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apphysics hashtag performance

#Apphysics combines creativity and science, showcasing physics concepts through engaging videos. Users explore experiments, animations, and theories, making complex ideas accessible and entertaining, while fostering a community of curious minds.
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code: puywn3u #ap #test #help #aptest #apphysic #apphysics #apphysics1 #physics
code: 6nsvwfy #ap #test #help #aptest #physics #apphysics #apphysics1
5.8k
code: 6nsvwfy #ap #test #help #aptest #physics #apphysics #apphysics1
code: lumfbt2 #ap #test #help #aptest #apphysics #apphysics1 #physics
1.7k
code: lumfbt2 #ap #test #help #aptest #apphysics #apphysics1 #physics
JK its terirble 😞😞 #twins #school #apphysics #thepiercetwins #relatable #viral #class #hard #apexam #physics #funny #comedy #sibling #fyp #fy #fypage #fypシ #fypageシ #fyppp #viralvideo #viraltiktok #viral #blowthisup #chill #chillguy
780.0
JK its terirble 😞😞 #twins #school #apphysics #thepiercetwins #relatable #viral #class #hard #apexam #physics #funny #comedy #sibling #fyp #fy #fypage #fyp#fypage#fyppp #viralvideo #viraltiktok #viral #blowthisup #chill #chillguy
Dirac field still massive but my dirac messages are empty, source PBS spacetime and article by scientific american "Every electron ever observed, whether it's just ambling around a carbon atom in your fingernail or speeding through a particle accelerator, looks like it's constantly doing tiny pirouettes as it makes its way through the world. Its spinning never appears to slow or speed up. No matter how an electron is jostled or kicked, it always looks like it's spinning at exactly the same speed. It even has a little magnetic field, just like a spinning object with electric charge should. Naturally, physicists call this behavior “spin.” But despite appearances, electrons don't spin. They can't spin; proving that it's impossible for electrons to be spinning is a standard homework problem in any introductory quantum physics course. If electrons actually spun fast enough to account for all of the spinlike behavior they display, their surfaces would be moving much faster than the speed of light (if they even have surfaces at all). Even more surprising is that for nearly a century, this seeming contradiction has been written off by most physicists as just one more strange feature of the quantum world—nothing to lose sleep over. Yet spin is deeply important. If electrons didn't seem to spin, your chair would collapse down to a minuscule fraction of its size. You'd collapse, too—and that would be the least of your problems. Without spin, the entire periodic table of elements would come crashing down, and all of chemistry would go with it. In fact, there wouldn't be any molecules at all. So spin isn't just one of the best tricks that electrons pull; it's also one of their most crucial." #chemistry #physics #quantumphysics #electrons #electron #apchemistry #apphysics
534.0
Dirac field still massive but my dirac messages are empty, source PBS spacetime and article by scientific american "Every electron ever observed, whether it's just ambling around a carbon atom in your fingernail or speeding through a particle accelerator, looks like it's constantly doing tiny pirouettes as it makes its way through the world. Its spinning never appears to slow or speed up. No matter how an electron is jostled or kicked, it always looks like it's spinning at exactly the same speed. It even has a little magnetic field, just like a spinning object with electric charge should. Naturally, physicists call this behavior “spin.” But despite appearances, electrons don't spin. They can't spin; proving that it's impossible for electrons to be spinning is a standard homework problem in any introductory quantum physics course. If electrons actually spun fast enough to account for all of the spinlike behavior they display, their surfaces would be moving much faster than the speed of light (if they even have surfaces at all). Even more surprising is that for nearly a century, this seeming contradiction has been written off by most physicists as just one more strange feature of the quantum world—nothing to lose sleep over. Yet spin is deeply important. If electrons didn't seem to spin, your chair would collapse down to a minuscule fraction of its size. You'd collapse, too—and that would be the least of your problems. Without spin, the entire periodic table of elements would come crashing down, and all of chemistry would go with it. In fact, there wouldn't be any molecules at all. So spin isn't just one of the best tricks that electrons pull; it's also one of their most crucial." #chemistry #physics #quantumphysics #electrons #electron #apchemistry #apphysics

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