When the Uncertainty Principle Goes to 11: Or How to Explain Quantum Physics with Heavy Metal is a new book by the amazing Philip Moriarty. You may know Moriarty from the Sixty Symbols Youtube Channel.
You can listen to an interview Mike Haubrich and I conducted with Philip Moriarty here, on Ikonokast. Our conversation wanders widely through the bright halls of education, the dark recesses of of philosophy of science and math(s), the nanotiny, and we even talk about the book a bit.
Moriarty, an experienced and beloved teacher at the University of Nottingham, uses heavy metal to explain some of the most difficult to understand concepts of nano science. Much of this has to do with waves, and when it comes to particle physics, wave are exactly half the story. This idea came to him in part because of what he calls the great overlap in the Venn Diagram of aspiring physicists and intense metal fans. Feedback, rhythm, guitar strings twanging (or not), are both explained by the same theories that help us understand the quantum world, and are touchstones to explaining that world.
I’ve read all the books that do this, that attempt to explain this area of physics, and they are mostly pretty great. When the Uncertainty Principle Goes to 11 does it the best. Is this because it is the most recent? Does Philip Moriarty stand on the shoulders of giants? Or is it because the author has hit on a better way of explaining this material, and thus, owes his greatness to the smallness of his contemporaries? We may never know, but I promise you that When the Uncertainty Principle Goes to 11 is a great way to shoulder your way into the smallness of the smallest worlds.
As you will understand if you check out the Ikonokast interview, Moriarty has taken the risk of using math in this book. The math is straight forward and accompanied by explanation, so you do not have to be a math trained expert to use it and understand. Most importantly, while Moriarty uses music, metal, and other real life things to explain quantum physics, these analogies are more than just analogies. They are examples of similar phenomena on different scales. As Philip told me during the interview, we don’t diffract when we walk walk through a doorway, because the things that happen on nano scales don’t scale up. But wave functions function to pick apart both quantum mechanics and Metallica, so why not explore guitar strings, feedback, and mosh pits together with condensed particle physics?
I strongly recommend this book. Just get it, read it. Also, the illustrations by Pete McPartlan are fun and enlightening. Even if you think you understand quantum physics very well already, and I know most of my readers do, you will learn new ways of thinking or explaining.
Philip Moriarty is a professor of physics, a heavy metal fan, and a keen air-drummer. His research focuses on prodding, pushing, and poking single atoms and molecules; in this nanoscopic world, quantum physics is all. Moriarty has taught physics for more than twenty years and has always been struck by the number of students in his classes who profess a love of metal music, and by the deep connections between heavy metal and quantum mechanics. He’s a father of three — Niamh, Saoirse, and Fiachra – who have patiently endured his off-key attempts to sing along with Rush classics for many years. Unlike his infamous namesake, Moriarty has never been particularly enamored of the binomial theorem.