Black Holes & Light: Can Light Escape?

In summary, light can't escape from a black hole, but it still propagates at the speed of light. This is because the geometry of the black hole spacetime bends the light under the force of gravity.
  • #1
flyingace
5
0
It heard it stated that light cannot escape from a black hole, yet light continues to propagate at the speed of light even in a black hole. Can someone explain to me how it can be that light can't escape yet does not slow down?
 
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  • #2
flyingace said:
It heard it stated that light cannot escape from a black hole, yet light continues to propagate at the speed of light even in a black hole. Can someone explain to me how it can be that light can't escape yet does not slow down?

Have a look at the "Similar Discussions" links at the bottom of the page -- do those discussions help? :smile:
 
  • #3
Some, but not exactly what I'm looking for.
 
  • #4
Things in spacetime travel on what are known as geodesics, which is the space-time geometry equivalent of straight lines. Using Euclidean Geometry as a reference frame, we say that spacetime "bends" light under the force of gravity (Google "Einstein Rings").

Because light is affected by gravity, it "slows down" when coming out of a gravity well. I put "slows down" in quoted because it does NOT slow down locally, it just looks that way to a remote observer. The "slowing down" shows up as red-shifting. That is, the light is still traveling at c but its frequency shifts towards the red end of the spectrum.

The gravity in a black hole is so strong that the geodesic points back towards the singularity at the center of the BH and the light, while traveling at c, locally, away from the singularity is in fact moving towards it along the geodesic.
 
  • #5
flyingace said:
Can someone explain to me how it can be that light can't escape yet does not slow down?

"Not slowing down" is a local concept: light always moves at ##c## when measured by observers in the same local patch of spacetime as the light. This is true in any spacetime, regardless of its global geometry.

"Escape" is a global concept: light can't escape from inside the event horizon because the global geometry of a black hole spacetime won't let it. Geometrically, there is simply no path the light can follow that will allow it to escape. Observers who observe the light, locally, moving at ##c## can't escape either; in fact they will fall into the singularity sooner than light that is moving radially outward, relative to them, at ##c#.
 

1. What is a black hole?

A black hole is a region in space where the gravitational pull is so strong that nothing, including light, can escape from it. It is created when a massive star dies and collapses under its own gravity.

2. How is light affected by a black hole?

The intense gravitational pull of a black hole bends and distorts the path of light, making it appear curved. Light can also be absorbed by the black hole, making it appear completely black.

3. Can light escape from a black hole?

No, once light enters the event horizon of a black hole, it cannot escape. The intense gravity of the black hole traps the light and prevents it from escaping, making it impossible to see or detect from the outside.

4. How is the event horizon related to light escaping from a black hole?

The event horizon is the boundary surrounding a black hole where the escape velocity is greater than the speed of light. This means that once light crosses the event horizon, it cannot escape from the black hole.

5. Are there any exceptions to light being unable to escape from black holes?

In rare cases, some light can escape from the black hole due to quantum effects. This is known as Hawking radiation and it occurs near the event horizon. However, this process is extremely weak and does not significantly affect the overall properties of the black hole.

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