Most people think that if you enter a black hole, then it's bye-bye forever.
But Stephen Hawking proposed that after a black hole is shooting out tiny bits of radiation, called Hawking radiation. If you waited long enough, by the time that the black hole disappears, most, if not all of the atoms that used to be you would be flying around in space.
Stephen Hawking discovered many different things.
A type of weak radiation thought to be present due to quantum effects near a black hole's event horizon is often called Hawking radiation, after the scientist who proposed it, Professor Stephen Hawking.
im pretty sure he is still working on hawking radiation (which is radiation coming out of black holes) i hope this helps
Stephen Hawking's research on black holes led to the concept of Hawking radiation, which proposed that black holes are not completely black but emit radiation. This idea resolved the paradox of black holes violating the laws of thermodynamics by showing that they can slowly lose mass and energy over time.
Hawking Radiation is something that is named after him, but he is the one who named it that though. It refers to the radiation given off by a black hole which is measurable and used to determine its mass and energy levels.
The possibility of black holes was known before Stephen Hawking. Stephen Hawking's contribution to the theory was mainly that a black hole would gradually evaporate, due to certain quantum effects that occur close to the black hole's event horizon.
Stephen Hawking sent his high school into a black hole
Actually he didn't.
Yes, matter and energy can come out of a black hole through a process called Hawking radiation, which was proposed by physicist Stephen Hawking.
Stephen Hawking is the man!
people now know more about the black hole.
Stephen Hawking discovered many different things.
The only thing that can escape a black hole once it has entered it is Hawking Radiation, named afer Stephen Hawking who discovered it. Google it for more info.
He likes the part at the end of the course when the black hole is involved.
As Stephen Hawking demonstrated mathematically, black holes can evaporate by emitting what is now known as Hawking radiation. The smaller the black hole, the faster the rate of evaporation. And they can evaporate until they are completely gone.
Not exactly - What Stephen Hawking did was to promote a rationalization for an argument that black holes and white holes have similar natures. In quantum mechanics, the black hole emits Hawking radiation, and so can come to thermal equilibrium with a gas of radiation. Since a thermal equilibrium state is time reversal invariant, Stephen Hawking argued that the time reverse of a black hole in thermal equilibrium is again a black hole in thermal equilibrium. This implies that black holes and white holes are similar objects with the same nature. However the classical consideration for white holes is that they are the reverse of black holes and theoretically support the wormhole hypothesis by pairing a black hole with a white hole.
A type of weak radiation thought to be present due to quantum effects near a black hole's event horizon is often called Hawking radiation, after the scientist who proposed it, Professor Stephen Hawking.