Hawking radiation is emitted and the smaller black holes will not be self sustainable, but the emissions cannot contain information. That’s the science side of what Stephen Hawking was famous for. There are micro black holes, also called quantum mechanical black holes or mini black holes, which are unstable and quickly vanish due to Hawking radiation. But we don’t need stable, large black holes for study. This is required for them to absorb material without emitting enough to break down. Yes I’m serious I see that I’ve always been hit at maybe it will show rich people what I know of.as.well.Ī stable black hole does need to be about three solar masses. Now I see many options of being is say retired. This is so old the voice or voices never helped I fought to stay sane also to be avg. I didn’t leave a thing out also came up with a plan for what I saw and this kind speaks nonstop if anything I hope you all may know something of magnetism same as relativity. I want to show of what I’ve went through how a mind placed itself and it showed in space as it went amd already. Do you want to hear we are programmed sure we are but I went differently. Its a Hell like no other and ever look at what looks like a thinking cap with constellations within sort of like moving a pole and placing it.over ones mind as myself. Its like a computer but I don’t think this stuff it will.shed light on about anything thing that comes to mind. Can I say I am the one that went through all these stories and can explain. It kept me.in bed covering my ears for days. You said black hole it’s like a vacuum n side or say the biggest blower inside your mind. Written by Leo Rodriguez, Assistant Professor of Physics, Grinnell College and Shanshan Rodriguez, Assistant Professor of Physics, Grinnell College.Īdapted from an article originally published on The Conversation.Ĭan I say I disagree to be here today still is I don’t see myself the way another mind does. But they would enjoy the adventure, for as long as they survived … maybe …. Their journey and findings would be lost to the rest of the entire universe for all time. Keeping in mind that nothing can escape the gravitational pull beyond the event horizon, the in-falling person would not be able to send any information about their findings back out beyond this horizon. Now, if a person found an isolated supermassive black hole suitable for scientific study and decided to venture in, everything observed or measured of the black hole interior would be confined within the black hole’s event horizon. To enter one safely, you would need to find a supermassive black hole that is completely isolated and not feeding on surrounding material, gas, and or even stars. They are most certainly not hospitable and would make traveling into the black hole extremely dangerous. These disks are called accretion disks and are very hot and turbulent. Most black holes that we observe in the universe are surrounded by very hot disks of material, mostly comprising gas and dust or other objects like stars and planets that got too close to the horizon and fell into the black hole. Credit: Leo and Shanshan Rodriguez, CC BY-ND Other considerations The person would experience spaghettification, and most likely not survive being stretched into a long, thin noodlelike shape.Ī person falling into a supermassive black hole would likely survive. In other words, if the person is falling feet first, as they approach the event horizon of a stellar mass black hole, the gravitational pull on their feet will be exponentially larger compared to the black hole’s tug on their head. This implies, due to the closeness of the black hole’s center, that the black hole’s pull on a person will differ by a factor of 1,000 billion times between head and toe, depending on which is leading the free fall. Thus, someone falling into a stellar-size black hole will get much, much closer to the black hole’s center before passing the event horizon, as opposed to falling into a supermassive black hole. The supermassive black hole at the center of our Milky Way galaxy, by contrast, has a mass of roughly 4 million solar masses, and it has an event horizon with a radius of 7.3 million miles or 17 solar radii. For a black hole with a mass of our Sun (one solar mass), the event horizon will have a radius of just under 2 miles. The radial size of the event horizon depends on the mass of the respective black hole and is key for a person to survive falling into one. Even light, the fastest-moving thing in our universe, cannot escape – hence the term “black hole.” Credit: Leo and Shanshan, CC BY-NDĪt the event horizon, the black hole’s gravity is so powerful that no amount of mechanical force can overcome or counteract it. The distance from a black hole’s center of mass to where gravity’s pull is too strong to overcome is called the event horizon.
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