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    Post Closed as "unclear what you're asking" by Nathaniel, ACuriousMind, Edward Hughes, user81619, John Rennie
4 Grammar correction
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We have observed Sagittarius A* closely for many years, in 2011 the scientists got exited, a huge cloud of gas called G2 was accelerating towards Sagittarius A*, they expected that the black hole would devour the gas cloud and the accretion disk of the black hole would light up. But it was a big flop, as nothing happened and numerous solutions has been proposed to why the black hole has no appetite and rather rejects material than consume material. I can't find any information that we have observed anything being devoured by Sagittarius A*. Some of the gas from G2 was even pulled real close to Sagittarius A* in a close orbit for years, but still it was not eaten, and it is currently "diffusing" away. And it seems thatlike Stephen Hawking will have a hard time trying to enter Sagittarius A* with his space ship.

We have observed Sagittarius A* closely for many years, in 2011 the scientists got exited, a huge cloud of gas called G2 was accelerating towards Sagittarius A*, they expected that the black hole would devour the gas cloud and the accretion disk of the black hole would light up. But it was a big flop, as nothing happened and numerous solutions has been proposed to why the black hole has no appetite and rather rejects material than consume material. I can't find any information that we have observed anything being devoured by Sagittarius A*. Some of the gas from G2 was even pulled real close to Sagittarius A* in a close orbit for years, but still it was not eaten, and it is currently "diffusing" away. And it seems that Stephen Hawking will have a hard time trying to enter Sagittarius A* with his space ship.

We have observed Sagittarius A* closely for many years, in 2011 the scientists got exited, a huge cloud of gas called G2 was accelerating towards Sagittarius A*, they expected that the black hole would devour the gas cloud and the accretion disk of the black hole would light up. But it was a big flop, as nothing happened and numerous solutions has been proposed to why the black hole has no appetite and rather rejects material than consume material. I can't find any information that we have observed anything being devoured by Sagittarius A*. Some of the gas from G2 was even pulled real close to Sagittarius A* in a close orbit for years, but still it was not eaten, and it is currently "diffusing" away. And it seems like Stephen Hawking will have a hard time trying to enter Sagittarius A* with his space ship.

3 spelling, grammar and disposition correction
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But maybe we have white holes in our universe, where energy, information, and possilby matter and antimatter enters our universe. But where are they? In the early days there were speculations that quasars, which are active galactic nuclei, were white holes at the end of a wormhole, as they seemed too luminous, and quasars show redshift speeds that did not match the rest of the galaxy. But when accretion disk theory came along with its solutions in the 1970s, the suggestion that quasars are white holes was abandoned, and Quasars are by most scientists accepted as energy bursting out from the accretion disk of black holes. But what if quasars are a white holes where energy pours out from a wormhole? Science doesn’t think the Milky Way has a quasar near the galactic center or its quasar is currently not active. But we think that the Milky Way have a black hole a strong radio source and EM source called Sagittarius A*.   

Sagittarius A x-ray image

"Like black holes, white holes have properties like mass, charge, and angular momentum. They attract matter like any other mass, but objects falling towards a white hole would never actually reach the white hole's event horizon" [source]horizon.(" https://en.wikipedia.org/wiki/White_holesource)

But maybe we have white holes in our universe, where energy, information, and possilby matter and antimatter enters our universe. But where are they? In the early days there were speculations that quasars, which are active galactic nuclei, were white holes at the end of a wormhole, as they seemed too luminous, and quasars show redshift speeds that did not match the rest of the galaxy. But when accretion disk theory came along with its solutions in the 1970s, the suggestion that quasars are white holes was abandoned, and Quasars are by most scientists accepted as energy bursting out from the accretion disk of black holes. But what if quasars are a white holes where energy pours out from a wormhole? Science doesn’t think the Milky Way has a quasar near the galactic center or its quasar is currently not active. But we think that the Milky Way have a black hole a strong radio source and EM source called Sagittarius A*.  Sagittarius A x-ray image

"Like black holes, white holes have properties like mass, charge, and angular momentum. They attract matter like any other mass, but objects falling towards a white hole would never actually reach the white hole's event horizon" [source].(https://en.wikipedia.org/wiki/White_hole)

But maybe we have white holes in our universe, where energy, information, and possilby matter and antimatter enters our universe. But where are they? In the early days there were speculations that quasars, which are active galactic nuclei, were white holes at the end of a wormhole, as they seemed too luminous, and quasars show redshift speeds that did not match the rest of the galaxy. But when accretion disk theory came along with its solutions in the 1970s, the suggestion that quasars are white holes was abandoned, and Quasars are by most scientists accepted as energy bursting out from the accretion disk of black holes. But what if quasars are a white holes where energy pours out from a wormhole? Science doesn’t think the Milky Way has a quasar near the galactic center or its quasar is currently not active. But we think that the Milky Way have a black hole a strong radio source and EM source called Sagittarius A*. 

Sagittarius A x-ray image

"Like black holes, white holes have properties like mass, charge, and angular momentum. They attract matter like any other mass, but objects falling towards a white hole would never actually reach the white hole's event horizon." source

2 Corrected grammar
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What is a black hole? The general explanation is that a black hole is small region in space with such strong gravitational effects that nothing can escape and even light is trapped inside of the event horizon. But according to quantum mechanics information cannot be lost, but still it seems like information is lost in a black hole and we haveget the black hole information paradox.

What is a black hole? The general explanation is that a black hole is small region in space with such strong gravitational effects that nothing can escape and even light is trapped inside of the event horizon. But according to quantum mechanics information cannot be lost, but still it seems like information is lost in a black hole and we have the black information paradox.

What is a black hole? The general explanation is that a black hole is small region in space with such strong gravitational effects that nothing can escape and even light is trapped inside of the event horizon. But according to quantum mechanics information cannot be lost, but still it seems like information is lost in a black hole and we get the black hole information paradox.

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