by anyone with a basic knowledge of high school calculus and physics, and MATLAB code is included to aid readers who would like to solve the heat equation themselves.A testament to the intricate links between mathematics and physics, Hot Molecules, Cold Electrons offers a fascinating glimpse into the relationship between a formative equation and one of the most important developments in the history of human communication.

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Reviewed By

Review Susan Shelangoskie (2021) Review of "Hot Molecules, Cold Electrons: From the Mathematics of Heat to the Development of the Trans-Atlantic Telegraph Cable". Isis: International Review Devoted to the History of Science and Its Cultural Influences (pp. 626-627). unapi

Review Susan Shelangoskie (2021) Review of "Hot Molecules, Cold Electrons: From the Mathematics of Heat to the Development of the Trans-Atlantic Telegraph Cable". Isis: International Review Devoted to the History of Science and Its Cultural Influences (pp. 626-627). unapi

Multimedia Object Jim Stein; Nahin, Paul J. (2020) Paul Nahin, “Hot Molecules, Cold Electrons” (Princeton UP, 2020). unapi

Citation URI
https://data.isiscb.org/isis/citation/CBB042236017/

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Authors & Contributors
Burke, Katie
Chamizo, José A.
Finn, Bernard S.
Gatto, Romano
Gavroglu, Kostas
Gordon, John Steele
Journals
Science and Education
American Quarterly
American Scientist
Annalen der Physik
Centaurus: International Magazine of the History of Mathematics, Science, and Technology
Historia Scientiarum: International Journal of the History of Science Society of Japan
Publishers
Cambridge University Press
CreateSpace Independent Publishing Platform
Edizioni di Storia e Letteratura
MIT Press
Rowman & Littlefield
Springer
Concepts
Physics
Telegraphs; telephones
Cable, transatlantic
Science and technology, relationships
Communication technology
Mathematics and its relationship to science
People
Kelvin, William Thomson, Baron
Fourier, Jean Baptiste Joseph
Bergson, Henri Louis
Debye, Peter Joseph William
Dirichlet, Johann Peter Gustav Lejeune
Ehrenfest, Paul
Time Periods
19th century
20th century
18th century
20th century, early
17th century
21st century
Places
Great Britain
United States
Southeast Asia
Italy
Naples (Italy)
Institutions
Bell Telephone Laboratories
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