Long combined reply was typed, but it is horribly long-winded. So Ctrl-A, Ctrl-X, and start again.
Bremen: I'm not assuming a universal standard, I was dealing with subjective impressions of time. The only standard I've assumed in the examples is that a given space-time location in each Frame was once coindicent (and, as far as I can tell
every frame has such points, here they're Earth and the now retreating Space-Ship who share such a heritage point at Earth at the time of launch) and thus a usable datum point. A different location in the same frame has different impressions. If we accept an observer on Pluto is in Earth's frame, for all intents and purposes, the ship passing (or, conversely, travel even more distantly away) can still be observed to have slower time but there's different response-times and differently accounted-for adjustments for the time-delay of information (SoL or FTL). Ditto in reverse.)
And Doppleresque effects (you didn't name it, but I think you think I was describing it) is something different, and not a part of the equation. Compare this with an object retreating (or being retreated) from another, reflecting a signal off of it and getting a doubly-Dopplered signal back to measure. Under non-relativistic circumstances the "bounced-from" party can work out what frequency the other should be able to measure. In the example, one party measures the return-time and the other party calculates what they think it should be, and yet they find (when communications about that particular cycle can be finalised) that they disagree.
I didn't think I'd even referred to a ship
approaching the Earth at relativistic speeds (it was always an outbound mission, in my head) but I did make similar calculations for such a second example (that I decided not to post) and perception of time (by
each party, regarding their counterpart) was identically asymmetrical. Yes, two-way communications would be more frequently replied to, but the apparent time that any particular 'bounce' took was still reported as slower than the 'stationary' party (i.e. alternate observer) would nominally have believed to be the case.
Osmosis (loved your film, BTW...), I perhaps gave imaginary (and complex) numbers short-shrift. But I wasn't saying that they didn't have a
use, but just that people (regular people; I definitely should have added electrical engineers to the physicists and maths bods I mentioned, though, even though they generally use a different letter for it
) don't get to use them in everyday life, and a lot who do 'use' them have them being calculated (or pre-calculated) on their behalf without needing to concern themselves with the specifics. Consider myself chastised at this and any further omissions, in this field, however.
Palsch, the delays I was indicating I
was indicating as already assumed. Given instantaneous responses in the example (that I think you're referring to), it was measurements
of the delays inherent in the SoL (or, as it was, 1.5c) communications, but the disagreement was between the perceptions of said delays. Some might say "double-blinded" by the fact that it was a sum total of two separate legs of the journey (to each observer, one leg in which the distance was from a definite point of the retreating opposite number, and one leg in which they themselves were sending a signal to 'catch up' with the other... but in a different order), the sum total of which is then compared and found... different. If I have confused matters (or "have matters confused"), apologies.
However, on to something that is rather more of an apology: Your newly extended quote has explained one thing to me. Whether by misreading or not reading or (as you surmised, correctly) me not actually going to the full link, I did not fully comprehend the 'space' axes for what they were. Last night I'd realised that the strange blue diagonal line (along which Q->R travelled) existed, behind the given red line in Diagram 2. I realised this only as I was GIMPing those first two images to demonstrate my own thoughts. Prior to this, I had thought that the white horizontal was the "equivalent now" line, then I switched to the viewpoint that actually the blue line more agreed with an "It is <x> O'Clock" shared impression. As such, I had a rearranged version of Diagram 2 which looks (with such displaced time-cones) very much like Diagram 4, except with a 'ladder' of times[1], only with one on the left being "event P+R" and its linked to one on the right being "event Q". (Won't bother posting these various images, their original purpose has been rather overtaken by more recent understandings.)
Anyway,
this was by way of being a "I have one end of a communication system, you have the other" bidirectional link, in diagram form, where communications occurred so that t
Alice==t
Bob.
I do see now that an
independent and unidirectional sending of a signal by Alice to "Alice's now, but elsewhere" (same time, different place, in the white timeframe), that is aimed at Bob, and a signal by Bob to "Bob's now, but elsewhere" (ditto, but on the blue), aimed at Alice, gives this disjoint. In the original snippet about the issue I never did derive that particular aspect. But I've always been imagining instant communication as being by an artefact system (entangled particles/whatever).
Makes me wonder if you could get an entangled transceiver to the point in space-time that Q represents (and which is connected to one that stays on Alice's time-line, i.e. through both P and R) without the full relativistic effects that Bob has experienced. If not[1], then I think I could state that the T(Alice)@R == T(Bob)@P, but I have doubts. A secondary consideration, of course, is that this is just diverging frames[3].
It
still leads to complications when Bob adjusts his velocity so that his absolute position (not including time) in his adopted frame of reference is now
converging again with Alice's absolute position (ditto) in hers. Because such a communications device that Alice has already given to Bob before his original travelling is now capable of sending to the "same here, different now".
Actually, it's Bob that can cause the real problems (assuming it's not Alice using it as a spy-glass), because he has the "less aged" one (in the simpler example of the Twins' Paradox domain) and thus when he arrives back at Alice he can communicate with Alice at the point before his arrival.
(But, regardless, he cannot communicate to Alice prior to his original departure, and there will be significant time throughout Bob's journey that his information to Alice cannot possibly include any knowledge that Alice does not already know. He has to re-enter Alice's device's light-cone (originating on the timeline point at which her artefact has the same age as his does "in the future") before there's a potential for temporal loops that need to be explained away as either "feedback until steady", fully flip-flop the universe(s) or plain "can only exist at all if they don't cause issues". But that's back to the philosophy of temporal mechanics, in lieu of some actual practical experience with such potential paradoxen.
)
Being again limited by time (none of the day just passed has been able to be used to read, so I am freshly reassessing this latest correction, and I've only just rushed through this thread) I'm not anywhere near a position to respond to all the other good points. Including the Relevant Maths spoiler, which looks Ok at first sight, certainly.
(And, yes, the first attempt at response was
far longer than this. I am notably useless at making an understandable summary, and imagine that this
cut version is no exception to this rule.)
[1] Not relevant, but based upon the dimensions and given times for the events, I worked out that Bob and Alice's times and places would have agreed at between 4AM and 5AM that morning. So they could have still been together well past midnight.
[2] And right now my mental arithmetic isn't clicking into place enough to work out the total dilation of, say, a journey to Q from a space-time point twice as far back along line A as the A/B origin is from R. Half the speed, but takes longer. Normally I'd say it was equivalent, but it's by no means linear.
[3] A tertiary thought is regarding a device-pair set up significantly early in Alice's history so that while one half retained until Bob departs, the other half is sent in advance to be retrieved by Bob at space-time location Q. This shares very many similarities with the situation of Bob returning his half of a particular pairing to a point where Alice can directly compare it with her retained example. And one further reason for me to doubt that "it all works out the same in the end", regardless of which frame(s) of reference the items take (and here I'm talking of magnitudes of velocity that are relativistically distinct, yet still sub-lightspeed) to get from one point in spacetime to another.
In fact, if we fully take Bob's away-from-Alice frame and his towards-Alice frame as distinct aspects, this actually
closely relates to the
original description of "three different observers having three frames" giving the opportunity for temporal anomolies. So... I suppose I have managed to persuade myself that the originally doubted phenomena exists after all. QED?
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Topic: CERN has accidentally the everything. (Read 65131 times)