Anxiety and the Equation
Understanding Boltzmann's Entropy
192 pp., 5 x 8 in, 24 b&w illus.
- Published: October 23, 2018
- Published: September 28, 2018
- Published: November 1, 2022
A man and his equation: the anxiety-plagued nineteenth-century physicist who contributed significantly to our understanding of the second law of thermodynamics.
Ludwig Boltzmann's grave in Vienna's Central Cemetery bears a cryptic epitaph: S = k log W. This equation was Boltzmann's great discovery, and it contributed significantly to our understanding of the second law of thermodynamics. In Anxiety and the Equation, Eric Johnson tells the story of a man and his equation: the anxiety-plagued nineteenth-century physicist who did his most important work as he struggled with mental illness.
Johnson explains that “S” in Boltzmann's equation refers to entropy, and that entropy is the central quantity in the second law of thermodynamics. The second law is always on, running in the background of our lives, providing a way to differentiate between past and future. We know that the future will be a state of higher entropy than the past, and we have Boltzmann to thank for discovering the equation that underlies that fundamental trend. Johnson, accessibly and engagingly, reassembles Boltzmann's equation from its various components and presents episodes from Boltzmann's life—beginning at the end, with “Boltzmann Kills Himself” and “Boltzmann Is Buried (Not Once, But Twice).” Johnson explains the second law in simple terms, introduces key concepts through thought experiments, and explores Boltzmann's work. He argues that Boltzmann, diagnosed by his contemporaries as neurasthenic, suffered from an anxiety disorder. He was, says Johnson, a man of reason who suffered from irrational concerns about his work, worrying especially about opposition from the scientific establishment of the day.
Johnson's clear and concise explanations will acquaint the nonspecialist reader with such seemingly esoteric concepts as microstates, macrostates, fluctuations, the distribution of energy, log functions, and equilibrium. He describes Boltzmann's relationships with other scientists, including Max Planck and Henri Poincaré, and, finally, imagines “an alternative ending,” in which Boltzmann lived on and died of natural causes.
“A clear, lively, and accurate account of Ludwig Boltzmann's life and work and the meaning of his most famous contribution to science: the equation that describes the entropy of an isolated system.”
Don S. Lemons, Professor of Physics Emeritus, Bethel College
author of A Student's Guide to Entropy, Thermodynamic Weirdness: From Fahrenheit to Clausius, and Drawing Physics: 2600 Years of Discovery from Thales to Higgs
“Boltzmann emerges as a brilliant but troubled mind whose groundbreaking ideas and sympathetic afflictions feel more at home in the twenty-first century than the nineteenth. In Johnson's capable hands, Boltzmann's professional and personal story becomes one for the ages.”
Ethan Siegel, Theoretical Astrophysicist
author of Beyond the Galaxy and Treknology
“Johnson has written a gripping, droll, and lucid account of the microscopic understanding of entropy, interwoven with the poignant story of Boltzmann. The ideas in this widely accessible book are among the most important in the scientific view of our manifold universe.”
Kannan Jagannathan, Professor of Physics, Amherst College
Johnson's discussion of Boltzmann's equation (which is credited to him because he came up with the key concepts, though he never explicitly wrote it in the modern form) is anchored in extremely concrete discussions of random processes involving small numbers of particles, and calculating the likelihood of each of the “microstates” of these systems. Thanks to these examples of particles hopping between positions and energy states, he is able to put together one of the clearest explanations I've seen of what entropy is in a statistical sense, and how it functions. He even explains why it makes sense for a logarithm to appear, which I had never seen before.
Johnson writes pedagogically, but not pedantically. He is charming and colloquial. He uses (maybe a few too many) parenthetical asides. The book barely tops 150 pages, with short chapters switching easily between history and science; it's a book that can be read lightly and in a weekend.
a piece of scientific popularization as well as a remarkably humane book.
Inside Higher Ed