Energy is at the heart of physics and of huge importance to society and yet no book exists specifically to explain it, and in simple terms. In tracking the history of energy, this book is filled with the thrill of the chase, the mystery of smoke and mirrors, and presents a fascinating
human-interest story. Moreover, following the history provides a crucial aid to understanding: this book explains the intellectual revolutions required to comprehend energy, revolutions as profound as those stemming from Relativity and Quantum Theory. Texts by Descartes, Leibniz, Bernoulli,
d'Alembert, Lagrange, Hamilton, Boltzmann, Clausius, Carnot and others are made accessible, and the engines of Watt and Joule are explained.
Many fascinating questions are covered, including:
* Why just kinetic and potential energies - is one more fundamental than the other?
* What are heat, temperature and action?
* What is the Hamiltonian?
* What have engines to do with physics?
* Why did the steam-engine evolve only in England?
* Why S=klogW works and why temperature is IT.
Using only a minimum of mathematics, this book explains the
emergence of the modern concept of energy, in all its forms: Hamilton's mechanics and how it shaped twentieth-century physics, and the meaning of kinetic energy, potential energy, temperature, action, and entropy. It is as much an explanation of fundamental physics as a history of the fascinating
discoveries that lie behind our knowledge today.
1. Introduction: Feynman's Blocks
2. Perpetual Motion
3. Vis viva, the First 'Block' of Energy
4. Heat in the Seventeenth Century
5. Heat in the Eighteenth Century
6. The Discovery of Latent and Specific Heats
7. A Hundred and One Years of Mechanics: Newton to
Lagrange
8. A Tale of Two Countries: the Rise of the Steam Engine and the Caloric Theory of Heat
9. Rumford, Davy, and Young
10. Naked Heat: the Gas Laws and the Specific Heat of Gases
11. Two Contrasting Characters: Fourier and Herapath
12. Sadi Carnot
13. Hamilton and
Green
14. The Mechanical Equivalent of Heat
15. Faraday and Helmholtz
16. The Laws of Thermodynamics: Thomson and Clausius
17. A Forward Look
18. Impossible Things, Difficult Things
19. Conclusions
There are no Instructor/Student Resources available at this time.
Jennifer Coopersmith took her PhD in nuclear physics from the University of London, and was later a research fellow at TRIUMF, University of British Columbia. She was for many years an associate lecturer for the Open University (London and Oxford) honing her skills at answering those
"damn-fool profound and difficult questions" that students ask. She currently does similar work on astrophysics courses for Swinburne University of Technology in Melbourne while based at La Trobe University in Bendigo, Victoria.
Making Sense - Margot Northey and Joan McKibbin