Bartosz Lew wrote:
On Tue, 24 Feb 2004, Jarek Rzepecki wrote:
On Tue, 24 Feb 2004, Bartosz Lew wrote:
The correct answer is: Nothing happened to that energy.
That is not the correct answer. A single photon loses its energy.
It's still there (unless photons gets older or other crap like that), the only thing that changed is that we no longer see hot photons because, as we've been tought in high school, we're floating away from everything else according to the hubble law. (So the answer is essentialy in the question ;) The "doppler effect" which can easily be derived from SR transformaiton formulas causes that we see everythig red.
SR do not apply to cosmology in this case as I believe.
The only difference from the situation described above with observers looking at identical photons (and yet seeing them in different colors) and complication I see here is that it is not possible to find a recerence frame in which we will see the whole CMB photons at different temperature - color etc. This is of course because it's the space that expands and there is nothing we can do about it, so changing reference frame won't help in understanding that it is just our obserwational effect not a true energy theft by some more less unidentified process. But still I belive that this reddening can be ballanced once when Universe start to collapse.
well, your question, as I understood it, was about what's with the energy that seems to be missing because of the redshift. So I disagree. The cosmological redshift isn't caused by gravitational effects - i.e. gravitational reddening, but by combined effect of time dilatation and lenght change which comes from transformation from one reference frame to another - and together we call it "a doppler effect".
O really? I always thought calling photon reddening a "doppler effect" is the most naive one. A agree it comes from the transformation..... but it is far more complicated.
If fact the problem as I see it is: photon field energy + energy of the gravitational field is conserved (when only those 2 fields are present). Have you never solved Friedmann's equations? Come back to the source, to the lagrangian density for the tensor grav. theory (Riemann tensors etc.) - I believe a conservation rule can be obtained at this level. As I remember the energy of the photon field (as well as any other form of the energy) is (depending on its equation of state) transfered between the grav. field and this particular field.
Why do you think photon field is trying to slow down the expansion??? Because of this interaction.
My answer is: do not treat photons as separate objects for the photon field is not an isolated system - the photon field interacts with the grav. field. If GR does not give you the answer - that would be a problem.
Sahs Wolfe effect is a minor one here, and fully understood in terms of GR predisitons.
However I do realise that my explanation is a bit outstretched, because SR do not allow space to change in time, or at least doesn't say anything about that.
Forget about SR in cosmology!!!!!!!!!!!!!!!!!!!
But on the other hand a single photon, or any other particle (eg. proton, neutrino) can't (or can ? - I think not :) feel it travels trough space that is actually expanding.
have you attended prof Rudak's lectures on cosmology?
If it did, we all would grow in time, atoms would have become greater etc. So eventually it makes no difference weather space is expandind or observer is receeding, except the problem I said before >>
we do not grow in time because subatomic, atomic (electromagnetic) and even gravitational interaction on small scales are MUCH STRONGER than the effect of space expansion.
GR is not a "perfect" and "final" theory. But for sure all the modern cosmology (Friedmann's cosmology) is based on it. Search for the answer in GR.
regards - michal