kazewolf
Junior Member
- Joined
- Dec 28, 2010
- Member Type
- Student or Learner
- Native Language
- Chinese
- Home Country
- Australia
- Current Location
- Australia
G'day,
I have a few paragraphs that needs checking to see if there is anything wrong.
Black Holes has a temperature; any object that has a temperature emits radiation, emitting radiation means loosing mass. Black hole radiations is also called as Hawking's Radiation.
Space around the black hole is usually colder. Hot flows into colder objects, therefore the space's heat flows into the black hole because black hole has a lower temperature. In addition with the black holes constant absorbing of matter, so therefore the black holes absorb more energy than they lose them.
When space expands enough, eventually the temperature around the black hole will become colder than the black hole. Remember hot flows to colder object? So black hole's heat will be radiated into space, eventually the black hole will evaporate but this cycle will take a long time.
Thank you.
I have a few paragraphs that needs checking to see if there is anything wrong.
Black Holes has a temperature; any object that has a temperature emits radiation, emitting radiation means loosing mass. Black hole radiations is also called as Hawking's Radiation.
Space around the black hole is usually colder. Hot flows into colder objects, therefore the space's heat flows into the black hole because black hole has a lower temperature. In addition with the black holes constant absorbing of matter, so therefore the black holes absorb more energy than they lose them.
When space expands enough, eventually the temperature around the black hole will become colder than the black hole. Remember hot flows to colder object? So black hole's heat will be radiated into space, eventually the black hole will evaporate but this cycle will take a long time.
Thank you.