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On Squaring the Circle: Dickinson College Math Professor Traces Storied History of Famed Math Problems

Dave Richeson, professor of mathematics

Photo by Carl Socolow '77.

Professor dives in to the 'problems of antiquity' and the people behind them

by MaryAlice Bitts-Jackson

Professor of Mathematics Dave Richeson has always loved math, and as a college student, he also discovered a love of writing. Both of those passions combine in his book Tales of Impossibility: The 2000-Year Quest to Solve the Mathematical Problems of Antiquity (2019, Princeton University Press), a look at the history of four of the most famous problems in mathematics—the "problems of antiquity."

In his discussion of the book below, Richeson reveals what captivates him about the problems of antiquity, why the history of these problems is so long and complex and why his dual love of math and writing fits in beautifully within the Dickinson educational model.

So what are the problems of antiquity?

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Tales of Impossibility tells the 2,000-year story of these problems, which ends with the surprising twist that they are all impossible to solve.

Tell me a little about your interest in writing about this topic.

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Why is the story of these four problems such a long and complex one?

The Greeks were not able to solve these problems, and neither were future generations of mathematicians. Some of history’s greatest thinkers worked on them—Archimedes, René Descartes, Isaac Newton, Leonardo da Vinci and even Abraham Lincoln. An important part of the story is that although they are geometric problems, geometry alone was not sufficient to understand them. In trying to tackle these problems, mathematicians had to create new mathematics—new classes of numbers, a better understanding of the foundations of mathematics, algebra, calculus and so on. The history of mathematics is tightly interwoven with the history of these problems.

In the end, mathematicians proved that the problems of antiquity are impossible to solve. No amount of time, effort or cleverness will yield a solution. Several of the problems were proven impossible by a little-known mathematician named Pierre Wantzel in 1837. The last of the problems, the problem of squaring the circle, was proven impossible by Ferdinand von Lindemann in 1882. The key to Lindemann’s work was understanding the mathematical constant π.

Did you face any challenges during the research and writing process?

As it turned out, the most challenging part of researching and writing about these problems was deciding what not to include in the book. These problems were so famous for so long, and so many important mathematicians worked on them that there was far more than one book’s worth of material. In fact, I had most of the book written by the summer of 2018, but it was far too long, so I spent the entire summer cutting, streamlining, combining and reorganizing, trying to efficiently tell this remarkable story.

Did you write Tales of Impossibility with a certain kind of reader in mind?

I wrote the book for a general audience—anyone with a solid high school math background should be able to understand the book. That said, unlike some popular science books that present ideas at only the highest level and avoid technical details, I do not shy away from writing about the mathematics and presenting mathematical arguments. So it does require some thought and attention. It is also a scholarly work with an extensive bibliography and endnotes. I believe I have brought together a lot of ideas that will be new to many mathematicians.

What’s something you learned in the process of researching this book that surprised, delighted or fascinated you?

One surprising thing I learned was that David Leisk, better known by his nom de plume Crockett Johnson and author of comic strip Barnaby and the Harold and the Purple Crayon series, became interested in mathematics late in his life. He painted over 100 geometrical works, 80 of which are now in the Smithsonian. He became interested in the problems of antiquity, and they were the subjects of several of his paintings. In fact, he actually published a mathematical article that is related to the construction of the regular seven-sided polygon.

Tell me a little about how you developed an interest in the history of mathematics and also an interest in writing.

I always loved mathematics. The only written comment on my first-grade report card was “David particularly enjoys math.” But I didn’t really know anything about the history of mathematics until my sophomore year of college, when I picked up—on a whim—Journey Through Genius, a book about the history of some of the greatest theorems in mathematics. I loved it. I have been interested in the history of mathematics ever since. The funny thing is that the author of the book, Bill Dunham, lives here in Pennsylvania, and I have since gotten to know him quite well. He and his book were very influential to me and my career path.

Growing up I would have said there were “math people” and “writing people,” and I was one of the former. But eventually I realized that that was not true. I came to enjoy writing—especially when it was on a topic I was interested in. Today, I love the challenge of conducting research, taking the jumble of interrelated facts, organizing them, writing, revising and producing a document that people can read, understand, enjoy and learn from. In fact, much of my career has centered around writing—be it research articles, my two books, memos, teaching writing or editing the writing of others. Writing is an essential skill that everyone should learn, regardless of their area of study or career plans.

I am a product of a liberal-arts education. I have always loved mathematics, technology and the sciences, but in college I took numerous writing classes as well as classes in the humanities, social sciences and the arts. I love to read both fiction and nonfiction. I am thrilled that I have been able to find a way to combine all of these interests in my scholarly work, and I am grateful to be at a college that values this kind of scholarship. 

A 1993 graduate of Hamilton College who earned his Ph.D. in math from Northwestern University in 1998, Richeson has been teaching at Dickinson since 2000. His research focuses on dynamical systems, topology, the history of mathematics and recreational mathematics. The editor of Math Horizons, the undergraduate magazine of the Mathematical Association of America, from 2014 to 2019, he published his first book, Euler’s Gem: The Polyhedron Formula and the Birth of Topology in 2008, also with Princeton University Press. In his free time, he enjoys writing about math on his blog, Division by Zero, and on Twitter at @divbyzero.

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Published June 11, 2020