Much Ado About Nothing by Peter Jackson

Pentcho

I agree, moving observers only change the wavelengths they interact with, they do not affect that in the surrounding frame.

What needs to be done, which is the new part, is to actually apply the finding, which you agreed, that there are two separate states; One before detection, one after. You use the common current assumption it is the one 'before' interaction that matters, I'm suggesting it is the one 'after'. My logic is this;

A detector is a collection of massive particles. If there are no massive particles there is no detector, so can be no detection. We need to think carefully about that first axiom and accept it, or please suggest another logic if you disagree.

If the detector is moving towards the source, then in the time t between wave peaks A and B reaching the detector, the detector will have moved, therefore the spatial point of interaction is different. This is simple kinetics OK?

Then the time between wave 'peaks' in the surrounding medium interacting with a stationary point in that medium is different to the time t' experienced by the detecting particles. Still all OK?

So (assuming index n is the same for simplicity) the distance between the peaks in the detector medium is shorter than the distance in the surrounding medium. OK? That distance is wavelength, lambda. Implicit at that same instant the frequency has changed inversely to lambda. As we know it does in all cases where we are measuring media to media Doppler shifts, including those due to delta n.

So, using relative v and the only 'observable' f in the two media, the detection can tell us TWO things subject to assumptions about the other two values; propagation speed and lambda. It can tell us both the original 'relative' speed, and the new propagation speed, or if we assume a speed it can tell us both the original and new lambda.

Remember, if there is no new medium then there is no detection.

One other entirely different case is there to confuse the innocent. Turn the lens perpendicular to the light. Light passing by is not observable. But something CAN be. If there are gas particles which the light charges on its way past, and the light is quantized, then the particles will 'flash' on and off. The observer can then calculate a speed. Now think carefully. This will be a REAL speed if he is at rest in the surrounding medium, but only and 'apparent' or relative speed if he is in motion.

The massive (pun!) mistake science has been making is confusing that 'apparent' speed with 'real' propagation speed (the light from the 'flashes' actually interacting with the lens is always only doing c).

I agree this seems very difficult to comprehend at first. Once thought through it is entirely self apparent, but there is then the matter (pun2!) of the deeply ingrained assumptions (equivalent to 1,000yrs of flat earth) to overcome. That seems perhaps the far bigger problem.

Do you agree?

Peter

Eckard

Could you clarify something for me. Pentcho says delta L is not important so real detected speed is c+v. I show how I derive real speed c, and c+v as only apparent.

Yet you claim I have suggested 'real' c+v, and say you agree with Pentcho. I find that quite confusing.

I understand your confusion over transformation which is my fault. I use the normal convention of LT for the Lorentz transformation, or otherwise specify 'first order' or GT for Galilean transformation. In the above kinetics we only really need the GT but (at first order) it applies to both! The resolution of the LT hyperbola emerges, as briefly discussed in my essay, but is only an unnecessary distraction to this major first 'leap' of understanding of applied dynamic logic.

(As Phipps points out, Maxwells equations can't currently even negotiate the GT let alone the LT. This delta lambda releases it to do at least the GT, as my equations).

Do please consider and clarify the first point for me.

Thanks

Peter

Pentcho

Two clocks are at rest, spatial distance between them L. If they remain in the rest frame we find speed c.

Now let's disect and fully define your scenario, and look at both possible cases.

1. REAL If the whole 'inertial system' K' (clocks and space between them) moves. Then we must put 'markers' in the old frame K where the clocks were. The pulse interacts with the first, but in the time it takes to reach the second, the second has moved. That is the delta L in the new frame.

2. APPARENT If only the clocks move, both through the background, then each clock is it's own local frame K'. The light between the clocks is then propagating in K, not the new inertial system you specified K', so any speed between them is only 'apparent' and will be calculated at c plus v.

I'll endure house arrest, but can't recant truth! We go round the sun, and light changes speed on interactions.

Peter

Echard

I agree "a single (thus 'local') frame" does need more explanation. I'm now so familiar with the new simple logic I forget how relatively confusing the previous understanding was.

Perhaps a simple interpretation of Tejunders 'continuous spontaneous localization' will help. That is confusingly 'CSL', so I'll use 'instantaneous', for 'CIL'.

Envisage a space, say a 10 metre cube, with say five 0.5 metre 'particles' in it, all made up of gluons, protons, electron shells etc. and all moving with respect to (wrt) each other. We'll slow down some light waves passing through the space, to a constant 5kph wrt the cube, which we'll call 'c', so we can see what's going on.

As a part of each plane wavefront interacts with each particle the speed of propagation is instantly changed, or 'localised', to c', which is c wrt the particle NOT the cube. Most of the wave carries on at c, and another 0.5m bit may interact with a different particle, and then be localised to c", which is yet another c, wrt THAT particle. After a very short delay (PMD) each particle re-emits the charge (wave) at c wrt itself, that is; c' or c". So each of those speeds is different when viewed from the cube (background) frame, but is always c from the frame of each particle. That is 'local c' in the 'local frame' of each particle.

Now if all the particles are at rest wrt the cube, but the PMD delay gives refractive index n = in excess of 1, then all the re-emissions will have the same speed and axis c'. The process is equivalent to 'extinction' of the old wavefront and speed c. The effect of two axis during extinction is a form of birefringence, precisely as first found by Raman Chandraseckara pre his 1930 Nobel. (He also confirmed the new emission speed c' is wrt the particle not any bound electron orbital speed). In this case the word 'local' then refers to the cube, which may of course be in motion wrt it's own background.

Maxwell's 'domains' are only valid for each of those local frames. As soon as a 'transformation' (LT or GT) between frame is required they are invalid.

The big difference here is that we can now assign a frame' the mutually exclusive 'space' envisioned conceptually by Einstein (1952) to finally complete his quest for a 'Local Reality' derived from a quantum mechanism. That mechanism is simply Raman scattering, co-incidentally found the year of his Leiden speech 1921.

Does that help clarify the meaning assigned to 'local frame? The word 'single' may be almost irrelevant, but importantly reminds us that there are others, indeed "infinitely many spaces in motion relatively"; (AE 1952)

Peter

Fred

Thanks. Most astronomical findings are unfortunately rather different to other experimentation, and interpretations also vary. I'd like to have predicted a precise 35.8344 'smarties' against the current 34.5 and IBIS constrained it to a range 35.75-35.9 but that's very rare. It's more about consistency of interpretations. It's easy to stick new patches on patches on patches every time the old theory breaks down. In my model none of the new findings need patches as they all fit perfectly into the ontological construction. Much is also now evidenced elsewhere. A quick 'Integral' list;

1. Re-ionized (plasma) quasar jets from toroidal (SMBH) AGN's, giving the Electron /Positron 'annihilation' emissions 'in warm gas'; "This suggests that they have travelled across the interstellar medium from the much hotter sites of their production. Their origin, however, still remains unclear."

2. Short wavelengths (hard X-rays and soft Gamma rays) due to detected jet ejection towards Integral, giving blue shifts up to gamma, but also red shift of receding jets. Common occurrence predicted; over 700 now found by Integral, many found as already known from longer wavelengths (and as 'radio lobes').

3. Pulsars predicted as passing 'flashes' from helical (due to precession) 'ranging' jets. Consistent with findings (see my Fig 1 Centaurus A).; "baffling type of HMXB discovered...supergiant fast X-ray transients (SFXTs)." and "The origin of the outbursts in SFXTs is still debated, but is possibly linked to the accretion process that powers these X-ray binaries." Actually fully consistent with galactic disc accretion to AGN and jet emissions as paper describes. Non supernova GRB's are also consistent with this model, but currently characterised; "These bursts are tell-tale signals from the most powerful explosions in the cosmos; some of them are believed to be linked to supernova explosions and others to the merging of two neutron stars."

But now also; "Over 250 of the extragalactic point sources detected with INTEGRAL have been identified as active galactic nuclei (AGN). These are galaxies hosting a central, supermassive black hole that is actively accreting matter; the accretion process causes AGN to radiate profusely across the electromagnetic spectrum." Precisely as the 'discrete field model' (DFM) predicted.

4. The models basis of atomic scattering to the lower wavelengths (higher frequencies) from AGN's is confirmed, but gives a more consistent interpretation than; "The hard X-ray energy band is particularly important for the study of AGN since the emission at these energies is dominated by non-thermal emission mechanisms. An example is the Compton scattering of lower-energy, soft X-ray photons, which are released by the accretion disc that feeds the supermassive black hole and later bounce off electrons in the surrounding plasma, gaining energy in the process. Emission from AGN in the soft gamma-ray band is also crucial to study the powerful jets of relativistic particles that stem from the vicinity of the supermassive black hole."

5. Similarly fully consistent; "By comparing the CXB (X-Ray CMB) to the stacked emission of a sample of nearby AGN as detected by INTEGRAL, a team of astronomers has demonstrated that the CXB consists of the cumulative X-ray radiation emitted by all unresolved active galaxies."

6. I also discuss re-polarisation of the recycled accreted material from the 2nd Intro paragraph, including Chirality, (handedness), and it's cause. I also characterised the Crab nebula core as a smaller scale version of an AGN, fully in line with the Crab nebula findings; "The polarised component of the nebula's emission, revealed by INTEGRAL, appears to be aligned with the rotation axis of the pulsar, thus demonstrating that gamma rays are emitted in the vicinity of the central source - and possibly by the jets that stem from it." also other sources are confirmed as similarly polarised, (from the quasar emission process). The finding of no polarisation delta across f also 'defied current thinking'.

7. Propagation of all frequencies equally at c constraining Lorentz violation is predicted and confirmed. The model suggests a quantized gravity basis of the free electron oscillation wavelength. The maximum length scale is found consistent by Integral at below 10^-48m. Interpretations such as that of accretion between binary stars are suggested as arising from poor understanding, but that proof is yet to emerge.

These are 'layman' characterisations as requested. Many are noted with others (from Ibex, Sauron, Cluster etc.) in a further paper. You'll note the Corda/Schild essay now also has many consistencies. The paper is twice rejected so far as the ontology is rather inconsistent with current theory. Well that I can't deny.

I you know any more courageous editors do let me know. One joint paper with just hints of one aspect has got through and is out soon, so may be a start.

Best wishes (do let me know if you understood the above or found it nonsense). Thanks

Peter

Jayakar

I recall reading your essay, and like your post I recognised almost all the words, but could glean no meaning from the way they were arranged. I did try to unravel them in my mind and found the odd phrase I could agree with, but still couldn't find any coherent reality. You'd need to start from the beginning, step by step, or give an axiomatic basis.

I didn't comment on your blog as I could find nothing intelligent to say about your essay, and don't just discuss mine on others blogs. It seems we may arrive at the similar fundamental conclusion of a matter recycling model, though I only refer to that in my end notes this year. However, I can't yet see at all how you arrive at a similar conclusion.

If you do read other essays I'd be happy to discuss how my model does so via it's underlying mechanistic basis. Perhaps any commonality may then be exposed.

Best wishes

Peter

Doug,

My previous 100% agreement with almost all of the theoretical basis of some relevant sections of the kinetic aspects your theory, still stands. I have however so far been a little disappointed not to have received the toffee apple.

If you'd like to read my ontology and can understand and assimilate the logic of any 3 of the 8 wrong assumptions identified, taking you to stage 1, you will be offered three balloons and a free imaginary roller coaster ride, which will continue infinitely until you call 'ARETTE'.

I believe you'll then find the consistency of that with reflection from moving mirrors, and with the surface magneto optic Kerr effect (SMOKE) when integrated with your CIG, to give the CIG-ARETTE effect. I look forward to your achieving that (you may ask as many questions as you wish). I hope to see you at the draw for the chance at stage 2. (If you get 4 of 8 first time round you go straight though).

Best of luck

Peter

doug,

It'd be a first! My money's on max 4. But it does depend on how thoroughly your brain cells have been pre-programmed with nonsense.

I don't accept the concept that the balloon gets out of sight. It always stays in sight, but the limits of our capability to identify it from the clutter with the kit we've evolved are very low. My screen wallpaper is the Hubble extreme deep field image. It's 'in sight' each night, but I need the HST and my computer to discern it. The balloon in then always in sight.

(Except when it hides behind something or I turn away). But when we ALL turn away there IS no balloon any more as we know it, just a few more waves waiting to be collapsed into a balloon by some lens and brain.

Congratulations on deciding you're going to be a physicist. I'd have advised against it, but what do I know? Someone has to do it. (eventually). I just hope your brain doesn't get filled with all the wonderland mumbo jumbo, voodoo and technobabble that makes most fail (and beware of the Wiki witch!)

No-one had told me Coney Island was once in Kansas. It explains a lot.

Best of luck. Do report in.

Peter

doug

Sounds wise. As physics, like f and lambda is inverse (or something ...verse anyway) then it seems the only chance we get to escape the trickery and do it sensibly may be Haloween.

Over to you then!

Have you reached 4 yet? You are allowed to write them down and rehearse them.

Peter

Pentcho

I gather the Wiki page on emission theory has been improved, but it seems all the examples only disprove it. Perhaps you may post some others there to give it balance? Please update me on your refutations of the proofs of the list there; http://en.wikipedia.org/wiki/Emission_theory#Refutations_of_emission_theory

You may recall the DFM supports emission theory locally (within the near field as far as the TZ) though that may be as short as nanometre scale for small masses (localisation).

Fresnel refraction becomes Fraunhofer beyond the TZ where Snell's Law is violated, because speed c is modulated to c' by re-emissions at the boundary.

Peter

Juan

Very kind, thanks. There are more implications than first appear, resolving many anomalies throughout science.

My take on the cosmological constant, expansion and redshift is that they seem to resolve as the resistance of dark matter and/or the dark energy field, plus a slowing expansion in the exact scaled up model of re-ionized quasar jet matter evolving into an open then closed spiral galaxy. The anistropic flow, 'axis of evil', helical CMBR asymmetry etc. all follow that pattern. Interesting web archived paper here; http://vixra.org/abs/1102.0016

Einstein went back on it, then regretted doing so later, but it's meaning still seems poorly understood.

On QM. He wanted to 'unify' classic and quantum physics, searching for the 'Local Reality' that Bohrs QM couldn't give. As it was he who invoked the 'light corpuscle' he was frustrated he couldn't find how the 'quanta' and it's mechanisms resulted in the classically observed effects on which he based SR and GR. If fact the answer was simple (though we're still too simple to see it). He 'threw out the baby with the bathwater' disassociating SR with ether. He only needed to throw out the 'absolute' part. The dark matter particles are NOT all in the same 'absolute' frame, and it is they which constantly localise c.

I say "we forget reality" when we abstract to algebra and maths. Frequency is NOT a physical reality, thought it is the 'observable' it's only a time derivative. Wavelength is the real scalar, so it is distance that changes on 'transformation' of two 'peaks' into a moving medium over non zero time. So detection is a NEW Doppler shift case deriving a new wavelength Lambda, with frequency f as the inverse of lambda. As c = f*Lambda c is then co-variant in the new discrete field. The model (DFM) couldn't be much simpler!

I'm no mathematician so have never fully understood Reimann's system. I agreed with Charles Dodgeson before I ever knew he was saying anything about maths. The Cartesian system can't model the effects of evolution of interaction due to motion, because motion is an invalid concept in geometry and so also 'vector space'. If you could apply Riemannian space to mathematically continuous spontaneous localisation (CSL) at all matter particles that would be brilliant. Is that possible?

But the process is turbulent so maths has Navier-Stokes limits. The 'frame boundary' process of 'hydrodynamic coupling' within multi particle systems has just been confirmed as consistent with DFM dynamics but also turbulence and with Kelvin-Helmholtz instabilities, by the latest Cluster Probe findings; http://sci.esa.int/science-e/www/object/index.cfm?fobjectid=50977

Did you also look at the 'shock' cross section in Rich Kingsley-Nixey's essay fig 2? It's a very important re-interpretation.

Peter