Is There a Third Force in General Relativity?

YangMills
Messages
14
Reaction score
0

Homework Statement



I was researching relativity, and stumbled across this:

"General relativity introduces a third force that attracts the particle slightly more strongly than Newtonian gravity, especially at small radii. This third force causes the particle's elliptical orbit to precess..."

Is this accurate? If so, how does it work?
 
Physics news on Phys.org
it introduces a correction term to the Newtonian calculation which I guess you could view as a "third force" and this is responsible for the precession of the perihelion of Mercury etc.
 
Now I'm kind of curious what the first two 'forces' are. Doing gravitation in GR doesn't even usually involve talking about 'forces' except in a perturbative sense. It's all geodesics, isn't it?
 
Yes, that is exactly what perplexes me. In the context of general relativity, gravity is not a force, in the same way that there is no centrifugal force: it is a consequence of the coordinate system. Of course, this quote was from Wikipedia, but I've been following it for quite some time and have not seen it amended.
 
It's probably what latentcorpse said. You can cast the GR solution as a 'correcting' force to the force of gravity. But even in Newtonian theory, there's only one 'force', that's gravity. Centrifugal 'force' is not a force, it's an acceleration. I think you understand the issue. Probably best not to be overly concerned with what Wikipedia says.
 
I am not sure where the quote is coming from, but the effective potential of an object orbiting a point source in GR does have three terms. Differentiate and you get a total force with three contributions:

1. Inverse square (Newtonian gravity)
2. Inverse cube (Centrifugal force)
3. Inverse fourth power (GR "correction")

The thread has implied it, but I think this is where the talk of a "third" force is coming from. The first two produce the standard elliptical orbit and the third is a kind of perturbation causing precession. This is a poor-man's way to calculate the precession of Mercury, etc.
 
dulrich said:
3. Inverse fourth power (GR "correction")

Ah. That explains the dominance of GR at small radii.
 

Similar threads

What does G mean in general relativity?
2
Replies
55
Views
5K
Generalized force and the Lagrangian
Replies
3
Views
1K
I Is this derivation of MOND from General Relativity plausible?
Replies
1
Views
3K
I Earth's orbit not perfect ellipse
Replies
19
Views
2K
I Beginner's Guide to GR: Questions & Answers
Replies
13
Views
2K
B First Experimental Confirmation of GR
Replies
8
Views
2K
Why Does the Gödel Universe Rotate?
Replies
1
Views
2K
A A Question on the TOV Limit: Continuous Forces vs. a Discrete Trigger
Replies
10
Views
611
I Orbital Simulator with general relativity
Replies
18
Views
3K
I Forces and gravitational time dilation
Replies
11
Views
2K

Hot Threads

Recent Insights

Back
Top