What is the speed of light in gravity?

In summary, the speed of light is reduced in a gravitational field. This causes a light beam to be bent towards an object.
  • #1
Zman
96
0
“It is a well proven fact, that the speed of light is reduced in a gravitational field. As a consequence, a light beam, which passes a big object, is bent towards the object.”

I read the above quote on the internet but I am not sure if it is a well proven fact that c is reduced in a gravitational field.

What is the accepted wisdom in physics on this issue?
 
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  • #2
It depends on what one means by "the speed of light".

All observers who measures the speed of a photon that whizzes by in their local (vacuum) neighbourhoods, near or far from large masses and even inside black holes, get the same result c.
 
  • #3
Zman said:
“It is a well proven fact, that the speed of light is reduced in a gravitational field. As a consequence, a light beam, which passes a big object, is bent towards the object.”

I read the above quote on the internet but I am not sure if it is a well proven fact that c is reduced in a gravitational field.

Near a big mass the speed of light is reduced when measured by a distant clock. Measured locally it is still c due to gravitational time dialtion:
http://en.wikipedia.org/wiki/Gravitational_time_dilation

The same happens in accelerated frames of reference;
http://en.wikipedia.org/wiki/Propagation_of_light_in_non-inertial_reference_frames
 
  • #4
George Jones said:
It depends on what one means by "the speed of light".

Is there an interpretation where the "speed of light" in a gravitational field can be said to vary.

All observers measure the speed of light to be c locally but can the speed of light be inferred as having altered at some remote gravitational potential?
 
  • #5
Zman said:
Is there an interpretation where the "speed of light" in a gravitational field can be said to vary.
From http://en.wikipedia.org/wiki/Propagation_of_light_in_non-inertial_reference_frames:
In non-inertial frames the local speed of light is also c, but the average speed of light measured over a finite distance may differ from c.
 
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  • #6
Is there an interpretation where the "speed of light" in a gravitational field can be said to vary.
You can work in a weak-field approximation with a flat background, and treat gravitation as a perturbation. You then get g11/g00 (coordinate dx / coordinate dt) different from 1. Interpreting this as a different speed of light, you can calculate e.g. light deflection like you do in an optics problem. That's exactly what Einstein did in his original paper on GR.
 

1. What is the speed of light in gravity?

The speed of light in gravity is the same as the speed of light in a vacuum, which is approximately 299,792,458 meters per second.

2. How does gravity affect the speed of light?

Gravity does not affect the speed of light. The speed of light is constant and does not change regardless of the presence of gravity.

3. Why is the speed of light considered the universal speed limit?

The speed of light is considered the universal speed limit because it is the maximum speed at which all forms of energy and information can travel. Nothing can move faster than the speed of light.

4. Is the speed of light in gravity the same in all directions?

Yes, the speed of light in gravity is constant in all directions. It does not change depending on the direction of its travel.

5. How is the speed of light in gravity measured?

The speed of light in gravity is measured using various methods and experiments, including measuring the time it takes for light to travel a known distance or using the frequency and wavelength of light to calculate its speed.

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