How does gravity affect the path of light?

  • Thread starter Thread starter Ron777
  • Start date Start date
  • Tags Tags
    Light
Ron777
Messages
2
Reaction score
0
Question: If gravity can bend light toward it's source, or even hold it back so to speak (like a black hole), how does light bend around a star like photo attached? It seems if gravity pulls light toward it, the light shouldn't move out and around the star/sun but bend into it?

DSCF7398.jpg
 
Physics news on Phys.org
You are interpreting the picture wrong.

The pic is confusing because the light ray is not aligned with the grid. But light rays can go any which way they want. This one happens to be crossing the imaginary grid at an angle.

But rest assured: that light ray is coming directly - in a straight line - from its source.
 
Last edited:
Look what happens if we add more light rays. These rays are from a near point source, so they radiate outward from that point.
 

Attachments

  • lensing.jpg
    lensing.jpg
    79.8 KB · Views: 456
But this might make more sense. Here, the light rays are coming from a distant source, so they are all parallel.
They remain parallel until they enter the star's gravity well, then they bend inward.
 

Attachments

  • lensing2.jpg
    lensing2.jpg
    79 KB · Views: 440
Scratch that, now I see what your saying, your first pic shows it, their graphic (that I posted) is what threw me, yours is a better visual showing more light paths, thanks!
 

Thread 'I don't see how a black hole's event horizon can be crossed'

OK, so this has bugged me for a while about the equivalence principle and the black hole information paradox. If black holes "evaporate" via Hawking radiation, then they cannot exist forever. So, from my external perspective, watching the person fall in, they slow down, freeze, and redshift to "nothing," but never cross the event horizon. Does the equivalence principle say my perspective is valid? If it does, is it possible that that person really never crossed the event horizon? The...
View full post »

Thread 'Synchronizing clocks in an inertial frame if light is anisotropic'

ASSUMPTIONS 1. Two identical clocks A and B in the same inertial frame are stationary relative to each other a fixed distance L apart. Time passes at the same rate for both. 2. Both clocks are able to send/receive light signals and to write/read the send/receive times into signals. 3. The speed of light is anisotropic. METHOD 1. At time t[A1] and time t[B1], clock A sends a light signal to clock B. The clock B time is unknown to A. 2. Clock B receives the signal from A at time t[B2] and...
View full post »

Thread 'Question about Parallel Transport'

In this video I can see a person walking around lines of curvature on a sphere with an arrow strapped to his waist. His task is to keep the arrow pointed in the same direction How does he do this ? Does he use a reference point like the stars? (that only move very slowly) If that is how he keeps the arrow pointing in the same direction, is that equivalent to saying that he orients the arrow wrt the 3d space that the sphere is embedded in? So ,although one refers to intrinsic curvature...
View full post »

Similar threads

B Proposed Experiment - Speed of Light
Replies
30
Views
3K
B Theories about light and time near a black hole
Replies
20
Views
2K
I Bending of light - caused by gravity or relativity?
Replies
10
Views
2K
I Does light bend around black holes?
Replies
49
Views
5K
B If light beam travels through a vacuum, then through diamond, then through more vacuum...
Replies
15
Views
2K
I Why do objects follow a geodesic?
Replies
7
Views
2K
B Spacetime curvature due to acceleration causing gravity?
Replies
41
Views
5K
I Black Hole Waterfall Analogy & Light Speed
Replies
15
Views
2K
I Time & Gravity in Rotating Faster Than Light?
Replies
8
Views
2K
I Is Measuring the One-Way Speed of Light Possible Near a Black Hole?
Replies
10
Views
1K

Hot Threads

Recent Insights

Back
Top