J. Tobochnik, H. Gould, and J. Machta, Am. J. Phys., 73 (8), 708-716 (2004).
Several Monte Carlo algorithms and applications that are useful for understanding the concepts of temperature and chemical potential are discussed. The authors then introduce a…
This website features an extensive collection of animations of physical processes, demonstrating various concepts in waves, optics, mechanics, electricity, and thermodynamics. One…
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B. Parker and R. McLeod, Am. J. Phys., 48 (12), 1086-1070 (1980).
An analogy between black hole physics and thermodynamics is broadened, and equations similar to the usual partial differential relations of thermodynamics are found for black holes.…
R. Zia, E. Redish, and S. McKay, Am. J. Phys., 77 (7), 614-622 (2009).
The Legendre transform is a powerful tool in theoretical physics and plays an important role in classical mechanics, statistical mechanics, and thermodynamics. In typical…
W. Saslow, Am. J. Phys., 67 (12), 1239-1247 (1999).
The author develops analogies between economic systems and thermodynamics, and shows how economic quantities can characterize the state of an economic system in equilibrium. We argue…
