Why are Photons affected by gravity?

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Photons are affected by gravity due to the curvature of spacetime caused by massive objects, despite having no rest mass. While only mass-bearing objects can cause spacetime to warp, photons travel through this curved spacetime, resulting in their paths being altered. The concept of a photon is rooted in quantum theory, while its gravitational effects relate to general relativity, which lacks a unified framework for both theories. Additionally, photons, while massless, do influence spacetime curvature due to their energy and momentum. Thus, they do not possess mass in the traditional sense but still interact with gravity.
Commander8bal
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Hi there,

I was wondering if anyone could tell me why a photon is affected by gravity? From my current understanding of gravity, only objects with mass are able interact with the warping of space time. Why then, would a photon or any other massless particles have there vectors be deviated by other objects around them?

Thanks for your time in feeding my hungry mind.
 
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I think your current understanding of gravity needs to be revised. As lacking as my knowledge of general relativity is, I can nonetheless tell you that what your statement should have said was:

"...only objects with mass are able to *cause* the warping of spacetime"

The warping of spacetime, however, affects anything that travels through it, including photons. Photons in the vicinity of some object that *does* have mass and *is* warping spacetime will travel on curved paths simply by virtue of the fact that the region of spacetime in which they are traveling is curved.
 
Because photons only have zero rest mass. But since they are never at rest, they do have mass.

Very strictly speaking, "photon" is a term from quantum theory, while the "gravitational mass of an electromagnetic field" is an idea from General relativity, and there is as yet no framework which incorporates both theories properly. So perhaps I should say that the electromagnetic field has a non-zero stress-energy tensor which enters into the Einstein field equation of General Relativity. However, lax language about the mass of a photon is traditional in physics:

Apparent Weight of Photons
R. V. Pound and G. A. Rebka
Phys. Rev. Lett. 4, 337 (1960)
http://prl.aps.org/50years/milestones
http://focus.aps.org/story/v16/st1

See also Count Iblis's post #48 at:
https://www.physicsforums.com/showthread.php?t=251161
 
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Thanks for the clarification on gravitational interaction of particles. Just one more question though, do Photons having mass or being massless give off gravity themselves?
 
Commander8bal said:
Thanks for the clarification on gravitational interaction of particles. Just one more question though, do Photons having mass or being massless give off gravity themselves?

Yes, a photon is affected by the curvature of space, and also causes space to be curved.
 
time passes more slowly in a gravitational field. a light wave passing through will slow down. the light refracts exactly as it does when passing through any material, like glass, which causes light to slow down.

thats my understanding of it anyway.
 

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