To understand all pythagorean triples like (3, 4, 5), (5, 12, 13), etc. look to complex numbers. This video was sponsored by Remix: Help fund future projects: An equally valuable form of support is to simply share some of the videos. Special thanks to these supporters: Home page: Regarding the brief reference to Fermat's Last Theorem, what should be emphasized is that it refers to *positive* integers. You can of course have things like 0^3 2^3 = 2^3, or (-3)^3 3^3 = 0^3. Music by Vincent Rubinetti: ------------------ 3blue1brown is a channel about animating math, in all senses of the word animate. And you know the drill with YouTube, if you want to stay posted about new videos, subscribe, and click the bell to receive notifications (if you're into that). If you are new to this channel and want to see more, a good place to start is this playlist: Various social media stuffs: Website: Twitter: Patreon: Facebook: Reddit:
Hide player controls
Hide resume playing