Feynman’s Diagrams / Visual Thinking Saves Physics


A visual thinker KNOWS all about the inadequacy of the MAGIC WORD ILLUSION



Richard Feynman’s Diagrams

Felice Frankel American Scientist Sept-Oct 2003


As our readers know, Sightings intends to bring attention to the power of visually communicating ideas. Although I do not pretend to completely comprehend all of the thinking represented in physicist Richard Feynman’s diagrams, I continue to be fascinated by his attempts to find the essential visual representations of complicated ideas. I’ve asked David Kaiser to help us understand Feynman’s thinking. David is the Leo Marx Assistant Professor of the History of Science in MIT’s Program in Science, Technology, and Society, and a lecturer in the Department of Physics. He completed doctoral degrees in theoretical physics and the history of science at Harvard University. He is the author of two dozen research articles and editor or co-editor of six books on the history of modern physics. His book Drawing Theories Apart: The Dispersion of Feynman Diagrams in Postwar Physics is forthcoming from the University of Chicago Press.

F. F. Can you give us a historical perspective on when and why Feynman began his drawings?

D. K. In the early days of quantum electrodynamics (QED) in the 1920s and 1930s, calculations were notoriously convoluted, the algebra often spilling over seven and eight lines just to calculate a single quantity. Worse, these nasty calculations almost always returned infinity, even when physicists asked straightforward questions. After the war, a new crop of young theoretical physicists, including Feynman, returned to QED and its problems. He decided first to try to take charge of the algebraic morass, streamlining the laborious algebraic manipulations, before worrying about the mysteries of the infinities. And so he began his doodlings in the late 1940s.

F. F. Would you say that Feynman was a visual thinker? Do you think his visual approach to these diagrams gave him insight into thinking about these invisible worlds different from his colleagues who worked only with numbers?

D. K. Feynman was definitely a visual thinker—no question about it. In most of his articles during this period, he made it clear that he was introducing handy calculational approaches rather than rigorously derived results. In fact, he often emphasized up front that many of the results he was reporting had not yet been rigorously derived, and that perhaps they couldn’t be (at least not by himself). Yet he hardly had less faith in them for all that—he had other reasons for finding his results “physically plausible,” and often those plausibility arguments hung on his intuitions and imagery. Note how Asperger “visual thinkers” are dismissed as “dysfunctional” by psychologists, who refuse to acknowledge that visual processing is “normal” for  human beings. But of course, psychologists are “trapped” in the supernatural illusion of “magic word thinking.” Feynman “philosopher quote”

Not all physicists thought the same way then, nor do they today. Many physicists who were active during the 1940s and 1950s report having great difficulty following Feynman’s papers, precisely because they tended to think in terms of starting principles followed by derived consequences, whereas Feynman almost never organized his papers that way. Others found his intuitive explanations, which usually relied on visual imagery (whether pictured or described in words), to be much easier to follow than the more abstruse mathematical deductions of other physicists like Julian Schwinger.

F. F. How was Feynman’s view of his drawings different from his colleagues’?

D. K. To Feynman, the diagrams showed what really happened in the quantum-mechanical world. Beyond a mere calculating trick, he came to see in the lines of his diagrams a patchwork of comings and goings on the microlevel, particles careening to and fro as they marched through space and time. Other physicists developed different interpretations. Freeman Dyson, who did more than anyone to promote the use of the diagrams, always emphasized their quantitative features. Schwinger avoided the diagrams altogether, sniffing later that Feynman’s stick-figures had brought “computation to the masses.” Yet Feynman’s diagrams have flourished among physicists for all kinds of uses in the last half-century.

F. F. There seems to be suggestion of symmetry in the diagram at left. Am I reading too deeply into the forms, or do you think the symmetry is important?

D. K. Symmetry was an important element in using the diagrams, but, perhaps ironically, Feynman and others had to use many words to explain some of the relevant symmetries that might be obscured by this diagram. This is characteristic of ALL visual thinking – it can require TONS of verbal translation to describe what is inherent in the “visual” expression. One big point was that the order of events could occur differently than pictured, and all of these possibilities had to be included on an equal footing. So in fact the equation that this diagram stood in for had more symmetries built into it than the diagram itself seemed to portray. Feynman, Dyson and others worked hard to make sure physicists understood that feature.

F. F. The elements seem to be lying in a particular two-dimensional space. But electron scattering occurs in three dimensions and over time. What do you think?

D. K. Of course trying to draw events unfolding in four dimensions (one temporal and three spatial) would be impossible on a sheet of paper, and even incorporating one additional spatial dimension in the line drawings would make them much more cumbersome to draw or to read. In drawing their Feynman diagrams, physicists followed the pictorial conventions that had been worked out decades earlier by people like Hermann Minkowski, who had similarly struggled to work out convenient two-dimensional line drawings to aid in making calculations with Einstein’s special relativity.

F. F. Would you say that diagrammatical thinking is unusual in the physics community?

D. K. I don’t think that it’s unusual, but neither is it universal. For example, some cosmologists rely on two-dimensional line drawings (such as Penrose diagrams) to sketch out the causal structures of exotic spacetimes; others eschew these pictures and work more exclusively with the equations of Einstein’s general relativity. Some physicists find Roger Penrose’s diagrams “intuitive,” familiar and helpful, whereas others see only criss-crossing diagonal lines whose physical “meaning” seems too difficult to extract, and so they rarely bother with them. Physicists employ many different types of thinking when broaching research questions.

Yet as Feynman knew well, this was only the start of his work. The power of his diagrammatic technique came in the imagining of other permutations of the process. Even at the next-simplest level, there are nine distinct ways in which the electrons could fire two photons back and forth, each corresponding to several lines of algebra yet each also reducible to a modification of the simple diagram.


ADDITIONAL PDF: cannot get URL to work Google David Kaiser, MIT

Richard Feynman’s Diagrams

by David Kaiser

“In the hands of a post-war generation, a tool intended to lead quantum electrodynamics out of a decades-long morass helped transform physics”




One thought on “Feynman’s Diagrams / Visual Thinking Saves Physics

  1. “Magic word thinking” = “chants, curses, and ‘marks of power’.”

    Lots of Normies have, uh, the last any more, courtesy of grown-commonplace tattoo parlors. (I don’t have any, and don’t plan on getting any…)

    The porpose of ‘magic words’ is the alteration of reality – namely, most Norms wish they had the capacity of S. Jobs to ‘change reality’ (reality-distortion field; Jobs is / was thought to be a personality-disordered individual.)

    Since the goal of practicing magicians is to cause reality to conform to their will (and cause themselves to become God thereby), then all normies ‘do magic, and that only’. (And autists do not…)


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