🎯 Загружено автоматически через бота: 🚫 Оригинал видео: 📺 Данное видео принадлежит каналу «3Blue1Brown» (@3blue1brown). Оно представлено в нашем сообществе исключительно в информационных, научных, образовательных или культурных целях. Наше сообщество не утверждает никаких прав на данное видео. Пожалуйста, поддержите автора, посетив его оригинальный канал. ✉️ Если у вас есть претензии к авторским правам на данное видео, пожалуйста, свяжитесь с нами по почте support@, и мы немедленно удалим его. 📃 Оригинальное описание: A series of delightful geometry puzzlesBonus video with extra puzzles: The artwork at the end is by Kurt Bruns Thanks to Daniel Kim for sharing the first two puzzles with me. He mentioned the earliest reference he knows for the tile puzzles is David and Tomei’s AMM article titled “The problem of Calissons.“ The idea to include the tetrahedron volume example was based on a conversation with Po Shen Lo about these puzzles, during which he mentioned the case of one dimension lower. I received the cone correction to the proof of Monge’s theorem from Akos Zahorsky via email. Also, the Bulgarian team leader Velian Velikov brought up the same argument, and just shot me a message saying “I came across it in a book I found online titled ’Mathematical Puzzles’ by Peter Winkler. There, it is attributed to Nathan Bowler“ I referenced quaternions at the end, and if you’re curious to learn more, here are a few options. This is a nice talk targetted at game developers: This video walks through concretely what the computation is for using quaternions to compute 3d rotations: My own video on the topic is mainly focused on understanding what they do up in four dimensions, which is not strictly necessary for using them, but for math nerds like me may be satisfying: Also, one of the coolest projects I’ve ever done was a collaboration with Ben Eater to make interactive videos based on that topic: Timestamps - Intro - Twirling tiles - Tarski Plank Problem - Monge’s Theorem - 3D Volume, 4D answer - The hypercube stack - The sadness of higher dimensions SEV#3: ------------------ These animations are largely made using a custom Python library, manim. See the FAQ comments here: #manim All code for specific videos is visible here: The music is by Vincent Rubinetti. ------------------ 3blue1brown is a channel about animating math, in all senses of the word animate. If you’re reading the bottom of a video description, I’m guessing you’re more interested than the average viewer in lessons here. It would mean a lot to me if you chose to stay up to date on new ones, either by subscribing here on YouTube or otherwise following on whichever platform below you check most regularly. Mailing list: Twitter: Instagram: Reddit: Facebook: Patreon: Website:
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