Faster than light travel proved sort off

[mark_gg]

I was laying in bed and a thought came to me. I am sure this has been explored already so I wanted to know what the answer was as my physics is limited as I study biochemistry. I have a feeling this is related closely to general relativity, but again maybe someone could clear this up for me... thanks

Ok, so its clear there are no fixed referance points in the universe, as in... movement is a meaningless concept unless related to another object. hopefully makes sense. I came to this conclusion because GPS satellites work by timing the time a radio wave bounces off the earth, so if we were 'moving' the speed of light would be different depending on what direction you was headed... but of course 'direction' again is a meaningless concept. I did google this and it seems this is a consensus.

So, there must be a point on the otherside of the universe (for example) where the stars are moving at faster the speed of light (in relation to the earth) perhaps across our path,,,, but so far away we may not even be able to detect it. I think this is a reasonbbale conclusion?

So... doesn't this mean that faster than light travel is possible.. because speed is a completely meaningless concept? right?

So in theory (ignoring the fuel needs, and maybe fear of banging into objects floating around in the solar system) why can't we just get in a rocket, hit the accelerators and the speed will just increase theoretically into infinity (in relation to the Earth of course). There is no limit to the speed we can reach because again.. speed is meaningless. I am aware that apparently nothing can travel faster than light, but how does this fact take into account what I am saying (that speed is meaningless as there are no referance points to go from)

Im fascinated to know if this idea has been tested, and if there is any experimental evidence suppotying/disproving this idea.

Thank you.

 

[Pengwuino]

This is the issue Special Relativity deals with. Infact, the speed of light is CONSTANT in every reference frame. If you were on a train going half the speed of light and shined a flashlight forward, the light would travel at the speed of light. Similarly, someone who was simply watching the train pass by would also see the light traveling at the speed of light!

That doesn't mean speed is an irrelevant concept. There is simply no preferred reference frame for there to be a preferred speed measurement. If said train in the previous example were to be traveling by me, my frame of reference saying that the train is traveling to the east, for example, is no more correct then the person on the train in his frame of reference saying that I'M traveling to the west at the same speed the train is going (only in the other direction...)!

Also, when you look at the idea of just accelerating infinitely quickly, that's not possible. Velocities do not add up like we expect them to do out of every day experience when it comes to relativistic speeds. They add up (See the FAQ's) in a way that you never reach the speed of light.

 

[JesseM]

Also, when you look at the idea of just accelerating infinitely quickly, that's not possible. Velocities do not add up like we expect them to do out of every day experience when it comes to relativistic speeds. They add up (See the FAQ's) in a way that you never reach the speed of light.

Relativistic velocity addition is discussed here, and also see the http://math.ucr.edu/home/baez/physics/Relativity/SR/rocket.html page, which explains how a rocket with constant proper acceleration (constant G-force as felt on board the rocket, or equivalently constant rate of acceleration in the rocket's instantaneous rest frame at each moment) will never reach the speed of light since in any fixed inertial frame its coordinate acceleration will be decreasing.

 

[Frame Dragger]

Could he be thinking of blueshifting and recession velocity and be mixing them up, or is he just firing blanks in the dark?

 

[Matterwave]

Speed is not meaningless. It's only meaningless if you assign it to a particle with no frame of reference in mind. E.g. The statement "I'm traveling at 90mph" is technically (and rather pedantically) meaningless because the statement does not say what I'm traveling relative to; however, it is assumed I mean I'm traveling relative to the Earth's surface. If that is the case, then the statement "I'm traveling at 90mph (relative to Earth's surface)" IS a meaningful statement.

Therefore, the maximum speed limit of light speed IS meaningful in that you can never travel faster than the speed of light in ANY reference frame.

 

[Frame Dragger]

Speed is not meaningless. It's only meaningless if you assign it to a particle with no frame of reference in mind. E.g. The statement "I'm traveling at 90mph" is technically (and rather pedantically) meaningless because the statement does not say what I'm traveling relative to; however, it is assumed I mean I'm traveling relative to the Earth's surface. If that is the case, then the statement "I'm traveling at 90mph (relative to Earth's surface)" IS a meaningful statement.

Therefore, the maximum speed limit of light speed IS meaningful in that you can never travel faster than the speed of light in ANY reference frame.

If the statement then commutes to: "I'm traveling at 90mph (realtive to the people screaming and pointing at my Toyota)"... and yes, I am just kidding.

 

[mark_gg]

Thanks all for helping out with some things, but I still got few problems...

There will surely be objects out there in relation to Earth moving faster than light. Perhap a distant galaxy just floating about. Maybe even so far away we can't detect it and ever will. How does special relativity deal with this. I've heard something along the lines that it may appear to be moving faster, but time will slow down so it is as if it were moving at the speed of light nd not faster.. is this correct?

Also on acceleration... if speed only has meaning when releated to other bodies, how is there a limit to acceleration? Because it doent matter when you accelerate, you are not really moving anywhere at all, as there are no frames of referance in the universe, except relative ones.

So... does specil relativity mean that nothing can move faster than light relatively to objects, because if the try they literally slow down time from the point of view of an external observer? Is this right? and if so, is there any experiemntal or observational evidecne for any of these ideas?

Thanks.

 

[JesseM]

There will surely be objects out there in relation to Earth moving faster than light. Perhap a distant galaxy just floating about. Maybe even so far away we can't detect it and ever will. How does special relativity deal with this. I've heard something along the lines that it may appear to be moving faster, but time will slow down so it is as if it were moving at the speed of light nd not faster.. is this correct?

Why do you say "surely"? In special relativity nothing would move faster than light from the perspective of an inertial frame, no matter how distant. In general relativity the question is more complicated, defining the "speed" of anything requires you pick a global coordinate system (so you can define distance/time), and there's no special class of global frames which are picked out as special by the laws of physics like inertial frames in special relativity. However, in GR the http://www.aei.mpg.de/einsteinOnline/en/spotlights/equivalence_principle/index.html says that in any small region of curved spacetime, an free-falling observer will measure the same things that she would if she were moving inertially in flat spacetime, using a "locally inertial coordinate system". So, the speed of light as measured in a locally inertial coordinate system is still always c in GR, and all massive objects are moving slower than c in this local sense. In global non-inertial coordinate systems in curved spacetime the coordinate speed of light can be other than c, but then it's true even in special relativity that if you use a non-inertial coordinate system the coordinate speed of light may not be c.

Also on acceleration... if speed only has meaning when releated to other bodies, how is there a limit to acceleration?

There is no limit on your rate of acceleration at any given moment, regardless of whether we're talking about proper acceleration or coordinate acceleration. However, you can't accelerate continuously in a way that would involve you passing the speed of light, because this would involve your energy going to infinity as seen in any inertial frame (and energy is conserved in any inertial frame, so this infinite energy would have to come from somewhere), and it would also require your proper acceleration to go to infinity.

So... does specil relativity mean that nothing can move faster than light relatively to objects, because if the try they literally slow down time from the point of view of an external observer? Is this right?

I'm not sure if that would actually explain why you can't accelerate to light speed...without looking at physical considerations like energy, it would be interesting to check whether it's possible to draw a curve in spacetime that reaches c in finite time as seen in some inertial frame, and also reaches c in finite proper time (time as measured by a clock moving along this curve, again ignoring issues like energy) or whether any curve that would reach c in finite coordinate time would also require infinite proper time.

and if so, is there any experiemntal or observational evidecne for any of these ideas?

There's plenty of experimental evidence for the SR time dilation equation, like longer decay times for particles accelerated to a large fraction of c in particle accelerator experiments. See http://www.phys.ncku.edu.tw/mirrors/physicsfaq/Relativity/SR/experiments.html#Tests_of_time_dilation from http://www.phys.ncku.edu.tw/mirrors/physicsfaq/Relativity/SR/experiments.html for papers on the subject, or the 'time dilation for particles' section near the bottom of this article from the page of the Stanford Linear Accelerator Center.

 

[mark_gg]

Again... I think I am not making sense. I am starting to understand this theory, but I am having a fundamental problem.

Forget relative points for a second. If I am in my ship and thrust in one direction, and than I do it again, and again, and again... this is not really movement at all, because the universe has no fixed point in space. It becomes what we call 'movement' the second we put it in the context of a reference point, e.g. a planet.

So I just don't understand why you would need infinite energy, or a advanced propulsion system to achieve this. You could put a ship the size of a petrol tanker in space, give it a crappy thruster, and just turn it on. If there is no resistance, or gravity acting on our craft than why a limit? I want to emphasise I mean from the perspective of the person/computer on the ship, not the space around them. If I pointed this ship at a star, and just kept the thrust going I could get there quicker than light... correct? (I accept when I reach there, time would have gone forward)

This is driving me crazy because people always reply I would need infinite energy to reach the speed of light but I keep repeating speed of light means nothing until it is related to another object so I am at a loss to how this makes sense. Right now we are all on Earth moving faster than light relative to a point in the universe, perhaps billions of light years away... how does this work?

 

[JesseM]

Forget relative points for a second. If I am in my ship and thrust in one direction, and than I do it again, and again, and again... this is not really movement at all, because the universe has no fixed point in space. It becomes what we call 'movement' the second we put it in the context of a reference point, e.g. a planet.

OK, suppose someone on a planet is watching you. If your thrusts are all identical from the perspective of the ship (i.e. same g-force, same period of thrust, etc.), then from the perspective of the observer on the planet, each thrust increases your speed by a smaller and smaller increment as you approach the speed of light (this follows from the velocity addition formula). So, no matter how many times you thrust, you never reach the speed of light from their perspective, nor from the perspective of any other inertial frame.

If I pointed this ship at a star, and just kept the thrust going I could get there quicker than light... correct?

Nope, from the perspective of any inertial frame you would always be going slower than light, and if an actual light signal were sent out from the starting point at the same moment you departed, the light signal would be guaranteed to beat you to the destination.

This is driving me crazy because people always reply I would need infinite energy to reach the speed of light but I keep repeating speed of light means nothing until it is related to another object so I am at a loss to how this makes sense. Right now we are all on Earth moving faster than light relative to a point in the universe, perhaps billions of light years away... how does this work?

You need to understand the concept of inertial frames of reference in relativity, which represent what would be measured by a grid of non-accelerating (inertial) rulers and clocks (as illustrated here). Each inertial frame measures the speed of any object in terms of distance on their own rulers and time on their own clocks, but it works out that if they each measure distance/time for a light beam, they will all conclude it is moving at c relative to themselves (for a numerical illustration of how ruler/clock systems moving at different speeds can both measure the same light beam to move at c relative to themselves, see [post=1561633]this post[/post]). This is why physicists talk about the impossibility of "moving faster than light" without needing to specify what the speed is relative to, because an object moving faster than light relative to one inertial frame would be moving faster than light relative to all inertial frames (and similarly an object moving slower than light in one frame is moving slower than light in all frames). Also, all inertial frames move slower than light relative to one another, so as long as we are talking specifically about speed as measured in an inertial frame, it's not correct to say "Right now we are all on Earth moving faster than light relative to a point in the universe" (though in general relativity where spacetime is curved, you can't have an inertial frame on a large region of spacetime where the effects of curvature are significant...but it's best not to try to understand that until you have a good grasp on how things work in special relativity where there is no spacetime curvature).

 

[russ_watters]

Forget relative points for a second. If I am in my ship and thrust in one direction, and than I do it again, and again, and again... this is not really movement at all, because the universe has no fixed point in space. It becomes what we call 'movement' the second we put it in the context of a reference point, e.g. a planet.

So I just don't understand why you would need infinite energy, or a advanced propulsion system to achieve this. You could put a ship the size of a petrol tanker in space, give it a crappy thruster, and just turn it on. If there is no resistance, or gravity acting on our craft than why a limit? I want to emphasise I mean from the perspective of the person/computer on the ship, not the space around them. If I pointed this ship at a star, and just kept the thrust going I could get there quicker than light... correct? (I accept when I reach there, time would have gone forward)

This is driving me crazy because people always reply I would need infinite energy to reach the speed of light but I keep repeating speed of light means nothing until it is related to another object so I am at a loss to how this makes sense.

You're contradicting yourself here, over and over again. How can you simultaneously be saying you can't measure your speed, yet at the same time think your speed is greater than the speed of light? You say speed has no meaning unless measured against a reference - yet you have a star to use as that reference! You can't have it both ways.

The answer to your conundrum is this: if you truly have no sensors to detect things outside your spaceship (which in reality would be silly because you'd never know where you were going), then the only thing you have to go on it the detection of your own acceleration. Thus, the point at which you started becomes the other frame of reference from which you track your acceleration and you find your speed by tracking that acceleration alone.

So now you have a choice: you can choose to ignore Relativity and just assume you're accelerating via f=ma or you can choose to track your acceleration using Relativity. If you use f=ma you may well get an answer bigger than C (in reality, no chemical rocket will get you anywhere close to C, but we'll let that go...)... So which is right? Or are they both right? The answer is that Relativity is right. If instead of just monitoring your acceleration you actually dropped-off a buoy before firing your engines and track it instead of the virtual starting point, you'd see that this is true.

 

[Mentz114]

mark_gg, I don't know if this article has been cited in this thread but it might help you understand what SR predicts for a constantly accelerating body

http://gregegan.customer.netspace.net.au/SCIENCE/Rindler/RindlerHorizon.html

 

[mark_gg]

I read more on this, and the FAQ and i gather that for the ship, it is possible to travel faster then light. But for outside observers, they would not be. The FAQ says it could take 12 years to get across the galaxy, from the point of view of the ship, but when they reach their destination thousands of years have passed.

Have I read it correctly?

 

[JesseM]

I read more on this, and the FAQ and i gather that for the ship, it is possible to travel faster then light. But for outside observers, they would not be. The FAQ says it could take 12 years to get across the galaxy, from the point of view of the ship, but when they reach their destination thousands of years have passed.

Have I read it correctly?

Although it's true the ship can cross the galaxy in a short time, you have to keep in mind that in the ship's inertial rest frame, the galaxy itself would be shrunk by a huge amount in the direction of travel (to less than 12 light-years in this example) due to length contraction! So, in this frame the ship does not actually need to travel faster than light to cross the galaxy in 12 years. As long as you stick to an inertial frame, the ship (and all other massive objects) will always travel slower than c.

 

[mark_gg]

So I was right all along and you guys just confused me with your charts. ;)

 

[schonovic]

this is related to something i have been wondering it is that what is to prevent the crew of a spaceship from being the stationary observer and seeing the universe's gamma factor as increasing as not the ship approaching the speed of light but the universe approaching the speed of light. if neither agrees then maybe the two just do not see each other. the light spread between each is just redshifted to that point. if the fabric of spacetime is elastic couldn't it compensate for the fact that you are traveling faster than light? the spacetime in front may rupture. wow i wonder where you would go?
wow i just look like a bumbling idiot on these posts.

 

[mark_gg]

I want to see an experiment done by NASA where they accelerate a rocket to as 'fast' as possible in the solar system and just see what happens. From the external observer I gather the speed of light will never be reached, but for the rocket it is possible (in relation to Earth). Than, turn it around communicate with Earth what it experienced, in terms of what happened to and perhaps a visual perspective of the surrounding universe and just some basic measurements.

In my head this sounds perfectly possible, and quite easy... so why hasn't it been done?

 

[HallsofIvy]

Well, I imagine that if you put up all the money, NASA would be happy to do it! But they are not going to spend a huge amount of their own money to verify something they already know just because you don't.

Force= mass* acceleration

acceleration= Force/mass.

If you just "turn on" your rocket as you suggested before, so that you are getting a constant force, you will have to take into account that the mass will increase- growing larger without bound as you go faster and faster. Since the mass (denominator of the fraction) is increasing while the force (numerator of the fraction) is constant, the acceleration will become less and less, eventually going to 0 as your speed approaches that of light.

 

[mark_gg]

I don't believe the mass will increase from the point of view of the ship as the universe lacks frames of reference so the 'speed' is only increasing if viewed from external observers. I also believe that in the ship, acceleration is like going from 0 every time it is applied. The FAQ seems to agree as it clearly stated you could travel the length of the galaxy in a speed faster then light, but only from the perspective of the ship. So

No need to be rude. Perhaps you are correct about Nasa not bothering, but I think it would be a fascinating experiment for people interested in Physics and would help to clarify a few of the inconsistencies of relativity, as some of the theory has not agreed with observations in space.

 

[Doc Al]

...and would help to clarify a few of the inconsistencies of relativity, as some of the theory has not agreed with observations in space.

What inconsistencies? Do you have references for this statement?

 

[Mentz114]

Accelerating at 1g it would take about a year to get near the speed of light wrt the Earth. The amount of fuel required is prohibitively huge.

The catch is that you have to accelerate the fuel, so the more you have, the more you use ...

 

[mark_gg]

Are you sure because I thought the fuel would be weightless? Or would the mass of the fuel be a bearing in a vacuum?

But to be honest, I was asking this in a hypothetical way ignoring fuel problems.

I read that some of the orbits of large objects, perhaps probes we have sent out have not coincided with the predictions made by relativity. I am not for a second trying to question the theory, just specific details.

 

[DrGreg]

Are you sure because I thought the fuel would be weightless?

Weightless, yes. Massless, no. A large mass requires a large force to accelerate it, and a large amount of energy to be converted into kinetic energy.

In principle, there's nothing in the laws of physics to prevent this experiment, it's just the sheer impracticality and unimaginable expense of doing it.

What we can do is accelerate particles to near light speed in particle accelerators, and infer time dilation effects from the particle behaviour.

 

[mark_gg]

yes that makes sense thinking of huge bodies like planets of course couldn't accelerate with basic thrust... thanks.

The issue I have with using particle accelerators is that the quantum world doesn't operate in the same way as the 'normal' world we are familiar with, so do physicists agree that you can generalise atomic particles to larger bodies?

 

[mark_gg]

I'll check it out, thanks.

 

[schonovic]

about the particles in accelerators, i think the results of experiments in accelerators is an indication of how particles respond to being messed with and not an indication of what the early universe looked like.

 

[mark_gg]

I guess no-one really knows for sure.

 

[byzheng]

Quantum mechanics is completely consistent with regular Newtonian physics, except in experimental cases where quantum mechanics dominates(usually cases of small length scales). We understand physics almost perfectly at most of the energy scales of the universe. However, at high energies, our theoretical model breaks down, so alternative theories are needed- this is why we need particle accelerators, to see what actually happens at these high energies. The early universe is postulated (and indeed we have very good experimental evidence) to have had a very high energy density, .i.e. the typical big bang model with the early universe hot and dense. So by studying these high energy physical experiments, we can better understand the puzzles comsologists have about the early universe.

 

[Caramon]

So I was right all along and you guys just confused me with your charts. ;)

You are NOT right all along, and you make so many inconsistent and absolutely appalling claims.

I don't believe the mass will increase from the point of view of the ship

The universe does not care if you believe a certain way, it will still behave according to its physical laws.

Are you sure because I thought the fuel would be weightless? Or would the mass of the fuel be a bearing in a vacuum?

You still don't understand the difference between weight and mass, why are you attempting to question Relativity?

i gather that for the ship, it is possible to travel faster then light.

-.-''

I give up.

 

[JesseM]

I don't believe the mass will increase from the point of view of the ship

The universe does not care if you believe a certain way, it will still behave according to its physical laws.

In this case mark is correct, the mass of the fuel in the ship's rest frame doesn't depend on how fast the ship is traveling relative to some other frame, like the Earth's frame.

 

[mark_gg]

I don't know the theoretical aspects of physics well, but sometimes its good to come at complex ideas with a fresh brain not bogged down with details. I study medical science, and occasionally I forget the basic principles when I get lost in the in depth cell signalling pathways etc.

Thanks all anyway. Especially those who were rude, and then got shown how wrong they were. One of my life's pleasures to watch people eat their words.

Peace.

 

[JesseM]

I don't believe the mass will increase from the point of view of the ship as the universe lacks frames of reference so the 'speed' is only increasing if viewed from external observers. I also believe that in the ship, acceleration is like going from 0 every time it is applied. The FAQ seems to agree as it clearly stated you could travel the length of the galaxy in a speed faster then light, but only from the perspective of the ship.

I missed this comment before, but no, the ship doesn't travel faster than light in any inertial frame including one where it is temporarily at rest while the galaxy moves past it. With a sufficiently high velocity relative to the galaxy you can cross it in an arbitrarily short time, but in your rest frame this is because of length contraction which results in the galaxy being much shorter in the direction of travel than it was in the galaxy's rest frame. For example, if you're going so fast that you can cross the galaxy in one second of your own time, that must mean that in your frame the galaxy is less than 1 light-second (299792458 meters) long! And in the galaxy's rest frame, it will take you over 100,000 years to cross it, but your clock is ticking so slowly in this frame that it only moves forward by 1 second in this time.

 

[ZealScience]

But the idea of Big Bang Theory is that space it self is expanding, galaxies quazars whatever are actually not moving, because there is no such thing (in a classical sense) as a universe constant that repels galaxies alway. Then the "acceleration" of quazars is not "real".

The idea of speed limit is actually because of increase in mass. The increase in mass would be a logistic growth that reaches infinity at point v=c. Thus you can never accelerate an infinitive mass, not even reach that point!

Actually I have thought about that before and I believe many people have had the idea. It easy to see, because universe has much more than 137Bn l.y. of DIAMETER in the history of 137Bn years. But in reality we can only observe a RADIUS of 137Bn l.y. across, nothing had reached us farther than 137Bn l.y.. To what I understand, I am sorry to say that it is not possible, good thinking though.

 

[ZealScience]

Accelerating at 1g it would take about a year to get near the speed of light wrt the Earth. The amount of fuel required is prohibitively huge.

The catch is that you have to accelerate the fuel, so the more you have, the more you use ...

I think the main problem here is that as speed increases, the fuel required to maintain the acceleration increases, and it grows in a logistic manner and reaches infinity at v=c.

 

[homerscousin]

Again... I think I am not making sense. I am starting to understand this theory, but I am having a fundamental problem.

Forget relative points for a second. If I am in my ship and thrust in one direction, and than I do it again, and again, and again... this is not really movement at all, because the universe has no fixed point in space. It becomes what we call 'movement' the second we put it in the context of a reference point, e.g. a planet.

So I just don't understand why you would need infinite energy, or a advanced propulsion system to achieve this. You could put a ship the size of a petrol tanker in space, give it a crappy thruster, and just turn it on. If there is no resistance, or gravity acting on our craft than why a limit? I want to emphasise I mean from the perspective of the person/computer on the ship, not the space around them. If I pointed this ship at a star, and just kept the thrust going I could get there quicker than light... correct? (I accept when I reach there, time would have gone forward)

This is driving me crazy because people always reply I would need infinite energy to reach the speed of light but I keep repeating speed of light means nothing until it is related to another object so I am at a loss to how this makes sense. Right now we are all on Earth moving faster than light relative to a point in the universe, perhaps billions of light years away... how does this work?

Hi to everyone. I just happened to stumble across this website in a Google search, this is the first thread I read, other than the Google entry, and I just had to register. I am not a student of physics, heck I did not even take physics in high school. I simply find this stuff fascinating. Anyway, in response to mark_gg. If I interpret him correctly, he asks why can't a spaceship with a "crappy thruster" accelerate to perhaps infinity? Why do I need infinite energy? Forget relativity. I haven't studied it. I answer this from a practical standpoint. As I understand our current technology in rockets we burn hydrogen to produce thrust. The maximum thrust potential gives us about 40,000 miles per hour. Is this correct? The exhaust gases exiting the rocket are around 40k mph? The ship can not accelerate beyond this point. We do need an advanced propulsion system to go beyond this. To go beyond light speed, if that is possible, wouldn't we need a propulsion system capable of beyond light speed thrust? Ion+ ?

Why can't I jump in my Lamborghini, put my foot to the floor and accelerate to infinity on the Bonneville salt flats? Forget wind resistance etc., the engine only spins to 10,000 rpm or so. There ain't no more. Same with rockets. Current technology only allows around 40k mph. There ain't no more. That is the limit.

And, no, I do not believe we on Earth are traveling faster than light relative to any point in the known universe.

Does this help? Like I said, I am no physics student. I enjoy the occasional Discovery channel show on the subject.

 

[HallsofIvy]

So I was right all along and you guys just confused me with your charts. ;)

Since the previous post flatly contradicted what you were saying, how do you arrive at "I was right all along"?

 

[mark_gg]

I read the relativistic rocket FAQ carefully as well as email a lecturer in my university and it is indeed possible to travel to a point in space a light year away in less then a year. What I didn't know was that space would 'bend' towards you making this possible.

The person who replied about the speed limit of a sports car is incorrect, because as I kept emphasizing 'speed' is essentially an arbitrary measure we use only when related to other bodies.e.g. how fast are you really driving at? well in regards to the surface of the Earth, maybe around 100KPH, but what about the Sun? then it becomes tens of thousands... what about the Andromeda galaxy etc... it can become millions.

As the univserse has no ether, it lacks any reference points... meaning there is no limit to acceleration.

Im amazed at some of the inept answers I was getting.. until the physics experts had to jump in and tell me I was half right.

 

[mark_gg]

to those who want to jump in and tell me that I'm wrong, please read the entire thread first. I'm quite proud of myself for thinking this up at 3am in bed one night.

Einstein when he said you need infinite energy was proposing a hypothetical situation. Of course you are never really traveling faster then light, but space literally shrinks instead.

But it is theoretically possible to go any speed you like (well more accurately, to get to a point that appears more then a light year in relation to say Earth, in less then a year). Orson Scott Card in his book Ender's Game understood this when talking about interstellar space travel.

 

[Mordred]

Unfortunately your still not getting it. Realivity deals with 4 dimensions the 3 spatial + time. when they say you can each the centre of the galaxy in 12 years this is because the space-time shrinks and time slows down for the passengers on board the ship HOWEVER for someone on Earth that person will not arrive for another 3000 years. IN other words it becomes a one way trip by the time he returns everyone he ever knew would be long dead. For NASA to dso this expereiment you want them to do they would never get the results back as its highly doubtful NASA will exist. Also the reason you cannot cross light speed has been shown in the colliders when you approach 99.9% of light speed any mass particle will start gaining mass by the formula E=Mc2. The extra energy used to accelerate that object faster will start to convert into additional mass hence infinite energy neded to reach light speed. Yes we can utilize the time dilation effects to travel farther than what light speed restrictions allow but that is not an increase of speed but due to changes within spacetime itself and effectively means it does you little to know good. From all reference frames anyone measuring the speed of that ship will measure it at 99.997% of light speed (only massless object can actually reach light speed.) This is not to say some things do not travel faster than the speed of light as per say it is a cosmological constant light has been slowed down and there has been some tests that have shown experimentally that by altering frequencies of the light ther are cases where they are slightly faster however these experiments are not widely accepted as the are difficult to replicate and may be a case of inaccuracies in measurement.. If you search the internet you sometimes come across those articles. Tachyon particle for example is only a particle that has been theorized mathematically that does not infer that it is proven. One of the problems is that if you were in fact traveling faster than the speed of light you would be going backward in time this violates causality where where an event occurs before before the cause of that event. Not to mention the grandfather paradox. Now like yourself I am not a physicist however I have taken the time to understand what general relativity means and yes it gets confusing, yes I wish it were different but that is proven beyond a shadow of a doubt by more experiments than you can imagine.
One classic experiment was two atomic clocks both matched up to each other. One was flown around the workd at high speed. One kept at rest on Earth and yes the one that flew around the world was behind the one at rest upon return. PROVEN
The warpage of space is proven by measuring stars behind the sun during an eclipse ( so they could see the stars with the amount of light the sun generates and the General relavitiy model was again PROVEN.
The colliders used to move a quantum particle at near light speed if you were correct would be able to move that particle faster than light, I have no doubt they tried amd failed to do so, so again its PROVEN.
A theory does not become a law until that theory is proven all the laws or just that they are fundamental laws no longer theoretical but PROVEN.

 

[mark_gg]

Unfortunately your still not getting it. Realivity deals with 4 dimensions the 3 spatial + time. when they say you can each the centre of the galaxy in 12 years this is because the space-time shrinks and time slows down for the passengers on board the ship HOWEVER for someone on Earth that person will not arrive for another 3000 years. IN other words it becomes a one way trip by the time he returns everyone he ever knew would be long dead. For NASA to dso this expereiment you want them to do they would never get the results back as its highly doubtful NASA will exist. Also the reason you cannot cross light speed has been shown in the colliders when you approach 99.9% of light speed any mass particle will start gaining mass by the formula E=Mc2. The extra energy used to accelerate that object faster will start to convert into additional mass hence infinite energy neded to reach light speed. Yes we can utilize the time dilation effects to travel farther than what light speed restrictions allow but that is not an increase of speed but due to changes within spacetime itself and effectively means it does you little to know good.

Im aware that for observers on Earth the ship can never pass light speed, but I am talking about the crew on the ship... which for them means they CAN travel faster than light, and reach a light year in distance, in less then a year. Maybe re read the thread from the beginning.

Of course it does good. It means you can send out young people to far away planets, and they will still be alive when they get there (although their friends on Earth have died of old age). No need for cryofreezing at all.

 

[mark_gg]

sorry to clarify... length contraction allows this to occur, so they are not traveling ftl per se.

I think you will find this is all true, and been verified by others. People need to get the concept that speed is a arbitrary measurement when it comes to the Universe.

 

[darkhorror]

This has been brought up many times. But distance speed and time all depend on frames of reference. All you are doing is mixing frames of reference so you get faster than light. When if fact in no frame of reference you are going faster than light.

 

[mark_gg]

This has been brought up many times. But distance speed and time all depend on frames of reference. All you are doing is mixing frames of reference so you get faster than light. When if fact in no frame of reference you are going faster than light.

Yes I agree...my point is simply this: You can travel a light year in less then a year from your POV. Of course when you get to the place your flying to, a year would have passed as if time slowed down inside your ship.. that's always been my point when I first asked the questions, although now I understand why better thanks to the input from others.

an easy example is that many galaxies flying away are doing so faster then light. Their redshift proves this. Eventually the galaxy will out run the photons, and we will lose sight of it forever... a concept that freaks me out!

 

[WannabeNewton]

First of all, the ship is at rest in its own frame and time does NOT slow down inside the ship; an observer in his/her own reference frame measures time dilation for other moving frames. Secondly, the ship travels on a time - like geodesic and it is very easy to show that if a geodesic is time - like at some point on a manifold, it will be time - like at all points on the manifold for which it exists. A time - like geodesic cannot suddenly turn into a null geodesic.

 

[mark_gg]

First of all, the ship is at rest in its own frame and time does NOT slow down inside the ship; an observer in his/her own reference frame measures time dilation for other moving frames. Secondly, the ship travels on a time - like geodesic and it is very easy to show that if a geodesic is time - like at some point on a manifold, it will be time - like at all points on the manifold for which it exists. A time - like geodesic cannot suddenly turn into a null geodesic.

no idea what you mean.

A ship can travel 10 light years in less then 10 years from the POV of the ship... that is a fact.

 

[WannabeNewton]

The ship is at rest in its frame. The only non - vanishing component of its 4 - velocity in its frame is with respect to the time basis. It only travels through space from the reference frame of some other observer. Anyways, my point is that the ship cannot hit c because objects that travel at c travel on null geodesics (and massive particles travel on time - like geodesics) and as I said it is a trivial task to show that if a geodesic is time - like somewhere on the manifold it is time - like everywhere on the manifold so it cannot become null - like.

 

[Mordred]

Another way of thinking of what your describing is from the persons on the ship 'they are moving forward in time' not completely accurate but if you watch some of Stephen Hawking lectures he himself has used this as a viable means of of time travel. However its forward time travel. Yes we can use this to colonize another planet provided you can take everything you need to do so. As you would never be able to get any aid from the planet Earth. The amount of material needed to restart the species on another planet would require an extremely large ship there fore a ton of fuel,
One of the little thought of problems with that is the risk of diseases wiping out those ppl as our immunity systems have developed natural resistances to Earth diseases, Its highly probable that on another Earth like planet to come into contact tons of germs, viruses etc that we on Earth have never seen and therefore we would not have any defence against it.
The most likely scenario is that if you do send ppl that far away without support you would merely be sending them to their doom. NOt to mention all the risks of low gravity on a human body that is designed to deal with Earth like conditions. Scientists are still studying this problem for solutions, The amount of radiation that our solar system filters out also protects us but outside our solar system the passengers would get the full brunt of that that radiation, again scientists are designing better radiation protection but were years away from complete protection. In many ways its more practical to use the cryogenics method as you can use the cryogenics chanmbers as a means of protection and it would require a lot less feul.
YOu can use the pressure of the cryogenics chanber to offset the gravity loss problems that effect bone softening etc. Cryogenics I feel would be far more practical a method of colonization that utilizing GR.

 

[mark_gg]

All very interesting... Technically it would be difficult, but it is not impossible. Its hard for us to speculate on the technical problems from our primitive view in comparison to another 100, or 1000 years of scientific advancement.

I personally feel it is inevitable this event will happen, considering science is only 300 years old, and the human race is very likely going to be around for millions of years...many people disagree with this, but I don't see why. Disease, or nuclear war would obviously cripple civilization, but even if this happened it would be very unlikely every human on Earth would perish. The technologies we have invented, cannot be 'uninvented', along with the infrastructures we have built. We could never return to a cave man existence. Disease can be contained by science and common sense, and war can be avoided by good politics.

The Arab Spring, the creation of the EU, and the NATO alliance means as time goes on the world is becoming more democratic, and more liberal in its outlook. This means the likelihood of more power to large institutions such as the UN is likely, and ultimately I predict a 'World government'... once this is in place, the chance of war is remote as all countries will be bound legally, economically, and politically... attacking another country will just become attacking yourself. In Euruope for example the chance of a war between let's say Germany in France is practically zero. The EU legal framework and economic situation binds us together. War in Western Europe is almost a laughable concept now, but only 50 years ago it was very likely.

Soon Turkey will join. The first muslim country in the EU will absorb EU law on Human Rights etc... and I forsee this traveling East to the middle east and beyond. We can already see Iran, Syria, Libya, Egypt rising up against fascism. Libya, Egypt, Iraq and Afghanistan are now democracis (although still rife with problems), and the events in Syria & Iran will I think lead to increased decocratic reform. A dictator cannot dictate if his people ignore him.

I think the Chinese government is one of the biggest threats to world peace, but they are slowly opening up and liberalising as they have realized a free market, as well educated, technological advanced populations are better economically. Educated people want freedom, and the government will eventually have to cave into the cries of the people and increase Human RIght protections, and free media...etc...

Africa... who knows how that will go.

Basically I am very positive about how the world is going. A peaceful world means Science can advance at an exponential rate... and I predict within my lifetime we will see human beings exit the Solar System for the first time...

get back to me in 50 years. :-)

 

[Mordred]

I have little doubt that eventually when technologies improve enough and we do look into colonization its highly probable that the more practical method of Cryogenics will invariably be used however there is no reason why both methods cannot and in many ways should be used on the same trip. As this is now getting off topic I've probably said enough along those lines.

 

[bahamagreen]

Maybe what Mark_gg is imagining is this:

1] At rest within the solar system we note that a distant star is 10 light years away
2] Then we hop in a very fast ship and accelerate quickly up just short of c with respect to the solar system reference frame, which Earth folks see as a trip taking more than 10 years
3] Aboard ship the elapsed trip time with respect to ship reference frame is very short

So 'gg is taking the 10 ly distance from the solar system reference frame and comparing the elapsed time in the ship's reference frame to conclude that the ship went 10 ly in a short time.

The apparent contraction of distance between the ship and the star from the ship's reference frame is being "ignored" as is the time dilation... and so not used to calculate light speed locally within the ship's frame. As long as the passengers in the ship believe that the "correct" distance was 10 ly and the distance contraction is an illusory artifact of high speed; then their intuition will be that they did in fact make the trip "faster than light".

If all measurements were experimentally performed locally within the ship, the length contraction and time dilation would conspire to present c measuring 300K k/s just like within any other reference frame.

Maybe 'gg is discounting the ship's relativistic effects as illusory without realizing that all reference frames are subject to these effects?

Another thing that might be going on here... from the original question, I wondering if 'gg is trying to think of reference frames which "clearly" must be moving in relation to each other at >c speeds? This would lead to ideas like noting a solar system frame of reference and then positing another frame of reference (not a physical object but just the math/geometry of the other frame), and define that second frame as moving so as to cross the galaxy in 10 years... but of course the relativistic effects of how each frame sees the other would sort this out... and to make the original hypothesis would imply a third frame of reference from which to make the other two assignments.