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zeromodz
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I mean how would we ever do it in the first place? What rockets or propulsion units would we use?
mgb_phys said:It doesn't affect measurements you make in your own reference frame.
You wouldn't notice getting shorter, more massive, slower - only an outside observer would.
That's rather the whole point of relativity.
Well, it's untold centuries in the future, so the technology we'll use is going to be even weirder than anything we could dream of.zeromodz said:I mean how would we ever do it in the first place? What rockets or propulsion units would we use?
Since there are no constraints on imagining how we do it, I would guess that, if/when we manage to do this, it will be bycfrogue said:How much fuel is this? The next chart shows the amount of fuel needed (M) for every kilogramme of payload (m=1 kg).
d Not stopping, sailing past: M
4.3 ly Nearest star 10 kg
27 ly Vega 57 kg
30,000 ly Center of our galaxy 62 tonnes
2,000,000 ly Andromeda galaxy 4,100 tonnes
DaveC426913 said:Since there are no constraints on imagining how we do it, I would guess that, if/when we manage to do this, it will be by
a] not having to bring our fuel with us
b] using something more efficient than "primitive" total conversion of mass to energy.
DaveC426913 said:Since there are no constraints on imagining how we do it, I would guess that, if/when we manage to do this, it will be by
a] not having to bring our fuel with us
b] using something more efficient than "primitive" total conversion of mass to energy.
cfrogue said:How silly of me.
Atyy already has this figured out.
We start out at 0.99999999999c and we do not need to worry about all this.
Sometimes, the answer can be so simple.
cfrogue said:I vote for the no fuel option and pick up random particles in space, ...
lots of them.
Matterwave said:Only problem with that is the interstellar medium is oh so sparse...you'd need a catching tool on the order of Astronomical units across just to get a few particles.
The interstellar medium is a much better vacuum than any vacuum we've ever been able to create on Earth.
I suppose you could just boost off each star system tho. Aim for one star system at a time, and bring enough fuel for ~10 Light-years of travel.
DaveC426913 said:OK, all seriousness aside, I'm pretty sure the point of pushing c is to get some distance from Earth.
atyy said:mgb-phys and I answered when the original question was: would traveling near the speed of light Lorentz contract our organs and kill us?
atyy said:mgb-phys and I answered when the original question was: would traveling near the speed of light Lorentz contract our organs and kill us?
atyy said:mgb-phys and I answered when the original question was: would traveling near the speed of light Lorentz contract our organs and kill us?
What??cfrogue said:The born thread shows our organs would expand during acceleration.
DaveC426913 said:What??
DaveC426913 said:When was that the original question?
cfrogue said:?
the born thread recently shows during acceleration, all expands in the accelerasting frame.
DaveC426913 said:Is English not your first language? That's not even a sentence.
zeromodz said:I mean how would we ever do it in the first place? What rockets or propulsion units would we use?
cfrogue said:hear is the thred
https://www.physicsforums.com/showpost.php?p=2443198&postcount=36
please make sure you read ther paper
DaveC426913 said:What are you telling me? That this thread is a continuation of that thread? Is that what you mean when you say "born thread"? Am I the only one here that did not know there was a previous thread?
cfrogue said:No, I was telling you acceleration under SR expands the internal metrics of the accelerating frame.
Matterwave said:This makes no sense. SR is a theory that is devoid of accelerating reference frames, and only considers inertial reference frames, that's why it's Special. You mean GR?
The speed of light is approximately 299,792,458 meters per second, or about 670 million miles per hour.
No, according to Einstein's theory of relativity, it is not possible for any object with mass to reach the speed of light. As an object approaches the speed of light, its mass increases infinitely and it would require an infinite amount of energy to reach that speed.
Aside from the limitations of Einstein's theory of relativity, there are also practical and technical challenges that make traveling at the speed of light currently impossible. The energy required to propel an object to that speed is immense and our current propulsion technology is not advanced enough to achieve it.
Yes, there are ongoing studies and research being conducted to explore the possibilities of near-light speed travel. Some proposed methods include using antimatter or harnessing the power of black holes. However, these are still in the theoretical stages and would require significant advancements in technology to become a reality.
If it were possible to travel at the speed of light, it would revolutionize space exploration and transportation. It would significantly decrease travel time between distant locations in the universe and could potentially lead to new discoveries and advancements in science and technology. However, there are also potential risks and dangers associated with such high speeds, such as collisions with debris or radiation exposure.