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Piotr Kosek: "And it follows that the average density of a supermassive black hole, one with a mass of billions of suns, can be comparable to the density..." — True

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Piotr Kosek

📅 28.01.2026 · Czarne dziury nie istnieją? Nowa hipoteza fizyków - Ast... · 👁️ 4

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True. The claim is true. The average density of supermassive black holes, especially those with masses of billions of suns, can be surprisingly low and comparable to the density of water or even air. This is because the Schwar...

"And it follows that the average density of a supermassive black hole, one with a mass of billions of suns, can be comparable to the density of water, or even air. It's hard to imagine that matter with the density of water would form a hard, impenetrable shell on which everything breaks." "Średnia gęstość supermasywnej czarnej dziury, takiej o masie miliardów słońc może być porównywalna z gęstością wody, a nawet powietrza."
🌐 (Machine-translated — original in Polish) · Original in Polishuage
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Transcript excerpt

Oryginał w języku Polskim Open on YouTube

Co więcej, koncepcja twardej powierzchni kłóci się z fizyką gęstości. Może być to dla wielu zaskoczeniem, ale im większa czarna dziura, tym mniejsza jest jej średnia gęstość. Promień z Schwarz Shielda, czyli czyli ten promień horyzontu zdarzeń rośnie proporcjonalnie do masy, ale objętość rośnie w sześcianie promienia. I wynika z tego, że średnia gęstość supermasywnej czarnej dziury, takiej o masie miliardów słońc może być porównywalna z gęstością wody, a nawet powietrza. Trudno sobie wyobrazić, by materia o gęstości wody tworzyła twardą, nieprzeniknioną skorupę, na której wszystko się rozbija. Żeby gravastar istniał, musiałoby zachodzić jakieś spontaniczne przejście fazowe materii przy niskich gęstościach, a tego nigdy nigdzie nie zaobserwowaliśmy w żadnych laboratoriach. Dlatego większość fizyków traktuje grawa s

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