On Friday, May 4, 2018 at 4:22:47 AM UTC, Bruce wrote: > > From: <[email protected] <javascript:>> > > > On Thursday, May 3, 2018 at 11:52:00 PM UTC, Bruce wrote: >> >> From: Brent Meeker <[email protected]> >> >> >> On 5/3/2018 4:03 PM, Bruce Kellett wrote: >> >> The problem, of course, is that this unitary operator is formed in the >> multiverse, so to form its inverse we have to have access to the other >> worlds of the multiverse. And this is impossible because of the linearity >> of the SE. So although the mathematics of unitary transformations is >> perfectly reversible, measurements are not reversible in principle in the >> one world we find ourselves to inhabit. >> >> >> I think we need a more precise term than "in principle" which could >> confuesed with "mathematically". You really mean reversal is >> *nomologically* impossible even though it's *mathematically* >> reversible. It's more impossible that *FAPP* or *statistically* but not >> *logically* impossible. :-) >> >> >> Not doable "in principle" just means that there is no conceivable way in >> which it could be done. It is not just a matter of difficulty, or that it >> would take longer than the lifetime of the universe. It is actually >> impossible. Quantum mechanics does not imply that all things that are >> logically possible are nomologically possible, or could be achieved in >> practice. That is why Saibal's claim that there exists a unitary operator >> that does what he wants is rather empty -- there are an infinite number of >> unitary operators that are not realizable in practice. And this limitation >> is a limitation "in principle". >> >> Bruce >> > > *If you take the view that quantum reality is irreducibly random, it MEANS > that there is no process in nature that can explain how a random event > could occur, for if such a process existed, it would contradict > "irreducibly random". Bruce seems to take the view that all measurements > are irreversible in principle. That might not be true. For example, suppose > the temperature of a system decreases. Isn't it hypothetically possible to > imagine a time reversal of all the IR photons which caused the cooling, to > reunite with the original system and restore the previous higher > temperature? If so, the cooling process in this example is reversible > albeit hugely improbable -- which I refer to as statistically reversible, > or irreversible FAPP. I think Bruce can give an example of a measurement > which is time irreversible in principle, that is, impossible to time > reverse. AG* > > > Classical situations involving the second law of thermodynamics > (increasing entropy) are reversible, though reversal is improbable because > the second law is statistical. The situation in quantum mechanics is > different when we have a measurement with several different possible > outcomes. In MWI these outcomes are in different branches, and we cannot > reach into these worlds to reverse things there. Decoherence in this branch > is certainly statistical, and so it is in all branches, >
*So why don't you draw the obvious inference? If those other worlds don't exist -- which if I can read English has been your passionate position all along -- then quantum measurements in this world, the only world, are statistical and hence NOT reversible in principle. AG* > but it is different in each branch of the wave function, so reversing this > branch does nothing for the others, and does not restore the original > superposition. Thus the process is irreversible in principle (nomologically > irreversible -- to reverse violates the laws of physics). > *But if those other worlds don't exist, it makes no sense whatever to rely on them to establish irreversible in principle in this world (as distinguished from statistically irreversible or irreversible FAPP). It seems you want to have it both ways; that many worlds really don't exist. but quantum measurements in this world are irreversible in principle due the existence of many worlds. AG* > > Bruce > -- You received this message because you are subscribed to the Google Groups "Everything List" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To post to this group, send email to [email protected]. Visit this group at https://groups.google.com/group/everything-list. For more options, visit https://groups.google.com/d/optout.
