Thank you for watching the video! We hope the knowledge we shared has helped you understand more about the mysterious universe. If you like this video, don't forget to click the like button to support us. And if you haven't subscribed yet, click subscribe so you don't miss out on upcoming interesting videos. We look forward to receiving your feedback in the comments section so we can improve our next videos. Thank you very much. See you in the next videos. Don't forget to subscribe to the channel: www.youtube.com/@CosmosAdventures-hd9es/featured?sub_confirmation=1
Silly question: could there be some kind of overlap between the strong force of all the comprssed nuclei and the gravitational force? Basically do particles even remain particles considering space and time curve so much?
This isn’t a silly question at all! In fact, it touches on one of the most complex issues when studying black holes and other extremely dense objects. In regions with such high energy density, particles may no longer behave as they would in normal space. According to quantum theory, the strong force binds particles within the nucleus, but under extreme gravitational forces, our usual understanding of particles and interactions may shift. When space-time is so heavily warped, we might be dealing with an environment where the familiar laws of physics don’t fully apply. Your question is genuinely interesting and addresses issues that physicists are still exploring!
@CosmosAdventures797 thanks. It itches to not know but it's truly beautiful even to try comprehend. Cheers to the sense of wonder and thank you for spreading the joy.
@@dushyantchaudhry4654 Thank you for joining us. We are happy to share our knowledge about space science with you. I hope you will help us come up with ideas to create more valuable videos. And don't forget to give us a like, share, and subscribe to the channel so that we have more motivation and together develop our community. Sincerely thank you. 🤩
Too much second guessing. The asymmetry of the accretion disk could easily be a lot of new mass being swallowed at the moment the picture was taken. Something that big and powerful has to be in perfect symmetry just as planets are big enough to form into spheres while small asteroids lack the mass and gravity to crunch themselves into a sphere.
Thanks for the input! You’re absolutely right that something as massive and energetic as a black hole and its accretion disk wouldn’t necessarily need to have perfect symmetry. In fact, because black holes are constantly accreting matter, there could be periods of imbalance-especially during bursts of new mass being pulled in, as you mentioned. The analogy to planets and asteroids is an interesting one, too. It really highlights how size and gravitational forces can lead to different structures and shapes. This is a great reminder of just how dynamic and unpredictable these cosmic giants are!
Thank you for watching the video! We hope the knowledge we shared has helped you understand more about the mysterious universe. If you like this video, don't forget to click the like button to support us. And if you haven't subscribed yet, click subscribe so you don't miss out on upcoming interesting videos. We look forward to receiving your feedback in the comments section so we can improve our next videos. Thank you very much. See you in the next videos.
Don't forget to subscribe to the channel: www.youtube.com/@CosmosAdventures-hd9es/featured?sub_confirmation=1
Silly question: could there be some kind of overlap between the strong force of all the comprssed nuclei and the gravitational force? Basically do particles even remain particles considering space and time curve so much?
This isn’t a silly question at all! In fact, it touches on one of the most complex issues when studying black holes and other extremely dense objects. In regions with such high energy density, particles may no longer behave as they would in normal space. According to quantum theory, the strong force binds particles within the nucleus, but under extreme gravitational forces, our usual understanding of particles and interactions may shift. When space-time is so heavily warped, we might be dealing with an environment where the familiar laws of physics don’t fully apply. Your question is genuinely interesting and addresses issues that physicists are still exploring!
@CosmosAdventures797 thanks. It itches to not know but it's truly beautiful even to try comprehend. Cheers to the sense of wonder and thank you for spreading the joy.
@@dushyantchaudhry4654 Thank you for joining us. We are happy to share our knowledge about space science with you. I hope you will help us come up with ideas to create more valuable videos. And don't forget to give us a like, share, and subscribe to the channel so that we have more motivation and together develop our community. Sincerely thank you. 🤩
Too much second guessing. The asymmetry of the accretion disk could easily be a lot of new mass being swallowed at the moment the picture was taken. Something that big and powerful has to be in perfect symmetry just as planets are big enough to form into spheres while small asteroids lack the mass and gravity to crunch themselves into a sphere.
Thanks for the input! You’re absolutely right that something as massive and energetic as a black hole and its accretion disk wouldn’t necessarily need to have perfect symmetry. In fact, because black holes are constantly accreting matter, there could be periods of imbalance-especially during bursts of new mass being pulled in, as you mentioned. The analogy to planets and asteroids is an interesting one, too. It really highlights how size and gravitational forces can lead to different structures and shapes. This is a great reminder of just how dynamic and unpredictable these cosmic giants are!