geordief Posted March 20, 2023 Posted March 20, 2023 Does the Earth generate gravitational waves as a result of all the em attractions/repulsions within it? Are the atoms in constant accelerated motion and does that cause gravitational waves in the same way as em radiation is caused? I have been thinking about what happens when 2 objects come close to each other and their motion is changed by ,eg electric repulsion. It seemed to me that there might also(in addition to the em wave) be a gravitational wave as a result of the acceleration.
joigus Posted March 20, 2023 Posted March 20, 2023 No. Gravitational waves any sizeable would only be produced by extremely violent astrophysical processes, like BH collisions or the Big Bang. There is something called gravitomagnetism in which gravitational waves are included, but also includes other gravitomagnetic phenomena, like frame dragging. Maybe that's what you have in mind.
geordief Posted March 20, 2023 Author Posted March 20, 2023 10 minutes ago, joigus said: No. Gravitational waves any sizeable would only be produced by extremely violent astrophysical processes, like BH collisions or the Big Bang. There is something called gravitomagnetism in which gravitational waves are included, but also includes other gravitomagnetic phenomena, like frame dragging. Maybe that's what you have in mind. No(now I am just imagining this) I thought perhaps that the huge number of tiny accelerations within the Earth ,and over the length of time the Earth has existed might perhaps add up to some overall effect.
zapatos Posted March 20, 2023 Posted March 20, 2023 (edited) 34 minutes ago, joigus said: No. Gravitational waves any sizeable would only be produced by extremely violent astrophysical processes, like BH collisions or the Big Bang. Is there some threshold above which gravitational waves will be created? Or do small objects, say a couple of asteroids colliding, create gravitational waves that are just too minuscule to measure? Edited March 20, 2023 by zapatos
joigus Posted March 20, 2023 Posted March 20, 2023 34 minutes ago, zapatos said: Is there some threshold above which gravitational waves will be created? Or do small objects, say a couple of asteroids colliding, create gravitational waves that are just too minuscule to measure? They would be there, but be too minuscule to measure. That's one of the reasons why LIGO was such a challenge. 1
swansont Posted March 20, 2023 Posted March 20, 2023 No threshold (unless there is one from quantum gravity), but smaller masses and accelerations would give smaller amplitudes, and gravitational radiation requires a change in the quadrupole moment - not all accelerations will result in radiation 1
geordief Posted March 20, 2023 Author Posted March 20, 2023 1 hour ago, swansont said: not all accelerations will result in radiation Do they have any gravitational effect at all? I thought acceleration and gravity were more or less the same thing.
Genady Posted March 20, 2023 Posted March 20, 2023 9 minutes ago, geordief said: I thought acceleration and gravity were more or less the same thing. But they are not the same. Gravity is spacetime curvature. Acceleration is not.
geordief Posted March 20, 2023 Author Posted March 20, 2023 (edited) 22 minutes ago, Genady said: But they are not the same. Gravity is spacetime curvature. Acceleration is not. Does acceleration cause spacetime curvature?(it seems to cause gravitational radiation and doesn't the equivalence theory say that scceleration is indistinguishable from gravity except for tidal forces?) Edited March 20, 2023 by geordief
Genady Posted March 20, 2023 Posted March 20, 2023 1 minute ago, geordief said: Does acceleration cause spacetime curvature? Acceleration of an observer or of a frame of reference does not cause spacetime curvature. 5 minutes ago, geordief said: except for tidal forces Tidal forces are manifestation of curvature.
geordief Posted March 20, 2023 Author Posted March 20, 2023 (edited) 4 minutes ago, Genady said: Acceleration of an observer or of a frame of reference does not cause spacetime curvature. Well spacetime curvature is just a model isn't it?Can't an accelerated frame of reference show spacetime as curved also? (Stop me if I am talking rubbish -I normally am) Edited March 20, 2023 by geordief
Genady Posted March 20, 2023 Posted March 20, 2023 Just now, geordief said: Can't an accelerated frame of reference of reference show spacetime as curved also? It cannot.
geordief Posted March 20, 2023 Author Posted March 20, 2023 Just now, Genady said: It cannot. Thanks.
joigus Posted March 20, 2023 Posted March 20, 2023 27 minutes ago, geordief said: Can't an accelerated frame of reference show spacetime as curved also? Curvature is frame-independent. If there is curvature in one frame, there is curvature in every frame. By going to a reference frame that compensates for that acceleration, you would go back to an inertial frame. 1
geordief Posted March 20, 2023 Author Posted March 20, 2023 2 minutes ago, joigus said: Curvature is frame-independent. If there is curvature in one frame, there is curvature in every frame. By going to a reference frame that compensates for that acceleration, you would go back to an inertial frame. Thanks again.
swansont Posted March 20, 2023 Posted March 20, 2023 2 hours ago, geordief said: Do they have any gravitational effect at all? I thought acceleration and gravity were more or less the same thing. We’re talking about the emission of gravitational waves, not the equivalence principle I think it wouldn’t matter how the acceleration came about, but you need the gravitational field in place in order to perturb it to emit the waves.
geordief Posted March 20, 2023 Author Posted March 20, 2023 35 minutes ago, swansont said: We’re talking about the emission of gravitational waves, not the equivalence principle Does "Einstein's sealed room" cause gravitational waves if the acceleration is strong enough? I had thought all acceleration produced gravitational radiation but you said a while back in this thread this was not the case and a "change in the quadrupole moment was required" Could you explain a little further about that? (or would it be easyish for me to look that up on google?)
swansont Posted March 20, 2023 Posted March 20, 2023 A spherical mass ( i.e. a monopole) rotating or undergoing an acceleration in some direction will not emit gravitational waves. The quadropole moment measures how much a sphere is flattened https://van.physics.illinois.edu/ask/listing/204
geordief Posted March 20, 2023 Author Posted March 20, 2023 1 minute ago, swansont said: A spherical mass ( i.e. a monopole) rotating or undergoing an acceleration in some direction will not emit gravitational waves. The quadropole moment measures how much a sphere is flattened https://van.physics.illinois.edu/ask/listing/204 So ,if there are very small accelerations in a system which do not produce gravitational waves do they have any gravitational effect at all ? I understand that in the frame of the accelerated objects acceleration is indistinguishable from gravity - but (as per @joigus) this is not a frame independent effect. So can I take it that there are no gravity related effects from any accelerated motion,specifically that there is no effect on the gravity field?
Genady Posted March 20, 2023 Posted March 20, 2023 10 minutes ago, geordief said: in the frame of the accelerated objects acceleration is indistinguishable from gravity This is incorrect. No tidal forces - no gravity. And vice versa.
geordief Posted March 20, 2023 Author Posted March 20, 2023 (edited) 12 minutes ago, Genady said: This is incorrect. No tidal forces - no gravity. And vice versa. That is true (apologies ) Is gravity a synonym for spacetime curvature? Suppose a system was accelerated at one point rather than uniformly ,would that create tidal forces? Suppose Einstein's sealed box was accelerated at the one point would that cause the box to break up in the same way as tidal forces would break it up or strain it? Edited March 20, 2023 by geordief
Genady Posted March 20, 2023 Posted March 20, 2023 13 minutes ago, geordief said: That is true (apologies ) Is gravity a synonym for spacetime curvature? Suppose a system was accelerated at one point rather than uniformly ,would that create tidal forces? Suppose Einstein's sealed box was accelerated at the one point would that cause the box to break up in the same way as tidal forces would break it up or strain it? Gravity is synonym of spacetime being curved. No matter how creatively system moves, it will not curve spacetime and will not simulate gravitational tidal forces.
geordief Posted March 20, 2023 Author Posted March 20, 2023 1 minute ago, Genady said: Gravity is synonym of spacetime being curved. No matter how creatively system moves, it will not curve spacetime and will not simulate gravitational tidal forces. Why is it called the equivalence principle if gravity and acceleration are not equivalent? Is there some other equivalence ,or some aspect of the relationship btw the two phenomena that is being referred to? Is it possibly the equivalence btw the acceleration caused by gravity and the inertia involved in accelerating mass?
Genady Posted March 21, 2023 Posted March 21, 2023 8 minutes ago, geordief said: Why is it called the equivalence principle if gravity and acceleration are not equivalent? Is there some other equivalence ,or some aspect of the relationship btw the two phenomena that is being referred to? Is it possibly the equivalence btw the acceleration caused by gravity and the inertia involved in accelerating mass? Gravity and acceleration are indistinguishable in a system which is infinitesimally small in space and time.
geordief Posted March 21, 2023 Author Posted March 21, 2023 (edited) 15 minutes ago, Genady said: Gravity and acceleration are indistinguishable in a system which is infinitesimally small in space and time. Perhaps irrelevant but did Einstein state this or did he perhaps just state that they were indistinguishable with the qualification coming some time later? (I have heard that General Relativity has advanced a lot since his time ,even as his predictions still to this day keep getting shown to be correct as in gravity wave detection and hopefully gravitons one day) Edited March 21, 2023 by geordief
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