h a l f b a k e r yResident parking only.
add, search, annotate, link, view, overview, recent, by name, random
news, help, about, links, report a problem
browse anonymously,
or get an account
and write.
register,
|
|
|
|
Not exactly. You see, what with all the virtual particles, some of them are bound to be going the right way. |
|
|
It would work, as long as you didn't care how long it takes you to get anywhere. |
|
|
Due to conservation of energy, you'll get no more forward momentum than the energy you've put in via the laser. Which you'll need that reaction mass to power. |
|
|
You also forgot the Uncertainty Principle. If you fire a laser at a small object you will affect its velocity, usually by deflecting its path, so it won't necessarily be travelling 'your way' any more. |
|
|
Ah, but if you do that then you gain some momentum. And only if it ends up going completely the wrong way do you lose momentum via the magnetic field. |
|
|
[+] Sounds like Maxwells Demon put to good use. |
|
|
Ford Prefect's electronic thumb? |
|
|
I could power the laser with a solar pannel. |
|
|
Conservation of momentum is quite clear. If a particle moving towards you has its momentum changed in your direction by an amount, then your momentum will change by the same amount. (Provided there is nothing else nearby to absorb the momentum). Does seem to be a problem with conservation of energy. I'll think about it. |
|
|
Maybe it would be best to just zap everything behind you with the laser, and forget the field. At least you still won't have to carry actual reaction mass. |
|
| |