- #1
wolram
Gold Member
Dearly Missed
- 4,446
- 558
it has been reported that the speed of gravity = c does this mean that an object traveling at c would not feel the efects of gravity?
ttayeg
ttayeg
Last edited by a moderator:
Speed of Gravity = c: Does Traveling at C Affect Gravity?
In summary, scientists have not been able to measure the speed of gravity with 100% accuracy, but they believe it to be somewhere around the speed of light. This means that an object traveling at that speed would not feel the effects of gravity. However, if an object were to pass through a relatively "flat" area of space-time and, after it had passed, a massive object (such as a planet) suddenly materialized in that space, the gravity from that planet would (theoretically) never effect that photon.
- #2
russ_watters
Mentor
- 23,159
- 10,364
Well... since an object can't travel at C, its kinda a pointless question. LIGHT however, travels at C and is affected by gravity (or rather the curvature of space that gravity creates).
- #3
LURCH
Science Advisor
- 2,558
- 118
Right, the path of a photon is affected when it travels through an area of space-time that has already been curved by gravity.
However, if a photon were to pass through a relatively "flat" area of space-time and, after it had passed, a massive object (such as a planet) suddenly materialized in that space, the gravity from that planet would (theoretically) never effect that photon. The sudden appearance of the planet would send a huge gravity wave out in all directions, this wave would propagate at lightspeed, and never "catch up" to anything traveling at lightspeed the had already passed.
However, if a photon were to pass through a relatively "flat" area of space-time and, after it had passed, a massive object (such as a planet) suddenly materialized in that space, the gravity from that planet would (theoretically) never effect that photon. The sudden appearance of the planet would send a huge gravity wave out in all directions, this wave would propagate at lightspeed, and never "catch up" to anything traveling at lightspeed the had already passed.
- #4
drag
Science Advisor
- 1,105
- 1
Greetings !
I believe the current proven possible range
was reported to be something like 0.8 - 1.05 c.
(This could be outdated or slightly inaccurate info.)
More accurate tests are still required to
make sure that reality "follows" the laws of theory.
As for the question - since no particle with rest
mass can reach c, it is somewhat pointless to ask
"What if... ?" about this.
Live long and prosper.
Last edited:
- #5
kyle_soule
- 240
- 1
Wouldn't it make sense that gravity would also travel at the speed of light, as it seems more then unlikely it would travel at 1.05c, and as you stated, it has zero rest mass. Those figures seem to ring a bell of a recent experiment done by Sergei Kopeikin in which they, supposedly, measured the speed of gravity by measuring how much "wobble" was in Quasar JO842+1835 as it passed by Jupiter. Upon review by peers, it was reported they simply found a new way to measure light, not actually the speed at which gravity affects space.
Some would have also said it was pointless to ask "What if...there was no ether."
If nobody asks, then nobody learns!
Last edited:
1. What is the speed of gravity?
The speed of gravity is the speed at which gravitational force is propagated through space. It is believed to be equal to the speed of light, c.
2. Does traveling at the speed of light affect gravity?
According to Einstein's theory of relativity, the speed of light is the maximum speed at which any object or information can travel. Therefore, traveling at the speed of light would not affect gravity as it is already the maximum speed at which gravitational force can be propagated.
3. How does the speed of gravity compare to the speed of light?
As mentioned before, the speed of gravity is believed to be equal to the speed of light, c. This means that both light and gravitational force travel at the same speed through space.
4. Can the speed of gravity be measured?
Yes, the speed of gravity can be indirectly measured through various experiments and observations. However, it is very difficult to directly measure the speed of gravity due to its extremely high value and the limitations of current technology.
5. Does the speed of gravity change based on the mass of the objects involved?
According to Einstein's theory of general relativity, the speed of gravity does not depend on the mass of the objects involved. However, the strength of gravitational force is affected by the mass of the objects, as more massive objects have a stronger gravitational pull.
Similar threads
-
Astronomy and Astrophysics
-
Astronomy and Astrophysics
-
Astronomy and Astrophysics
-
Astronomy and Astrophysics
-
Astronomy and Astrophysics
Stargazing
Receding Galaxies and the Range of Gravity
-
Astronomy and Astrophysics
-
Astronomy and Astrophysics
-
Special and General Relativity
-
Astronomy and Astrophysics