- #1
vrghost
On the way into work this morning, happily reading my book (Leviathan Wakes, would suggest it to any sci-fi space opera fan) and there was a passage that read along the lines “they reduced acceleration to sustain a 1g force during the meal” or something along those lines. Its something you often read in books where authors have decided that future spaceships will use acceleration to generate gravity, and clearly that is an option.
So ignoring all the engineering factors, humanity has access to the anti super kung-fu kickass particle that can provide loads of energy indefinitely and they got an engine even more kickass than Chuck Norris. Actually, it is so cool that it can deliver 10 CNU (Chuck Norris Units). Also to have something to work with, from standstill, 1 CNU will provide acceleration equal to 1 G.
Also, to start with, we say that gravity from planets have no impact at all, and that no power is required to sustain speed (will get back to this later)
With these rather general statements, and I am sitting completely still in the space, and I decided to generate 1 G so I could drink my coffee comfortably, I just turn up the power to 1 CNU. But my question is, would 1 CNU of energy continuously give my spaceship 1 G, or would I have to increase the power as my acceleration increases. If the later, would this be just as I am approaching the speed of light, or would it be noticeable pretty much instantly?
The next questions (the ones I said I would get back to) is, would it be true to say that in space, ignoring the occasional particle, would an object accelerated sustain its speed indefinitely or does my ship have to use some of its energy to sustain the speed?
Last question, does the speed of an object impact the amount of gravitational pull an external object will have, so let's say I am going close to a moon, will the amount of pull differ if I am doing it at 0.01 c or 0.1 c
So ignoring all the engineering factors, humanity has access to the anti super kung-fu kickass particle that can provide loads of energy indefinitely and they got an engine even more kickass than Chuck Norris. Actually, it is so cool that it can deliver 10 CNU (Chuck Norris Units). Also to have something to work with, from standstill, 1 CNU will provide acceleration equal to 1 G.
Also, to start with, we say that gravity from planets have no impact at all, and that no power is required to sustain speed (will get back to this later)
With these rather general statements, and I am sitting completely still in the space, and I decided to generate 1 G so I could drink my coffee comfortably, I just turn up the power to 1 CNU. But my question is, would 1 CNU of energy continuously give my spaceship 1 G, or would I have to increase the power as my acceleration increases. If the later, would this be just as I am approaching the speed of light, or would it be noticeable pretty much instantly?
The next questions (the ones I said I would get back to) is, would it be true to say that in space, ignoring the occasional particle, would an object accelerated sustain its speed indefinitely or does my ship have to use some of its energy to sustain the speed?
Last question, does the speed of an object impact the amount of gravitational pull an external object will have, so let's say I am going close to a moon, will the amount of pull differ if I am doing it at 0.01 c or 0.1 c