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more books about cool topics
(Disclaimer: Links to go Amazon; if you buy with the link, I get a kickback. Which I will use to buy more books. Please, allow me to buy more books.)
The topic: Quantum computing
The book: Programming the Universe: A Quantum Computer Scientist Takes on the Cosmos by Seth Lloyd
What is quantum computing? It's a computer built to take advantage of fundamental principles of quanta, using the idea that quantum particles can be used to store data and perform operations on those data. Which means that any book about quantum computing must explain not only computer science, but also quantum physics. And quantum physics is the new rocket science, in the sense of being the discipline that everyone thinks nobody understands. Fortunately, Lloyd seems to delight in the fact that even the quantum physicists don't understand quantum physics. He knows what he's talking about, clearly loves his topic, and has a sly sense of humor that often has me looking at the page and going "...did he just make a joke there? Yeah, he just made a joke there."
If you ask ten quantum physicists to explain quantum physics, you'll get twenty-five different answers, all of which contradict each other, and one really confused cat. But Lloyd does a really good job of explaining hard-to-explain pieces. This is a topic I wasn't expecting to understand as well as I understood this book, honestly; I've mentioned my problems with math, which meant that I often just gave up on my science education and have had to self-teach since then, which means that I've got some curious gaps. But Lloyd's one of those people who loves his discipline like nobody's business, loves the problems he's working on, and is willing to do a lot to make sure you think they're just as cool as he does -- which is my main criterion for a book on science, which you might have already guessed -- and on the whole, he manages wonderfully.
I did not expect to walk out of this book having had so many a-ha! moments about quantum physics as I did, and if I were at MIT, I'd audit Lloyd's classes just to have the privilege of hearing his theories directly.
The topic: Quantum computing
The book: Programming the Universe: A Quantum Computer Scientist Takes on the Cosmos by Seth Lloyd
What is quantum computing? It's a computer built to take advantage of fundamental principles of quanta, using the idea that quantum particles can be used to store data and perform operations on those data. Which means that any book about quantum computing must explain not only computer science, but also quantum physics. And quantum physics is the new rocket science, in the sense of being the discipline that everyone thinks nobody understands. Fortunately, Lloyd seems to delight in the fact that even the quantum physicists don't understand quantum physics. He knows what he's talking about, clearly loves his topic, and has a sly sense of humor that often has me looking at the page and going "...did he just make a joke there? Yeah, he just made a joke there."
If you ask ten quantum physicists to explain quantum physics, you'll get twenty-five different answers, all of which contradict each other, and one really confused cat. But Lloyd does a really good job of explaining hard-to-explain pieces. This is a topic I wasn't expecting to understand as well as I understood this book, honestly; I've mentioned my problems with math, which meant that I often just gave up on my science education and have had to self-teach since then, which means that I've got some curious gaps. But Lloyd's one of those people who loves his discipline like nobody's business, loves the problems he's working on, and is willing to do a lot to make sure you think they're just as cool as he does -- which is my main criterion for a book on science, which you might have already guessed -- and on the whole, he manages wonderfully.
I did not expect to walk out of this book having had so many a-ha! moments about quantum physics as I did, and if I were at MIT, I'd audit Lloyd's classes just to have the privilege of hearing his theories directly.