Storytelling meets the pleasure of finding things out.
For many years, whenever British filmmaker Christopher Sykes got asked at parties what he did, he would say, “I make films about Richard Feynman.” Which he did — though Sykes has made more than 70 eclectic documentaries, he became best-known for his film on Richard Feynman, including the excellent No Ordinary Genius and The Pleasure of Finding Things Out, from which these timeless excerpts on beauty, honors, and curiosity came. Sykes painted a portrait of Feynman that was as fascinating and full of his scientific genius as it was entertaining and brimming with his playful irreverence.
In this talk from TEDxCaltech, Feynman’s daughter, Michelle, introduces Sykes and as he takes the stage to pull the curtain on this extraordinary partnership between a great scientists and a great documentarian.
I have a friend who’s an artist and has sometimes taken a view which I don’t agree with very well. He’ll hold up a flower and say “look how beautiful it is,” and I’ll agree. Then he says “I as an artist can see how beautiful this is but you as a scientist take this all apart and it becomes a dull thing,” and I think that he’s kind of nutty. First of all, the beauty that he sees is available to other people and to me too, I believe…
I can appreciate the beauty of a flower. At the same time, I see much more about the flower than he sees. I could imagine the cells in there, the complicated actions inside, which also have a beauty. I mean it’s not just beauty at this dimension, at one centimeter; there’s also beauty at smaller dimensions, the inner structure, also the processes. The fact that the colors in the flower evolved in order to attract insects to pollinate it is interesting; it means that insects can see the color. It adds a question: does this aesthetic sense also exist in the lower forms? Why is it aesthetic? All kinds of interesting questions which the science knowledge only adds to the excitement, the mystery and the awe of a flower. It only adds. I don’t understand how it subtracts.” ~ Richard Feynman