Dear Israel,

You have argued for a preferred reference system in your essay, and I have argued for the relational view of motion (and extensions of it) in my essay Absolute or Relative Motion...or Something Else? , which are completely opposite views. I think we may have a very exciting discussion.

First, I will adress your question: i) Does the fact that the PSR cannot be experimentally detected mean that the PSR

does not exist?

As you have noticed in your essay, the introduction of any concept can be justified if it leads to useful empirical confirmations (that may have nothing to do with the concept in question). So we may say that there is a preferred system of reference (even tough it cannot be observed) in order to obtain a completely new theory with possible new experiments and empirical success, but it seems that such a theory will always have one drawback: it will produce statements that can never be verified.

For instance, what is my absolute position? This is a meaningful and unanswerable question in the PSR framework. It happens to be unanswerable because of the coincidence that no experiment can answer this question due to the particular form that the laws of physics happen to have. So any theory that does not need the invisible structure of absolute space and still produce the same results is superior. The introduction of the PSR need some extremely compelling arguments.

So now I turn to your arguments in that support the PSR hypothesis. You have written that

''Suppose that before the discovery of RT, particle accelerators had been already developed. And assume that the ALICE, ATLAS and CMS collaborations at the large

hadron collider had released the news, well know today, that the quantum vacuum is actually a perfect fluid [\LHC experiments brought new insight into the primordial universe" (21; 22)]. If this fluid were assumed to be at rest and

not signi cantly aff ected by the presence of material particles it would immediately be identi ed as the aether or AS.''

That it not strictly true. Newton introduced absolute space in order to define motion. Suppose you have a snapshot showing physical objects in euclidean space. Now suppose after some time has elapsed, you take another snapshot. How can we know if any change has happened? It is necessary to have an equilocality relation: a relation that tell which point in one snapshot is the same in the other snapshot. The equilocality relation is necessary to make motion of objects in time a meaningful concept, and Newton´s absolute space does exactly that, and that was the reason why it was introduced (see Barbour´s book The discovery of dynamics).

The presence of a quantum vacuum field does not entail that there is a PSR, or that AS could be identified with it. The reason follows from the same argument above: suppose you have two snapshots of field configurations defined on a 3D euclidean space taken at different times. How can we tell what´s the difference between them without a way of identifying a point in one snapshot with a point in another?

You have also written

''And fourthly, it is also well understood that the paradoxes in special RT such as the clock paradox,

the Supplee paradox, etc. arise due to the lack of the PRS. For if one assumes that the PRS exists all paradoxes as

well as the intuitive perplexities inherent to the theory automatically vanish.''

What is the scientific value of the lack or presence of intuitive perplexities? The clock and Supplee paradox are not actual paradoxes: they are fully resolved and explained by special relativity without any problem. Why bother with them?

Another idea of yours is

''[...] keep space immovable a la Newton and assume it as a non-homogenous material fluid with di fferent refraction indices that vary

as function of the distance between the observer and the source of GF. The gradient of the refraction indices is caused by the GF and will automatically make the speed of light to have di erent values as function of its position within the GF. So, within this context, the warping of space can be physically reinterpreted as the change in the density of

the material medium (23).''

How can this framework explain how the time measurement differences of clocks situated on different points of space close to a massive objects (such as the earth)? This effect is considered everyday for GPS devices to work.

I´ll be waiting for your answers and invite you to read my essay and share opinions about a different view on time, space and motion.

Best regards.

    Hi Constantinos

    I agree with you, though I don't have a definite answer to your question. Above, perhaps, you will find the arguments that I gave to Pentcho and Eckard very useful, they are related to the speed of light. Please take a look at them.

    Regards

    Israel

    Dear Daniel,

    The implication that we must live in a Block Universe, as realised through the Andromeda paradox, is a significant issue, from the point-of-view of relativity, for any realist to overcome, if they would reject the relativistic possibility of a preferred reference frame.

    As for experimental evidence, local experiments can't decide either way, since the physics is the same with or without a preferred frame; however, beyond the empirical fact that time really does pass, which can't be reconciled with relativity in any realistic sense without a preferred space, all empirical evidence from cosmology decidedly favours---and really can't work in the usual way without assuming---a preferred reference frame.

    I hope you read my essay as well, and I'll read yours, as I'd be interested to join in on this discussion you've proposed. I'd very much appreciate such a well thought out critique of my essay as you've offered Israel here.

    Best, Daryl

    Hi Israel,

    (After reading your essay for a second time I slowly starting to appreciate the gist. Why slowly? The overuse of unusual acronyms means that my brain has to multitask (which I am no longer good at); the first task digesting and appreciating the content and the second learning acronyms that have no relevance beyond the essay. This was now a self criticism regarding my short term memory or lack thereof that all scientific writers should be aware of; 聽I am sure that I am not alone.)

    Nevertheless, congratulations to the extremely well written and structured philosophical disquisition; explaining the historical background that moulded our way of thinking and raising the valid questions and presenting argument that there must be more.

    Your essay and my essay ( 聽 .../topic/1458聽 聽 ) support each other well; I, like you, raise 聽the question of a, yet unknown, underlying absolute reality verses our only ability to model, possibly degraded, a relative reality.

    Regards and good luck - Anton

    PS let's stay in touch my email in my essay.

      Hi Daryl

      Nice hearing from you again. I agree that the "hume" may well describe my essay's discussion, actually, the RELOAD part was the plus.

      Cheers

      Israel

      Hi FQXi readers

      I would like to open a discussion about the red shift.

      My arguments go as follows:

      First let us bear in mind that science must be strictly rigorous and critical. And to make valid the following questions we must make a legitimate assumption. Suppose that at present we have all fields of theoretical physics at our hands with the exception of the general theory of relativity, which we shall concur for the moment that it has not yet been discovered or invented. This set of theories along with its conceptual assumptions will constitute our THEORETICAL FRAMEWORK (TF). Under this TF the nontrivial questions arise in relation to the cosmological redshift: (1) What physical interpretation can be given to the redshift observed in the spectral analysis of emission / absorption of galaxies, stars, etc.? (2) Considering the kinematics of special relativity is it possible to conclude that the redshift is synonymous of recessional velocity? (3) What conceptual framework allows us to associate the red shift with recessional velocity (which leads to the Hubble law)? (4) Are there any other interpretations of the redshift? (5) is it possible to conclude that the universe is expanding? If so, Why?

      I would be glad if anyone could leave some comments. I believe that the answer to these questions are crucial to figure out whether the universe is really expanding or not. The only rule here is simply, not to introduce general relativity.

      Regards

      Israel

        Hi Anton

        Thanks for reading my essay and for your comments. Some other folks have pointed out my overuse of acronyms, I acknowledge this. Next time, I will reduce the number I promise.

        I will take a look at your essay as soon as possible thanks for the invitation.

        Best Regards

        Israel

        • [deleted]

        • Post #148

        Israel,

        Was it you who linked me to this article last year?

        I think the whole issue of redshift only being possible due to recession is based on the assumption photons remain point particles during transmission. But why? Wouldn't quanta of light expand, much like a gas when emitted? Then when absorbed, there are various possibilities why this expansion would be causing redshift. The one I suggested in last years contest was simply that beyond a certain luminosity, the loading theory of quantum absorption would mean it would start to take longer for each photon to register.

        As for 5, expansion is already balanced by gravitational attraction, so the space expanding between galaxies, is matched by the space contracting into them, leading to overall flat space.

        Hi John

        I do not remember but it is likely since I have cited before and I am aware of that paper. Actually, I consider it of great relevance as an alternative explanation to the problem. I have identified that the key of the expansion is the physical interpretation of the redshift. As mentioned in that paper it is pretty reasonable that a wave cannot travel infinite distances without losing even a minute amount of energy, certainly conceiving light as a wave instead of a photon. I have found in the literature that this picture is called the "tired light" model, a term that seems to me somewhat misleading. The general theory of relativity offers one way to solve the puzzle by postulating expansion of space though it does not seem to be very probable. The fact that expansion does not solve Olber's paradox at all makes me lean towards the other model. It is a simpler explanation and very plausible based on the conclusions drawn from my essay.

        Israel

        Dear Israel:

        "The general theory of relativity offers one way to solve the puzzle by postulating expansion of space though it does not seem to be very probable. The fact that expansion does not solve Olber's paradox at all makes me lean towards the other model."

        !!!!!!!

        First of all, GRT is NOT---*absolutely NOT*---needed a priori in order to describe the metrical expansion of space! The metrical expansion of space, described by the RW metric, is *assumed prior to bringing GRT into cosmology at all*. The RW metric is NOT general relativistic in and of itself, but GRT---viz. Einstein's equation---is ONLY subsequently imposed in order to constrain the FORM of expansion that such a universe can take, depending on the possible energy-content of space, according to the theory. One can presume to describe redshifts through the metrical expansion of space *in any case*. Second of all, the inference from the redshift measurements, that space is *actually expanding*---INSTEAD OF, as you say, associating redshift with recessional velocities of galaxies moving through space (which is NOT what's actually done!)---is by far the MOST NATURAL inference to make from the evidence (see below). Thirdly, Olbers' paradox is completely resolved by the standard model, which tells us that our particle horizon will monotonically increase, asymptotically approaching a FINITE comoving distance (i.e., finite coordinate distance in expanding space) from us (please see comments I posted on Abraham Loeb's site on Aug 13 & 14). Olbers' paradox exists only if the Universe were infinite in age and not (asymptotically) exponentially expanding. In the latter case, even with infinite age (e.g., Steady State theory), only a finite amount of light can reach any point in space at any time. Actually, (see, e.g., references to Krauss et al. in Loeb's paper) in exponentially expanding space light becomes completely undetectable after only 10^11 years.

        I posted a reply to Peter Jackson yesterday on my site, describing in more detail the rationale behind the assumption of a preferred reference frame in cosmology, based on redshift observations and the *natural inference* that space is actually expanding (which, I MUST STRESS, does not require GRT *a priori* in order to construct an appropriate space-time metric). Here's what I wrote:

        I thought I'd give some more details about why I think the cosmological evidence justifies the assumption---usually thought to be unjustifiable strictly from the point-of-view of relativity---of a Cosmic Time and preferred reference frame to describe the evolution of a three-dimensional Universe. To begin with, note the principal reason for inferring that the Universe is expanding: as Eddington wrote in The Expanding Universe,

        "The lesson of humility has so often been brought home to us in astronomy that we almost automatically adopt the view that our own galaxy is not specially distinguished---not more important in the scheme of nature than the millions of other island galaxies...

        "When the collected data as to radial velocities and distances [of these galaxies] are examined a very interesting feature is revealed. The velocities are large, generally very much larger than ordinary stellar velocities. The more distant nebulae have the bigger velocities; the results seem to agree very well with a linear law of increase, the velocity being simply proportional to the distance. The most striking feature is that the galaxies are almost unanimously running away from us...

        "We can exclude the spiral nebulae which are more or less hesitating as to whether they shall leave us by drawing a sphere of rather more than a million light-years radius round our galaxy. *In the region beyond, more than 80 have been observed to be moving outwards, and not one has been found coming in to take their place*...

        "The unanimity with which the galaxies are running away looks almost as though they had a pointed aversion to us. We wonder why we should be shunned as though our system were a plague spot in the universe. But that is too hasty an inference, and there is really no reason to think that the animus is especially directed against our galaxy. If this lecture room were to expand to twice its present size, the seats all separating from each other in proportion, you would notice that everyone had moved away from you. Your neighbour who was 2 feet away is now 4 feet away; the man over yonder who was 40 feet away is now 80 feet away. It is not *you* they are avoiding; everyone is having the same experience..."

        So, if the basic inference is really justified, that the redshifts of galaxies outside this sphere are all due to the dominance of the Hubble flow over peculiar motions of galaxies (i.e., their motions *through* space), so that any peculiar motion (which includes our own) really does become increasingly negligible with distance according to Hubble's law, then of course it's justified to treat the peculiar velocities of all galaxies, including ours, as noise in the redshift measurement, and describe ourselves and all sufficiently distant galaxies that we model as remaining at rest at comoving coordinates of expanding space.

        Therefore, even though our clock, here on Earth, doesn't measure Cosmic Time because we're moving through the Universe (as indicated by the CMB dipole anisotropy), from the point-of-view of cosmology this doesn't matter, and we *are* able to determine what the present value of cosmic time is, because the metrical expansion of the Universe (as we infer from the empirical evidence) totally overwhelms any [special] relativistic effects due to the random peculiar motions of galaxies [which would otherwise indicate that two randomly chosen galaxies couldn't agree on a cosmic time due to their relative motion].

        In essence, since the CMB indicates that we're moving through the Universe a little faster than 0.001c, and by the cosmological principle and observations of nearby galaxies we infer that this velocity is likely a typical value, peculiar velocities of galaxies along our axis of motion would produce the largest errors to our assumption that we're all at rest with respect to a comoving rest frame, and these could be as large as (0.002 -- 0.003)c. But this value is much less than the cosmological redshifts we typically observe. Therefore, when inferring that cosmological redshifts are mainly caused by the metrical expansion of space, we're also inferring that all peculiar motion, including our own, is eventually negligible with respect to that.

        Cosmology therefore demands an absolute foliation of space-time, against which all local space-time measurements, at all levels, can be made. I've discussed this in regard to general relativity in my response to George Ellis on Aug. 15, 2012 @ 18:53 [on my site].

        Best, Daryl

        Dear Daniel,

        Thank you for reading my essay and for your interesting comments. You have raised several issues that will provide a vast material for discussion and I will try to explain myself as clear as possible. I have divided my reply into two parts. This is part 1.

        You: You have argued for a preferred reference system in your essay, and I have argued for the relational view of motion ... which are completely opposite views.

        I do not think there is a contradiction though this would depend on our ontological conceptions of space, time, motion and particle. First, if one assumes Newton's space as a truly empty vessel, then you are right; this Euclidean space is nothing but a background and so it becomes useless as Mach contented. Here relating motion to nothingness has no meaning. I agree with you that the motion of a physical object has only meaning relative to another physical object. So the problem reduces to the conception of those objects. If one assumes space not as empty vessel but as a fine continuous massive fluid (aether or quantum vacuum as you prefer to name it) then motion of physical objects turns out to be truly relational. If one recognizes this it is quite legitimate to grant this type of space the status of a PSR. Why do I hold the opinion that space is a massive entity? Because this assumption is useful to understand, among many other things, the behavior of light. For the properties, such as the speed of a wave, are totally determined by the properties of the medium. If the medium is isotropic, homogeneous and with a constant temperature the speed of a wave has no option but to be a constant. Now, why is it necessary to hold the PSR? Because light (or any other object) must move relative to something and not relative to nothing as in Newtonian space. Light, once is generated, propagates at a constant speed and independent of the motion of the source. One rule here is that no material particle can move faster than the speed of the light waves. We should borne in mind that particles are part of the space and in this sense they move relative to it. Clearly, my vision is truly relational in spite of the fact that I am assuming a PSR.

        With this brief explanation I hope I have laid down a conceptual framework to refute some of your arguments.

        You: ... but it seems that such a theory will always have one drawback: it will produce statements that can never be verified.

        As I argue in my essay during the construction of the theory whether the assumptions are true or false turns out to be irrelevant as long as the theory reproduce the body of experimental observations under consideration. No theory is perfect, all theories have flaws, but despite of this they are embraced in physics not for their conceptual or mathematical inconsistencies but for their usefulness to solve the problems at a given age in the history of physics. I see no problem assuming space as the PSR in as much as this help us to solve the problems that we have. I would say that it is premature to affirm that my proposal would produce statements that can never be verified. If you could put onto the table some specific examples I would appreciate it.

        If you take a look at my reference 17 in my essay, Eq. 3.14 strongly suggests that an observer in motion can determine, in principle, its speed relative to the PSR (called there the isotropic system). Some other experiments have been put forward somewhere else.

        You: That it not strictly true... ...dynamics.

        Well I think that the word "true" is not the most appropriate; I am just saying that the identification of the perfect fluid could be considered as an experimental evidence that space is actually an aether or a fluid. Thought AS in the sense I described above, not in the Newtonian sense. Your example of snapshots implies a macroscopic scale and in this sense is a Newtonian vision. So, if one restrains oneself to the Newtonian picture I agree with you that one cannot find any differences, however, at the microscopic level the differences would be evident (of course under the premise that instantaneous snapshots could be taken).

        You: The presence of a quantum vacuum field does not entail that there is a PSR...,

        Again this depends on how you conceive space: as nothingness or as a sea of fields, as a massive fluid or what? Within the context of the current conception in physics, the vacuum is thought of as a field of energy which includes the fermion, gauge, Higgs and the electromagnetic fields, but besides this, it is assumed that all of this is embedded in an euclidean truly empty background (Newtonian space).

        ...How can we tell what´s the difference between them without a way of identifying a point in one snapshot with a point in another?

        I answered this question above.

        It entails a PSR specially for light.

        You: What is the scientific value of the lack or presence of intuitive perplexities?...

        Because by analyzing these perplexities one identifies the flaws of the theory which at the end may lead to further progress and improvements of a new theory. This is what Mach did, for instance, when he analyzed the Newtonian scheme.

        Israel

        This is part 2.

        You: they are fully resolved and explained by special relativity without any problem. Why bother with them?

        First of all, I am aware that the problem is not even recognized as a paradox by most theorists. So if we depart from this statement, there is no point of discussion.

        However, if we insist on a paradox we may gain some valuable knowledge. The fact the special relativity (SR) has no preferred frames forbids us to state that relativistic effects "REALLY" occur. The words "ACTUALLY" or "REALLY" in SR are prohibited since this implies accepting a PSR. So, in the clock paradox, the paradox consists in that one cannot decide who is really undergoing the time dilation effect, one can only say that both observers experience time dilation according to their own systems of reference. Since both undergo the same time dilation both observers must be either equally old or equally young. One way to get out of this conundrum is to assume that one observer accelerates whilst the other remain at rest, but this is obviously an external hypothesis to SR since this implies non-inertial systems of reference. In general, SR cannot solve the paradoxes without allusion to acceleration, that is, without the help of the general relativity. I have no problem with this, it is quite legitimate, but there is a simpler solution instead of alluding accelerated frames. The other way is simply to assume the PSR. Hence, any system in motion relative to the PSR will actually undergo relativistic effects whereas an observer at rest not. One can easily realize that there is no mathematical and intuitive conflict.

        You: How can this framework explain how the time measurement differences of clocks situated on different points of space close to a massive objects (such as the earth)? This effect is considered everyday for GPS devices to work.

        My example was alluding to that particular article in which it is shown that the bending of light due a gravitational field is equivalent to having a vacuum with a graded refractive index. The aim of this was to support the view that the geometrical interpretation of space-time is not the only alternative to explain physical phenomena. If you would like to see the mathematical details you may check reference 23 or here. As you noticed this picture appears, at first sight, not to be satisfactory as an explanation of some other gravitational effects such as clocks. However, we may elaborate further this idea making some valid considerations. To visualize this, just bring to mind the typical light clock in which a ray of light bounces between to mirrors separated by a distance L, each round trip is a unit of time. At the surface of the earth (to a first approximation) the speed of light is slower because the vacuum has a lower index of refraction than at the top of a tower. This tells us that our light clocks will tick faster at the top than at the surface.

        There is a further more complex explanation which implies the motion of the vacuum instead of assuming a degraded index of refraction, but at the end the effects on physical phenomena is the same as in the previous case. Again, this is only to illustrate that there are more alternative explanations.

        Best regards

        Israel

        Hi Daryl

        You wrote so much material that I am afraid it would take some time to give you a well-thought reply. But, for the time being I would like to ask you to answer me some specific questions. I would like to focus our efforts in one particular topic which I believe is pivotal for our future discussion. I hope you have the answer according to the mathematical tools they had at that time. The questions are very simple:

        How did Slipher in 1912-15 (when the general relativity was not developed yet) or any other astronomer of that epoch calculate the radial velocities of galaxies? I mean, how did they measure the radial velocity of a galaxy? Why they associated the red shift observed in the galaxy spectrograms to the radial velocity? What equation did they use to obtain a relation between the red shift and the radial velocity? Eddington says: "When the collected data as to radial velocities and distances [of these galaxies] are examined a very interesting feature is revealed. The velocities are large, generally very much larger than ordinary stellar velocities... I would be grateful if you could tell me, how it can be inferred that the galaxy is moving away from the corresponding spectrogram where there is a red shift?

        cheers

        Israel

        Hi Yuri

        I did not realize about your post. I am sorry for this. I have considered the problem and Vesselin Petkov has a different view though is a little bit different.

        I will take a look at your work as soon as possible.

        Best regards and good luck in the contest

        Israel

        • [deleted]

        • Post #155

        Daryl,

        How is it that space is expanding, yet a constant metric, the speed of light, is used to measure it?

        If two galaxies, x lightyears apart, were to grow to 2x lightyears apart, that is not expanding space, but increasing distance in stable space.

        Also the effect attributed to expansion, is balanced by the contracting effect attributed to gravity, so it would seem space is like a rubber sheet, that when pushed in, in one spot, expands out in a corresponding manner in other areas. Since the overall result is flat space, whatever model is used, there doesn't seem any logic in assuming the universe as a whole is expanding.

        As for dark energy, if this expansion is a form of cosmological constant, originally proposed to balance gravity, than we are only seeing the light that travels between galaxies and thus through those expanded areas, where the effect compounds, thus creating the impression the further the source, the faster the recession. So since it is a constant effect of space and not residual force from an initial event, there is no need to explain why it doesn't slow down at a rate proscribed by Big Bang theory, so no need for dark energy.

        Israel,

        The original formulation of "tired light" was still based on the notion of light as point particles and it was considered that they must be slowed by encountering some medium, but there was insufficient scattering to show this. The notion of light as a wave that expands, was not part of the original refutation.

        Since redshift is proportional to distance, some form of lensing effect makes the most sense. In this regard, the cosmic background radiation, which is observed originating from the edges of the visible universe, is the logical solution to Olber's paradox, as it would be the light of stars over the horizon line of being redshifted completely off the visible spectrum.

        Just because galaxies are redshifted must mean they are moving away, would like assuming gravitational lensing actually causes the source to move around at fantastic speeds, not that the light from that source has been bent.

        Hi Israel,

        The term "recessional velocity" is given as synonymous with redshift. While this is somewhat true (according to the expanding universe model, since physical distances between galaxies should increase with time in an expanding universe) it is also quite misleading since redshifts are supposed to be caused solely by the expansion of space in which the galaxies are supposed to be all at rest, remaining forever at the same coordinates; i.e., it's not the galaxies that fly apart, but space itself that expands. Furthermore, the idea of redshifts arising due to an actual recessional velocity makes no sense at all when values are often larger than 1.

        Slipher initiated a programme for measuring redshifts from spectra of the "spiral nebulae" in 1912-1913, but even in 1917 there were still only three reliable measurements available (one blue-shifted). It was only in 1922, when his extended list was published in Eddington's book, that there was any kind of reliable evidence for expansion, as they really were predominantly redshifted. But then it was only when Hubble confirmed that the redshifts actually increase linearly with distance (in our neighbourhood) that the expanding universe idea found serious support. Please try to understand Eddington's account of this. He's saying it's not that the desks are actually flying apart, but the space between them is expanding.

        But we're way past the initial indication now, and we've got very reliable measurements of redshifts well above z=6. Those can't be due to actual recessional velocities of objects moving through space (more than six times faster than the speed of light!), and the idea that space itself expands, with galaxies consequently "receding" through the growth of physical distance, makes a lot of sense as an explanation of that phenomenon. The light is supposed to be redshifted as the wavelengths of photons increase while travelling through expanding space. But still, none of this yet touches on general relativity explicitly.

        Hope this helps,

        Daryl

        John,

        "If two galaxies, x lightyears apart, were to grow to 2x lightyears apart, that is not expanding space, but increasing distance in stable space." You can't explain redshifts greater than 1 in such a model. Please read my last post, which I was writing at the same time as you.

        "Just because galaxies are redshifted must mean they are moving away, would [be] like assuming..." And that's why it took Hubble's confirmation of a *redshift-distance relation* to provide the convincing evidence for expansion. Not everyone agreed already in 1922 that the Universe is expanding.

        Daryl

        • [deleted]

        • Post #158

        Daryl,

        That's my point. There is still the assumption of a standard metric. Yes, beyond z=1, it doesn't make sense. If the theory says that in billions of years, these galaxies will be so far away, that their light can no longer reach us, ie, assuming a standard speed of light, what is the basis of this standard, if the very fabric of space is being stretched? If the speed of light is the most basic measure of intergalactic space and this space is actually being stretched, wouldn't necessary proof of this be that the measure itself is also stretched? Otherwise it is just expanding distance in these standard units.

        Of course, then if the galaxies were always x lightyears apart, because the speed of light increased to match the stretched space, then the universe wouldn't appear to expand!!!

        As they say, can't have your cake and eat it too.

        An increasing redshift-distance correlation would be symptomatic of a lensing effect, as it would compound over distance, since it would further magnify what had already been magnified.

        An interesting article from the point of view of an engineer who had to work with cosmologists.

        Israel

        You said: 1)If one assumes space not as empty vessel but as a fine continuous

        massive fluid (aether or quantum vacuum as you prefer to name it) then motion

        of physical objects turns out to be truly relational. If one recognizes this it

        is quite legitimate to grant this type of space the status of a PSR.

        What I have tried to argue with the snapshot example is that it is not legitimate to grant this type of space the status of a PSR.That is because you cannot identify space points with field values. You can imagine 2 configurations of the universe with field configurations ''translated 10 meters to the left'' in relation to absolute space. What absolute space does is define an equilocality relation between those snapshots, and the presence of a quantum field does not solve the problem. This argument is not new, but due to Julian Barbour.

        It could be solved if there were any procedure by which we could find our ''preferred position'' (in relation to eh PSR), but experimental evidence, at least to the extent that I know, has never produced such information.

        You said:'' I see no problem assuming space as the PSR in as much as this help us to solve the problems that we have. I would say that it is premature to affirm that my proposal would produce statements that can never be verified.

        If you could put onto the table some specific examples I would appreciate it.''

        I agree that we may introduce PSR if it is useful, But the statements that cannot be verified that I mentioned are precisely ''preferred position''. No experiment has ever revealed a ''preferred position'', but a theory built upon a PSR would necessarily refer to such positions (I can´t see how it could be done otherwise, if you have any idea please tell me). So this is why I concluded that the concept of PSR muct be REALLY useful if we are going to introduce it.

        You have said:

        ''The fact the special relativity (SR) has no preferred frames forbids us to state that relativistic effects "REALLY" occur. The words "ACTUALLY" or "REALLY" in SR are prohibited since this implies accepting a PSR.''

        I don´t quietly understand that. In relativity, there is only one space-time manifold, but different basis in which we may write 4-vector an so on. So yes, time dilatation DOES occur (see the experiment where clocks in the earth and in an airplane measure different intervals for a round trip on earth), lenght contraction DOES occur.

        And finally:

        ''As you noticed this picture appears, at first sight, not to be satisfactory as an explanation of some other gravitational effects such as clocks. However, we may elaborate further this idea making some valid considerations''.

        I agree with you in this point.

        Best reagards, and thanks for an exciting discussion.

        dear Israel

        it was good advice when you suggested, in commenting my essay, that I should have a look at your essay

        I really ejoyed reading it. We have different views on preferred frames

        and relativistic theories but we share the intuition that there are interesting issurs at the interface between fundamental physics and philosophy of science

        best wishes for the competition

        Giovanni