Originally posted by Anthony:
</font><blockquote>quote:</font><hr />Originally posted by Space Cadet:
Einstein's equations allow for Tachyons, there is nothing in them that allow for a reactionless drive.
Actually, there are various constructed metrics that allow for reactionless drives. They just involve impossible materials such as negative energy densities (negative energy densities are a convenient way to group impossibilities, because they're also necessary for just about all FTL drives, and for that matter tachyons are likely to have negative energy...).</font>[/QUOTE]If the energy of a vacuum averages zero, that does that mean?
If negative energy is impossible, it is also impossible for a black hole to shrink or to radiate Hawking radiation.
Its funny that I get all this modern physics/quantum mechanics and then I encounter these expert opinions that act as if all particles in the Universe are like billiard balls. For example, the simplest atom is a hydrogen atom, a classical interpretation of an atom is that of a nice round proton with a nice round electron in orbit around it.
Black hole shrinkage is based on the premise that space is filled with virtual partical pairs.
Funny how I take one implication of quantum mechanics only to have Anthony say, "no you can't do that!"
I say, "Well black holes can shrink."
and Anthony would probably say, "well blach holes are special, negative energy exists for them so they can shrink, but negative energy does not exist for you and I so we can make tachyons, or build time machines."
That is the problem with quantum physics or so it seems to me. When you study classical mechanics, you can apply it down the line consistantly and logically, but when you apply quantum mechanics, you have to ask an expert for each instance, and if he figures that if it is something "billiard ball partical obeying classical rules, cannot do, then it must be impossible."
It would seem that Traveller starships would not need fusion reactors or to fuel at gas giants, as they only have to extract negative energy from the vacuum while spewing out positive matter and energy as a waste product.
One can make a rather neat vacuum energy rocket this way.
Originally posted by Anthony:
</font><blockquote>quote:</font><hr />Unlike you Anthony, I believe there are degrees of plausibility. I think the existance of tachyons is more plausible than the existance of God for example.
There are degrees of plausibility. Below a certain point, however, it really doesn't matter. </font>[/QUOTE]The question is where is that point?
If I'm going to have time machines in my campaign, I'd like them to obey certain rules consistantly. By combining a wormhole with a warp drive, one can make a time machine. You'd need the Wormhole to anchor the time machine to a base reality whose history does not change, and you need the warp drive to exceed the speed of light. The warp bubble encloses one end of the wormhole, while the other end is left on Earth. The Warp drive creates a pseudo-motion that accelerates the ship beyond the speed of light, this would be equivalent to parts of the universe that are receding from us at faster than the speed of light due to spacial expansion. Because there is a red shift, there is still time dialation. The Warp ship can go out some distance and return to Earth some time before it left, then the chrononaut can step through the wormhole and explore Earth's past, or at least an alternate history of the past with time travellers in it. The flow of goods and people through the wormhole must roughly balance in both directions over time, otherwise the imbalances cause the wormhole to collapse. For instance if a time traveller is going to step into the past through a wormhole, it would be a good I deal to pump some water through pipes equivalent in mass to the time traveller back into the future. The limiting factor in such a time travel campaign is that wormholes aren't cheap to make.
