billfitz24 t1_ixlp20a wrote
Reply to comment by firsttimesissybris in Lopsided star cluster may disprove Newton and Einstein, controversial new study claims. An uneven distribution of stars in several nearby clusters may offer evidence of MOND — a controversial theory of gravity that disputes Newton and rejects the existence of dark matter. by nimobo
I can’t agree with much of what you’ve written here. Newtonian is fine for 99% of what we experience in our daily lives. Einstein is mostly needed when relative velocities are very high. MOND is thought to apply only on galactic and larger objects.
To say that GR changes the Newtonian numbers by only a small amount is simply not true at high velocities. With time & length dilation the difference in numbers can be quite large.
I don’t see how MOND can make Einstein wrong, since it’s trying to be an explanation of gravity on truly massive objects, and I’m not aware that relative velocities are even a consideration.
Saying that MOND must modify GR and in doing so must introduce new particles is not something I’ve ever read when MOND is being discussed.
I could be completely wrong, but it seems to me you’re presenting several false arguments in your dismissal of MOND.
firsttimesissybris t1_ixlr5ve wrote
>I can’t agree with much of what you’ve written here. Newtonian is fine for 99% of what we experience in our daily lives. Einstein is mostly needed when relative velocities are very high. MOND is thought to apply only on galactic and larger objects.
That is exactly what I said, so yes we don't disagree on that. My point is, that Einstein's modifications are very small in most parts of the universe due to the fact relative velocities and curvature are often quite small when considering massive objects, bar compact objects like BH or neutron stars. However, MOND corrections don't disappear in most parts of the universe.
>To say that GR changes the Newtonian numbers by only a small amount is simply not true at high velocities. With time & length dilation the difference in numbers can be quite large.
True, but as I've said, high velocities and large curvatures are rare. Most galactic simulations completely ignore GR as it is a massive complexity just to account for very small corrections.
>I don’t see how MOND can make Einstein wrong, since it’s trying to be an explanation of gravity on truly massive objects, and I’m not aware that relative velocities are even a consideration.
MOND absolutely must supplant GR if it is to be correct, as GR makes predictions that have to be also made by any replacement to it, and that aren't included in MOND (lensing, blackholes, anything relativistic). I'm not sure what you mean by relative velocities aren't a consideration.
>Saying that MOND must modify GR and in doing so must introduce new particles is not something I’ve ever read when MOND is being discussed.
If you can find a relativistic modified Newtonian Dynamics type theory that includes GR as a limit (this is a requirement as GR is able to predict all strong gravity phenomena we've seen), and doesnt introduce new dynamical fields, then I'll retract my statement. I'm not aware of any such theories, and it is a very common criticism of MOND type theories. The first such rel version seems to be TeVeS, which introduces two new dynamical fields. QFT implies these will almost certainly be quantised, and either quanta will be new particles. Even if QFT is wrong in this, it's introduced two new fields, which is at least as ad-hoc as introducing dark matter.
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