Page 3 of 3

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Sun Apr 10, 2022 11:52 pm
by alter-ego
johnnydeep wrote: Sun Apr 10, 2022 2:44 pm
Ann wrote: Sun Apr 10, 2022 9:28 am Maybe I get a little bit of what you are saying, alter-ego.

If I get you correctly, the reason why the redshift increases so enormously the closer we get to the Big Bang is that the Universe underwent this incredible exponential growth spurt called inflation, and when that epoch was over the Universe was "braking hard". Instead of increasing exponentially in size "indefinitely" (wonder what that would have led to?) the Universe settled down, expanding very moderately.

During the epoch of inflation (and, in fact, during the epoch of "braking hard" after the inflation), the redshift changed dramatically, simply because of how much the actual growth of the Universe changed in a short time.

We are now in an epoch of acceleration. However, the acceleration has not "picked up speed" yet, and it has not yet affected the size of the Universe very much. Therefore, we are located in a "redshift valley", where the redshift stays relatively constant over billions of light-years.

Is that correct?

Ann
I'm still trying to digest alter-ego's posts - which are giving me heartburn :-) - but inflation happened long before the universe became transparent to radiation (at about 380000 years). From Wikipedia:
https://en.wikipedia.org/wiki/Big_Bang#Inflation_and_baryogenesis wrote:Inflation stopped at around the 10−33 to 10−32 seconds mark, with the universe's volume having increased by a factor of at least 1078.
And a little later:
As the universe cooled, the rest energy density of matter came to gravitationally dominate that of the photon radiation. After about 379,000 years, the electrons and nuclei combined into atoms (mostly hydrogen), which were able to emit radiation. This relic radiation, which continued through space largely unimpeded, is known as the cosmic microwave background.[36]
I would think that T=0 for all redshift calculations starts at the "recombination" mark at 379000 years. Or I supposed it would actually be at the "decoupling" mark "shortly afterward". Again from Wikipedia:
https://en.wikipedia.org/wiki/Cosmic_microwave_background wrote:Cosmologists refer to the time period when neutral atoms first formed as the recombination epoch, and the event shortly afterwards when photons started to travel freely through space is referred to as photon decoupling. The photons that existed at the time of photon decoupling have been propagating ever since, though growing less energetic, since the expansion of space causes their wavelength to increase over time (and wavelength is inversely proportional to energy according to Planck's relation). This is the source of the alternative term relic radiation. The surface of last scattering refers to the set of points in space at the right distance from us so that we are now receiving photons originally emitted from those points at the time of photon decoupling.
Hi Ann,
• Yes, the nature of the Big Bang means expansion was very fast at the start because the Universe started from an unknown, but very
small size.
• Moving forward to when acceleration started, our local spacetime neighborhood (z ~ 0) was in the middle the valley about 6 Gyr ago. So yes, given
the lengthy stay in that valley, I'd agree with you that we are certainly early in the acceleration phase. Keep in mind even though were just
beginning to "pick up speed", cosmic expansion is already at quite a clip. We already have a limiting event horizon ≈ 16 Glyr (i.e. light leaving a z = 1.75 star today will never reach us) Fortunately, the present ΛCDM model predicts the Hubble Constant will not increase, the so-called Big Rip should not happen, but the Big Freeze is currently the likely outcome. If so, someday in the far future, the view of that universe may only be the gravitationally bound galaxies within our local group.

Johnny,
• My apologies for contributing to your heartburn :D. I would think a headache is more likely.
T = 0 is the BB for all practical purposes. Friedman equations are a currently a key part of the ΛCDM model and apply when the Universe was millennia old. They yield cosmic energy density evolution from Radiation (t = 1000 yrs) to Mass to Vacuum energy (t = indefinite future)
 
The bottom x-axis shows the redshift range modelled (Note: Subract 1 for actual redshifts), the top axis shows the time from the BB.
For z = 0, time = to = NOW = 13.7 Gyr. For z ≈ 100,000, time ≈ 1000 yrs!
When Mass begins to dominate over Radiation: teq ≈ 100,000 yrs, z ≈ 3200,
Onset of transparency within the Universe: trec ≈ 380,000 yrs, z ≈ 1100
 
30 Gyr of Cosmic Evolution.JPG
 
Out of the many graphics, here's one that has details associated with the expansion:
 
Cosmic Expansion_Astronomy.com.JPG

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Sun Apr 10, 2022 11:54 pm
by alter-ego
MarkBour wrote: Sun Apr 10, 2022 10:29 pm First, let me say that I appreciate these answers, from Chris and alter-ego. Also, the further comments that Ann and johnnydeep have added.

An easy response to my post would have been something like: "No, you just need to take one or more courses that cover this, then you'd get it. Until then, just keep your uneducated views to yourself." I'm grateful that this is not what I got, but that you took the time to read it, consider, and respond.
Chris Peterson wrote: Fri Apr 08, 2022 9:06 pm
MarkBour wrote: Fri Apr 08, 2022 4:39 pm I think I'm questioning how rational the current interpretation of high-redshift data is.
Very rational. It hangs on all of the underlying theory of the lambda-CDM model, which is itself very well supported by multiple independent lines of evidence.
. . .
Great. I'd love nothing better than to learn more about the ΛCDM model and how, from the sequence of observations and thought, this model came to be the dominant accepted theory. Watching YouTube videos by physics popularizers hasn't gotten me anywhere in this regard. I've also read a few books, aimed at the layman, that got into these topics, and have just found myself repeating over and over again: "Why do you think that?"

More helpfully, I just read the Wikipedia article on ΛCDM. A lot of it is very concise and large chunks of it are just beyond my ability to understand without further study. It does give an opening summary of the main points as to why the ΛCDM is the currently most-accepted model, so those are topics I probably should try to follow further. The article does seem to be very balanced, though. There are quite a number of objections and difficulties mentioned throughout. And, as if to support my skepticism, there is this one small section nearly at the end, that summarizes my gut-level concern about it:
Excerpt from: https://en.wikipedia.org/wiki/Lambda-CDM_model
Unfalsifiability
It has been argued that the ΛCDM model is built upon a foundation of conventionalist stratagems, rendering it unfalsifiable in the sense defined by Karl Popper.[77]
----------------------------------
Ann wrote: Sat Apr 09, 2022 4:21 am
alter-ego wrote: Sat Apr 09, 2022 2:48 am
Yes, I can answer that. You've picked an interesting redshift example. Viewing z = 7 (now) won't change much over 7 Gyr. The cosmic acceleration causes redshift minima to occur at different times, i.e. minima times are dependent on z. Several years ago, I had a sudden interest in redshift evolution over time for a fixed observer (e.g. the milky way). It culminated in the plot below. I find it very interesting as it reveals characteristics I wasn't expecting. I won't elaborate any further now, and although I can calculate your specific example, I interpolated between the closest two curves for this post.

Assuming you're adding 7 Gyr to present time, the answer is still close to 7. Note, dz/dt depends on when the first observation is made.
The two vertical lines mark now (13.72 Gyr) and +7Gyr (20.72 Gyr). The big arrows point to the two redshifts.
These calculations assume a flat spacetime. Also note, the evolution of the CMB redshift is plotted. It is the first electromagnetic radiation to fill the Universe. It was emitted roughly 380,000 years after the Big Bang, and therefore it's redshift (z ≈1100) cannot be exceeded by any visible object.
I'm expecting Webb to make discoveries pertinent to the onset and duration of the Dark Ages. I think the current thought is the first stars formed around 100 Myr after the BB (z~30)
 
(image not replotted)
...
Alter-ego, I wish you could sit down with me and give me the sort of information about your chart that a math idiot's brain can process.
...
Ann
Right on, Ann! Please let me attend that session, too ...

As I look at that diagram, if I understand it at all, I find two things that are amazing.
  1. One is your statement, alter-ego, indicated by the arrows:
    An object we can observe today, with z=7, we would still be able to see 7 billion years from now, if it didn't stop emitting, and it would still have z=7. (!)
  2. If we found an object right now showing at z=600, that object's z-shift is predicted to be diminishing rapidly at this time, and will bottom out way, way down at about z=8, before rising again. (!)
    *** Not correct. An object seen at z = 600 today will drop to z = 50 in another 16 Gyr ***
Thanks, Mark, for responding to Ann's request for information. You've read the plot correctly for all practical purposes.
→ Ann, sorry for letting your request fall off the back burner.
By the way, I do expect the cosmic model to change in detail, but I don't believe there'll be a significantly change in the results of my plot. I think the biggest uncertainty is in the high-redshift ranges starting with the Dark Ages and earlier. It is curious that without knowing what Dark Energy is per se, that Einstein's Λ describes the right observed trend (so far). We'll see how the Hubble Tension plays out. (WRT the below article, I don't believe that cosmic expansion has anything to do with Modified Newtonian Dynamics)

Edit: Mark, see my annotation above (inside your post) correcting your second point
Hubble's Law wrote: Hubble tension
Multiple methods have been used to determine the Hubble constant. "Late universe" measurements using calibrated distance ladder techniques have converged on a value of approximately 73 km/s/Mpc. Since 2000, "early universe" techniques based on measurements of the cosmic microwave background have become available, and these agree on a value near 67.7 km/s/Mpc. (This is accounting for the change in the expansion rate since the early universe, so is comparable to the first number.) As techniques have improved, the estimated measurement uncertainties have shrunk, but the range of measured values has not, to the point that the disagreement is now highly statistically significant. This discrepancy is called the Hubble tension.

In December 2021, National Geographic reported that the cause of the Hubble tension discrepancy is not known. However, if the cosmological principle fails (see the section Violations of the cosmological principle in the Lambda-CDM model), then the existing interpretations of the Hubble constant and the Hubble tension have to be revised, which might resolve the Hubble tension.

One possibility is that the Hubble tension is caused by the KBC void, as measuring galactic supernovae inside a void is predicted by some authors to yield a larger local value for the Hubble constant than cosmological measures of the Hubble constant. However, other work has found no evidence for this in observations, finding the scale of the claimed underdensity to be incompatible with observations which extend beyond its radius. Important deficiencies were subsequently pointed out in this analysis, leaving open the possibility that the Hubble tension is indeed caused by outflow from the KBC void.

Another possibility is that the Hubble tension calls for new physics beyond the ΛCDM model. Moritz Haslbauer and collaborators have proposed Modified Newtonian Dynamics as a possible solution to the Hubble tension, while Marc Kamionkowski and collaborators have proposed an early dark energy model as a possible solution to the Hubble tension.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Fri Apr 15, 2022 8:26 pm
by MarkBour
Thanks again, alter ego and chris.

I'm still expecting that with the benefit of the JWST having a larger mirror and one better suited to infrared than anything we've been able to look through (from space) before, that it will detect serious galaxies, whose spectra indicate a larger redshift than ever before. What would be the highest z values it might detect?

As to the rest of my musings, I'll just go back to keeping them to myself for the time being, or perhaps find some other forum where I can get this same kind of feedback and discuss any ideas, but where my wonderings are more appropriate to the forum. Thanks for your responses, though.

Back to today's APOD, it is pretty cool, noting this apparent motion of the Earth relative to the CMB. And clearly, the CMB as we see it from here, is:
The CMB has a thermal black body spectrum at a temperature of 2.72548±0.00057 K. The spectral radiance dEν/dν peaks at 160.23 GHz, in the microwave range of frequencies, corresponding to a photon energy of about 6.626 ⋅ 10−4 eV. Alternatively, if spectral radiance is defined as dEλ/dλ, then the peak wavelength is 1.063 mm (282 GHz, 1.168 ⋅ 10−3 eV photons).

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Fri Apr 15, 2022 10:57 pm
by Chris Peterson
MarkBour wrote: Fri Apr 15, 2022 8:26 pm Thanks again, alter ego and chris.

I'm still expecting that with the benefit of the JWST having a larger mirror and one better suited to infrared than anything we've been able to look through (from space) before, that it will detect serious galaxies, whose spectra indicate a larger redshift than ever before. What would be the highest z values it might detect?

As to the rest of my musings, I'll just go back to keeping them to myself for the time being, or perhaps find some other forum where I can get this same kind of feedback and discuss any ideas, but where my wonderings are more appropriate to the forum. Thanks for your responses, though.

Back to today's APOD, it is pretty cool, noting this apparent motion of the Earth relative to the CMB. And clearly, the CMB as we see it from here, is:
The CMB has a thermal black body spectrum at a temperature of 2.72548±0.00057 K. The spectral radiance dEν/dν peaks at 160.23 GHz, in the microwave range of frequencies, corresponding to a photon energy of about 6.626 ⋅ 10−4 eV. Alternatively, if spectral radiance is defined as dEλ/dλ, then the peak wavelength is 1.063 mm (282 GHz, 1.168 ⋅ 10−3 eV photons).
The highest redshift it's possible to detect would be that of the CMB: z = 1100. Anything closer would be moving away from us slower and have a lower redshift.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Sat Apr 16, 2022 2:40 am
by alter-ego
Chris Peterson wrote: Fri Apr 15, 2022 10:57 pm
MarkBour wrote: Fri Apr 15, 2022 8:26 pm Thanks again, alter ego and chris.

I'm still expecting that with the benefit of the JWST having a larger mirror and one better suited to infrared than anything we've been able to look through (from space) before, that it will detect serious galaxies, whose spectra indicate a larger redshift than ever before. What would be the highest z values it might detect?

As to the rest of my musings, I'll just go back to keeping them to myself for the time being, or perhaps find some other forum where I can get this same kind of feedback and discuss any ideas, but where my wonderings are more appropriate to the forum. Thanks for your responses, though.

Back to today's APOD, it is pretty cool, noting this apparent motion of the Earth relative to the CMB. And clearly, the CMB as we see it from here, is:
The CMB has a thermal black body spectrum at a temperature of 2.72548±0.00057 K. The spectral radiance dEν/dν peaks at 160.23 GHz, in the microwave range of frequencies, corresponding to a photon energy of about 6.626 ⋅ 10−4 eV. Alternatively, if spectral radiance is defined as dEλ/dλ, then the peak wavelength is 1.063 mm (282 GHz, 1.168 ⋅ 10−3 eV photons).
The highest redshift it's possible to detect would be that of the CMB: z = 1100. Anything closer would be moving away from us slower and have a lower redshift.
I wouldn't be surprised if the first stars to formed between 100 Myr and 200 Myr after the BB (z = 20 to 30).

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Sat Apr 16, 2022 3:04 am
by Chris Peterson
alter-ego wrote: Sat Apr 16, 2022 2:40 am
Chris Peterson wrote: Fri Apr 15, 2022 10:57 pm
MarkBour wrote: Fri Apr 15, 2022 8:26 pm Thanks again, alter ego and chris.

I'm still expecting that with the benefit of the JWST having a larger mirror and one better suited to infrared than anything we've been able to look through (from space) before, that it will detect serious galaxies, whose spectra indicate a larger redshift than ever before. What would be the highest z values it might detect?

As to the rest of my musings, I'll just go back to keeping them to myself for the time being, or perhaps find some other forum where I can get this same kind of feedback and discuss any ideas, but where my wonderings are more appropriate to the forum. Thanks for your responses, though.

Back to today's APOD, it is pretty cool, noting this apparent motion of the Earth relative to the CMB. And clearly, the CMB as we see it from here, is:
The highest redshift it's possible to detect would be that of the CMB: z = 1100. Anything closer would be moving away from us slower and have a lower redshift.
I wouldn't be surprised if the first stars to formed between 100 Myr and 200 Myr after the BB (z = 20 to 30).
Wouldn't surprise me, either. The trend seems to be towards finding that almost everything interesting was happening much earlier than we used to think.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Tue Apr 09, 2024 4:00 pm
by Roman_Szostek
Chris Peterson wrote: Sun Apr 03, 2022 1:53 pm The CMB is the edge of the observable universe, not the the entire universe.
I doubt this is the case. There is no evidence that microwave background radiation was produced 13 billion years ago, when the universe was allegedly forming. These are guesses.

In my opinion, microwave background radiation is produced all the time.

In this article
The existence of a universal frame of reference, in which it propagates light, is still an unresolved problem of physics
https://journals.yu.edu.jo/jjp/JJPIssue ... 022/3.html
we formulated the hypothesis that the microwave background radiation is thermal ether radiation.

This is consistent with the fact that the microwave background radiation has a thermal radiation distribution.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Tue Apr 09, 2024 4:49 pm
by Roman_Szostek
Below the drawing
https://apod.nasa.gov/apod/ap220403.html
is written:
In the featured all-sky map from the COBE satellite in 1993, microwave light in the Earth's direction of motion appears blueshifted and hence hotter, while microwave light on the opposite side of the sky is redshifted and colder.

This is not true. The opposite is true, i.e. red indicates a higher temperature and blue indicates a lower temperature.

I think the guy who wrote this confused it with redshift. In drawings of the microwave background radiation, the redshift is not shown, only the temperature of the radiation.

In various studies you can find the following figure, which shows that red is warm and blue is cold:

Image

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Tue Apr 09, 2024 6:38 pm
by Chris Peterson
Roman_Szostek wrote: Tue Apr 09, 2024 4:00 pm
Chris Peterson wrote: Sun Apr 03, 2022 1:53 pm The CMB is the edge of the observable universe, not the the entire universe.
I doubt this is the case. There is no evidence that microwave background radiation was produced 13 billion years ago, when the universe was allegedly forming. These are guesses.

In my opinion, microwave background radiation is produced all the time.

In this article
The existence of a universal frame of reference, in which it propagates light, is still an unresolved problem of physics
https://journals.yu.edu.jo/jjp/JJPIssue ... 022/3.html
we formulated the hypothesis that the microwave background radiation is thermal ether radiation.

This is consistent with the fact that the microwave background radiation has a thermal radiation distribution.
It is hardly a guess. It is scientific consensus, and therefore what most people should consider the likely answer.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Wed Apr 10, 2024 12:44 am
by Roman_Szostek
Chris Peterson wrote: Tue Apr 09, 2024 6:38 pm It is hardly a guess. It is scientific consensus, and therefore what most people should consider the likely answer.
What does "scientific consensus" mean?

The universe was thought to be 13 billion years old based on the dubious quality of the General Theory of Relativity equations. Ignoring that this is a far-reaching extrapolation of equations that have a questionable relationship to reality, in a situation where we know almost nothing about the laws of physics.

And the same "experts" came up with a fairy tale that microwave background radiation was created once at the beginning of the universe, almost exactly 13 billion years ago. 8-)
These "experts" tell you when the universe was created, but they have trouble understanding simple experiments like the Michelson-Morley experiment and formulas such as the Lorentz transformation:
Formal proof that the mathematics on which the Special Theory of Relativity is based is misinterpreted

This is not science, it is religion, or if you prefer, these are fairy tales.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Wed Apr 10, 2024 12:55 am
by Chris Peterson
Roman_Szostek wrote: Wed Apr 10, 2024 12:44 am
Chris Peterson wrote: Tue Apr 09, 2024 6:38 pm It is hardly a guess. It is scientific consensus, and therefore what most people should consider the likely answer.
What does "scientific consensus" mean?

The universe was thought to be 13 billion years old based on the dubious quality of the General Theory of Relativity equations. Ignoring that this is a far-reaching extrapolation of equations that have a questionable relationship to reality, in a situation where we know almost nothing about the laws of physics.

And the same "experts" came up with a fairy tale that microwave background radiation was created once at the beginning of the universe, almost exactly 13 billion years ago. 8-)
These "experts" tell you when the universe was created, but they have trouble understanding simple experiments like the Michelson-Morley experiment and formulas such as the Lorentz transformation:
Formal proof that the mathematics on which the Special Theory of Relativity is based is misinterpreted

This is not science, it is religion, or if you prefer, these are fairy tales.
Consensus is one of the most important parts of the scientific method. It means nearly all cosmologists agree on the general origin of the CMB. Which means nearly everyone else should agree, as well. Because experts are experts, and most others are not. If you're not an expert, you're not qualified to have a fringe "opinion" on the subject.

There's nothing wrong with either special or general relativity. Both are robustly supported by many independent lines of evidence.

You are in danger here of being assessed a crank and banned from the forum.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Wed Apr 10, 2024 1:42 pm
by johnnydeep
Chris Peterson wrote: Wed Apr 10, 2024 12:55 am
Roman_Szostek wrote: Wed Apr 10, 2024 12:44 am
Chris Peterson wrote: Tue Apr 09, 2024 6:38 pm It is hardly a guess. It is scientific consensus, and therefore what most people should consider the likely answer.
What does "scientific consensus" mean?

The universe was thought to be 13 billion years old based on the dubious quality of the General Theory of Relativity equations. Ignoring that this is a far-reaching extrapolation of equations that have a questionable relationship to reality, in a situation where we know almost nothing about the laws of physics.

And the same "experts" came up with a fairy tale that microwave background radiation was created once at the beginning of the universe, almost exactly 13 billion years ago. 8-)
These "experts" tell you when the universe was created, but they have trouble understanding simple experiments like the Michelson-Morley experiment and formulas such as the Lorentz transformation:
Formal proof that the mathematics on which the Special Theory of Relativity is based is misinterpreted

This is not science, it is religion, or if you prefer, these are fairy tales.
Consensus is one of the most important parts of the scientific method. It means nearly all cosmologists agree on the general origin of the CMB. Which means nearly everyone else should agree, as well. Because experts are experts, and most others are not. If you're not an expert, you're not qualified to have a fringe "opinion" on the subject.

There's nothing wrong with either special or general relativity. Both are robustly supported by many independent lines of evidence.

You are in danger here of being assessed a crank and banned from the forum.
And since I've been following this - ahem - debate - I finally clicked on both the links posted in support of Roman's view, and he's either the sole author or the co-author. I have no opinion on the merits of the papers since I haven't tried to read them (though I am slightly curious - lack of requisite mathematical skill notwithstanding).

But, yes, the scientific consensus of current experts in their fields is the best source of knowledge we have. That is, until some genius iconoclast comes along and proves all those experts wrong. 😉

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Wed Apr 10, 2024 1:58 pm
by Chris Peterson
johnnydeep wrote: Wed Apr 10, 2024 1:42 pm
Chris Peterson wrote: Wed Apr 10, 2024 12:55 am
Roman_Szostek wrote: Wed Apr 10, 2024 12:44 am

What does "scientific consensus" mean?

The universe was thought to be 13 billion years old based on the dubious quality of the General Theory of Relativity equations. Ignoring that this is a far-reaching extrapolation of equations that have a questionable relationship to reality, in a situation where we know almost nothing about the laws of physics.

And the same "experts" came up with a fairy tale that microwave background radiation was created once at the beginning of the universe, almost exactly 13 billion years ago. 8-)
These "experts" tell you when the universe was created, but they have trouble understanding simple experiments like the Michelson-Morley experiment and formulas such as the Lorentz transformation:
Formal proof that the mathematics on which the Special Theory of Relativity is based is misinterpreted

This is not science, it is religion, or if you prefer, these are fairy tales.
Consensus is one of the most important parts of the scientific method. It means nearly all cosmologists agree on the general origin of the CMB. Which means nearly everyone else should agree, as well. Because experts are experts, and most others are not. If you're not an expert, you're not qualified to have a fringe "opinion" on the subject.

There's nothing wrong with either special or general relativity. Both are robustly supported by many independent lines of evidence.

You are in danger here of being assessed a crank and banned from the forum.
And since I've been following this - ahem - debate - I finally clicked on both the links posted in support of Roman's view, and he's either the sole author or the co-author. I have no opinion on the merits of the papers since I haven't tried to read them (though I am slightly curious - lack of requisite mathematical skill notwithstanding).

But, yes, the scientific consensus of current experts in their fields is the best source of knowledge we have. That is, until some genius iconoclast comes along and proves all those experts wrong. 😉
But you know what else those "genius iconoclasts" are? They're experts in the field already. Genius alone isn't going to come up with something new. What's needed is genius and actual knowledge of the subject. Some plumber with a 200 IQ isn't going to develop a new theory of cosmology if they aren't already well versed in current theory and the state of evidence.

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Wed Apr 10, 2024 2:03 pm
by johnnydeep
Chris Peterson wrote: Wed Apr 10, 2024 1:58 pm
johnnydeep wrote: Wed Apr 10, 2024 1:42 pm
Chris Peterson wrote: Wed Apr 10, 2024 12:55 am
Consensus is one of the most important parts of the scientific method. It means nearly all cosmologists agree on the general origin of the CMB. Which means nearly everyone else should agree, as well. Because experts are experts, and most others are not. If you're not an expert, you're not qualified to have a fringe "opinion" on the subject.

There's nothing wrong with either special or general relativity. Both are robustly supported by many independent lines of evidence.

You are in danger here of being assessed a crank and banned from the forum.
And since I've been following this - ahem - debate - I finally clicked on both the links posted in support of Roman's view, and he's either the sole author or the co-author. I have no opinion on the merits of the papers since I haven't tried to read them (though I am slightly curious - lack of requisite mathematical skill notwithstanding).

But, yes, the scientific consensus of current experts in their fields is the best source of knowledge we have. That is, until some genius iconoclast comes along and proves all those experts wrong. 😉
But you know what else those "genius iconoclasts" are? They're experts in the field already. Genius alone isn't going to come up with something new. What's needed is genius and actual knowledge of the subject. Some plumber with a 200 IQ isn't going to develop a new theory of cosmology if they aren't already well versed in current theory and the state of evidence.
Yes, an excellent point! (Good thing I had added that wink emoji to my post.)

Re: APOD: CMB Dipole: Speeding Through the... (2022 Apr 03)

Posted: Sat Apr 13, 2024 12:51 am
by Roman_Szostek
johnnydeep wrote: Wed Apr 10, 2024 1:42 pm And since I've been following this - ahem - debate - I finally clicked on both the links posted in support of Roman's view, and he's either the sole author or the co-author. I have no opinion on the merits of the papers since I haven't tried to read them (though I am slightly curious - lack of requisite mathematical skill notwithstanding).
Einstein's Special Theory of Relativity is based on the assumption that the one-way speed of light in a vacuum is always constant. However, it turns out that the one-way speed of light has never been measured. So this assumption, on which the Special Theory of Relativity is based, has no experimental basis. This assumption is made up.

There is also experimental evidence that the Special Theory of Relativity is not a model of our reality. It's about microwave background radiation. This radiation has dipole anisotropy, which shows that from our frame of reference, space is not isotropic. And according to the Special Theory of Relativity, space must be isotropic for an observer from any frame of reference. :ssmile:

This anisotropy is well shown in Nobel Lecture of George F. Smoot's in the following figure, taken by the COBE satellite:
Image
Physicists ignore the second of these figures, where dipole anisotropy is shown. However, they admire the third drawing, in which the effect is 186 times weaker, and claim that there they see an image from the beginning of the universe. You may get excited about this, but these are fairy tales. :)

This is precisely what we base our criticism of Einsteinian relativity in the article I have already linked:
The existence of a universal frame of reference, in which it propagates light, is still an unresolved problem of physics