Anyone here play Portal? Portal + Relativity question

In summary, the conversation discusses the concept of performing the Twin Paradox with portals and how it relates to time travel. It is suggested that if two wormholes are accelerated to near lightspeed and then brought back, they could create a tunnel to the past. It is also mentioned that if one person stays on Earth near a wormhole while the other travels on a relativistic rocket, the two clocks would be in sync even though one has experienced less time. This could potentially create a time machine that can skip forward and backward in 20-year intervals. The conversation also touches on the idea of relativity of simultaneity and how stepping through a wormhole could result in jumping through time.
  • #36
JesseM said:
In that case, I think when you played the video back you would see this

Something unlikely would have to happen, like some radioactive particles of the same element randomly converging on the location of the lump and replenishing what it lost, or the lump not decaying at the expected rate (and some decay products spontaneously turning back into the nondecayed form) due to an extremely unlikely bit of quantum randomness. But this sort of thing is why I suggested that if you had a theory assigning probabilities to different self-consistent spacetimes, it might just work out that it was extremely unlikely for closed loops consisting of macroscopic objects or information to occur in the first place.

Very interesting yet very confusing stuff lol. I keep finding myself reaching a conclusion before quickly refuting it. Latest thought: If I had two wormholes fixed 10 years apart Future-me could pop out and not only say hello, but stick around. 10 years later Future-me and Present-me could both step into the wormhole so that Past-me meets two people not one. Then all three of us could wait 10 years before making Past(er)-me meet 3 people.

Although self consistency. There would probably only be a small group of us because one of us (the futuremost one) isn't going to make it another 10 years
 
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  • #37
I think the "unlikely event" concept is not satisfying. There's no reason why we should suddenly require unlikely events to "fix" paradoxes when there's no other impetus for those unlikely events to occur.
 
  • #38
SeventhSigma said:
I think the "unlikely event" concept is not satisfying. There's no reason why we should suddenly require unlikely events to "fix" paradoxes when there's no other impetus for those unlikely events to occur.

I think the idea is that they must occur because something had to occur. With the case of the video camcorder, something must have happened to wipe the memory every time it get's passed over because it is an impossibility if not.

It's hard to understand but if impossibilities cannot exist, by that nature something must necessarily happen to prevent them.
 
  • #39
If it's a self-consistent loop, then by definition it had no real beginning, which means that whatever state the decaying atoms are in means that they were always like that in the past and will always be like that in the future.

I guess I just have issue with "how are these loops brought about to begin with"
 
  • #40
Do CTC violate conservation of energy?

It just occurred to me that matter popping in from the future would raise the total amount of energy in the universe. Ten years later the energy will drop again but for that period of time the total energy was greater
 
  • #41
SeventhSigma said:
I guess I just have issue with "how are these loops brought about to begin with"

Yes me too!
 
  • #42
SeventhSigma said:
I think the "unlikely event" concept is not satisfying. There's no reason why we should suddenly require unlikely events to "fix" paradoxes when there's no other impetus for those unlikely events to occur.
Did you read [post=2914902]this comment[/post] I linked to earlier, outlining a conceptual argument for how a mindless brute-force algorithm could generate entire self-consistent histories? Since the only output would be self-consistent histories, the ones featuring time travel would be guaranteed to have events which prevented contradictions even if some conditions elsewhere in the history (like a simulated time traveler making plans to kill his grandfather) would seem to create the danger of contradictions.
 
  • #43
ryan_m_b said:
Do CTC violate conservation of energy?

It just occurred to me that matter popping in from the future would raise the total amount of energy in the universe. Ten years later the energy will drop again but for that period of time the total energy was greater
No, in the case of wormholes the mass of the wormhole mouth itself changes to compensate for anything entering/exiting it, see [post=819700]this post from pervect[/post].
 
  • #44
JesseM said:
No, in the case of wormholes the mass of the wormhole mouth itself changes to compensate for anything entering/exiting it, see [post=819700]this post from pervect[/post].

Again very interesting however in the case which pervect was dealing with there the two wormholes were one above the other. The object would fall until the top Wormhole runs out of mass.

But what if the wormholes were both on the floor side by side? Gravity would pull the object into one which would come out of the other only to have gravity pull it the other way. How is energy conserved here?
 
  • #45
JesseM said:
No, in the case of wormholes the mass of the wormhole mouth itself changes to compensate for anything entering/exiting it, see [post=819700]this post from pervect[/post].
And even if it didn't, I fail to see what the big problem would be. Conservation of energy is a "law", not in the sense that everything must obey the law because someone said so, but simply because all our experiments so far seem to confirm this. Whenever an experiment appears to contradict it, research is done and the "law" is adjusted if necessary, for example when it was first discovered that mass is a form of energy. In the case of worm holes, if something is exiting our current universe via a wormhole, this universe is no longer a closed system. That is already sufficient to remove any worries about "oh my God they are violating the law". But, as JesseM said, even in this case it may well be that energy is conserved through a change in mass of the worm hole itself. I don't know, I've never seen a worm hole up close ;-)
 
  • #46
ryan_m_b said:
Again very interesting however in the case which pervect was dealing with there the two wormholes were one above the other. The object would fall until the top Wormhole runs out of mass.
pervect was answering a question specifically about two wormhole mouths with one above the other, but I don't think he meant for the comment about changing masses to apply only to this situation, I think it's supposed to just be a general property of wormholes that the mouths change mass when things enter or exit them. And neither mouth can ever run out of mass, he also mentioned that the mass of a mouth could eventually become negative.
ryan_m_b said:
But what if the wormholes were both on the floor side by side? Gravity would pull the object into one which would come out of the other only to have gravity pull it the other way. How is energy conserved here?
I don't understand this scenario, why would gravity "pull it the other way"? If you dropped it into one vertically, it would come vertically out the other, and land on the floor before the one it came out of, no? Are you imagining the wormhole mouths themselves are so massive that their own gravitational fields are significantly affecting the object's path?
 
  • #47
JesseM said:
pervect was answering a question specifically about two wormhole mouths with one above the other, but I don't think he meant for the comment about changing masses to apply only to this situation, I think it's supposed to just be a general property of wormholes that the mouths change mass when things enter or exit them. And neither mouth can ever run out of mass, he also mentioned that the mass of a mouth could eventually become negative.

I don't understand this scenario, why would gravity "pull it the other way"? If you dropped it into one vertically, it would come vertically out the other, and land on the floor before the one it came out of, no? Are you imagining the wormhole mouths themselves are so massive that their own gravitational fields are significantly affecting the object's path?

I was imagining them in the portal sense of being flat circles with the mouth of both pointing up

 
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  • #48
If you had these portals, but they had a delay system so that they operated to only allow passage at or below 'c', it would not fall prey to the issue of time travel, right? In short, if you teleported (scifi) halfway around the Earth, but you stayed just below 'c', you would just have a REALLY fast trip, without Relativistic complications, right?
 
  • #49
Misericorde said:
If you had these portals, but they had a delay system so that they operated to only allow passage at or below 'c', it would not fall prey to the issue of time travel, right? In short, if you teleported (scifi) halfway around the Earth, but you stayed just below 'c', you would just have a REALLY fast trip, without Relativistic complications, right?
Actually it's better if the portal allows you to get somewhere FTL (FTL from the point of view of light traveling the "long way", of course you still move slower than any light which travels through the wormhole with you). If the regions of spacetime the portal connects have what's called a "space-like separation", meaning that no signal traveling the regular way could get from one to the other without traveling FTL, then there's actually no danger of time travel here. For example, say there's a star 100 light years away and traveling through the portal on Earth in 2000 would cause you to step out at the location of that star in 1950 (with time being defined relative to the rest frame of the Earth and star). Sure you've gone back in time, but if you send a light signal back towards Earth it won't actually reach them until 2050, and if you step back through the portal in the other direction it takes you 50 years into the future, so you're back at Earth in 2000 (or a little later if you hung out at the star for a while).

On the other hand, suppose there's another star 20 light years away, but stepping through the portal on Earth in 2000 takes you to the star in 2040. In this case the separation is "time-like", meaning that stepping through the portal won't get you to the star faster than a light beam would. It might seem like there's no problem here, but the portal is two-way, meaning if you step back through the portal at the star in 2040, you'll end up at Earth in 2000, and in general if you step through the portal at the star in year Y you'll end up at Earth in Y-40. So now say in 2000 you get in a rocket which flies to the star at 0.8c, covering the 20 light years in 20/0.8 = 25 years. This means you'll arrive at the star in 2025, so if you step through the portal you'll now be on Earth in 2025-40=1985, in your own past!
 
  • #50
JesseM said:
Actually it's better if the portal allows you to get somewhere FTL (FTL from the point of view of light traveling the "long way", of course you still move slower than any light which travels through the wormhole with you). If the regions of spacetime the portal connects have what's called a "space-like separation", meaning that no signal traveling the regular way could get from one to the other without traveling FTL, then there's actually no danger of time travel here. For example, say there's a star 100 light years away and traveling through the portal on Earth in 2000 would cause you to step out at the location of that star in 1950 (with time being defined relative to the rest frame of the Earth and star). Sure you've gone back in time, but if you send a light signal back towards Earth it won't actually reach them until 2050, and if you step back through the portal in the other direction it takes you 50 years into the future, so you're back at Earth in 2000 (or a little later if you hung out at the star for a while).

On the other hand, suppose there's another star 20 light years away, but stepping through the portal on Earth in 2000 takes you to the star in 2040. In this case the separation is "time-like", meaning that stepping through the portal won't get you to the star faster than a light beam would. It might seem like there's no problem here, but the portal is two-way, meaning if you step back through the portal at the star in 2040, you'll end up at Earth in 2000, and in general if you step through the portal at the star in year Y you'll end up at Earth in Y-40. So now say in 2000 you get in a rocket which flies to the star at 0.8c, covering the 20 light years in 20/0.8 = 25 years. This means you'll arrive at the star in 2025, so if you step through the portal you'll now be on Earth in 2025-40=1985, in your own past!

OK, that does make a great deal of sense, and it answers the other question I was going to ask. This forum is fantastic for people trying to write fiction that doesn't utterly trample physics. Thanks JesseM.

I'm curious, what would the radiation field around this kind of portal be like in real life? I'm guessing that an actual "teleport" of this type would have quite an effect on each locale.
 
  • #51
Misericorde said:
If you had these portals, but they had a delay system so that they operated to only allow passage at or below 'c', it would not fall prey to the issue of time travel, right? In short, if you teleported (scifi) halfway around the Earth, but you stayed just below 'c', you would just have a REALLY fast trip, without Relativistic complications, right?

It's the velocity of the wormhole itself, not the velocity of the transition, that gives rise to time travel.

Imagine you are hanging in space in a ship with a wormhole. At rest relative to you is another ship with the corresponding wormhole. When one of you starts speeding up the wormholes fall out of sync so to speak
 
  • #52
ryan_m_b said:
It's the velocity of the wormhole itself, not the velocity of the transition, that gives rise to time travel.

Imagine you are hanging in space in a ship with a wormhole. At rest relative to you is another ship with the corresponding wormhole. When one of you starts speeding up the wormholes fall out of sync so to speak

Got yah, thanks!
 
  • #53
JesseM said:
Actually it's better if the portal allows you to get somewhere FTL (FTL from the point of view of light traveling the "long way", of course you still move slower than any light which travels through the wormhole with you). If the regions of spacetime the portal connects have what's called a "space-like separation", meaning that no signal traveling the regular way could get from one to the other without traveling FTL, then there's actually no danger of time travel here. For example, say there's a star 100 light years away and traveling through the portal on Earth in 2000 would cause you to step out at the location of that star in 1950 (with time being defined relative to the rest frame of the Earth and star). Sure you've gone back in time, but if you send a light signal back towards Earth it won't actually reach them until 2050, and if you step back through the portal in the other direction it takes you 50 years into the future, so you're back at Earth in 2000 (or a little later if you hung out at the star for a while).

On the other hand, suppose there's another star 20 light years away, but stepping through the portal on Earth in 2000 takes you to the star in 2040. In this case the separation is "time-like", meaning that stepping through the portal won't get you to the star faster than a light beam would. It might seem like there's no problem here, but the portal is two-way, meaning if you step back through the portal at the star in 2040, you'll end up at Earth in 2000, and in general if you step through the portal at the star in year Y you'll end up at Earth in Y-40. So now say in 2000 you get in a rocket which flies to the star at 0.8c, covering the 20 light years in 20/0.8 = 25 years. This means you'll arrive at the star in 2025, so if you step through the portal you'll now be on Earth in 2025-40=1985, in your own past!

This assumes the portals already exist though -- as long as I am the person making the portals, then there's no way I can get to any point in my past before the portals were made no matter where I place them or how fast I go. Maybe if there is some kind of tachyon technology involved, but there are plenty of problems with the existence of tachyons to begin with, as far as I know.
 
  • #54
SeventhSigma said:
This assumes the portals already exist though -- as long as I am the person making the portals, then there's no way I can get to any point in my past before the portals were made no matter where I place them or how fast I go.
Yes, but as soon as the portals do exist then someone can use them to go into their past. For instance, even if the one on Earth didn't exist until 2000 so you couldn't use them to go back to 1985, it'd still be true that if someone left Earth in 2015 at 0.8c, then 25 years later in 2040 they'd arrive at the distant star, allowing them to step through the portal to Earth in 2000, which is in their past so still allows for troublesome time travel scenarios like leaving a message in 2000 for their later selves to read in 2015, telling them everything they are going to experience during their upcoming 25-year journey.
 
  • #55
SeventhSigma said:
What if we performed the Twin Paradox, but with portals?

You need relativity to create paradoxes with portals? :confused:

5449572dd2e1b8c51c032532853d7e15.jpg
 
  • #56
How many videogames could possibly engender such an erudite discussion? Oh Valve, I love you.
 
  • #57
When are they going to make Time Portal? :-pThe example of the self-consistency principle on the Wikipedia page I like best is the Star Trek Next Generation one.
But I usually prefer the idea of alternate timelines: traveling into the past makes another timeline with different events, while your original timeline is unchanged.
I really dislike the method of "solving" paradoxes in Back to the Future and Doctor Who.
Good shows though.

As for colliding wormholes, I've thought of that before.
Assuming the wormholes are the same size (so their singularities "match up"), my random guess is that they collapse into a black hole.
I am not sure if they can be connected and different sizes. Someone enlighten me on this?
 
  • #58
FtlIsAwesome said:
As for colliding wormholes, I've thought of that before.
Assuming the wormholes are the same size (so their singularities "match up"), my random guess is that they collapse into a black hole.
I am not sure if they can be connected and different sizes. Someone enlighten me on this?

Assuming you could fit one through the other (I think they would be the same size spheres if they existed though) I guess they would collapse because you are putting the same mass through a wormhole.

Although the freaky thing is if you put something through wormhole Blue (sticking with valve terminology) it would come out through wormhole Orange. If you put wormhole Orange through wormhole blue it should...come out of itself??
 
  • #59
FtlIsAwesome said:
As for colliding wormholes, I've thought of that before.
Assuming the wormholes are the same size (so their singularities "match up"), my random guess is that they collapse into a black hole.
I am not sure if they can be connected and different sizes. Someone enlighten me on this?
Traversable wormholes don't have singularities, actually. On the question of what would happen if one mouth fell into the other, I think a clue may be in thinking of diagrams of what a wormhole would look like in a space with only 2 dimensions, like Flatland--in this case the two mouths are circular regions in the plane connected by a tube:

wormhole_graphic.jpg


So if you think about what would happen if one opening of the tube was a lot narrower than the other, and the narrower one approached the wide one, perhaps what might happen is the narrow mouth would end up opening onto part of the tube above the wide mouth, creating a shape a bit like a http://www.kleinbottle.com/whats_a_klein_bottle.htm (except with the wide mouth still opening into the larger flat plane, and the narrower mouth just opening onto the surface of the tube rather than going "through" it):

3%20botsclaserlqm.jpg


Also look at the bottom part of this complicated diagram of connected wormholes, ignoring all but the central wide mouth...the bottom part twists around and opens up onto its own "throat" in a shape that looks a bit like a French horn:

[PLAIN]http://www.technicianonline.com/polopoly_fs/1.2544686!/image/1587755920.jpg_gen/derivatives/landscape_240/1587755920.jpg
 
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  • #60
Isn't all this stuff just speculation though? Wormholes and all? Concepts of "negative energy" and "exotic matter" and traversing 3D space to begin with by just jumping through some middle ground? What's the evidence that any of it would be even theoretically possible?
 
  • #61
SeventhSigma said:
Isn't all this stuff just speculation though?
Yes, it's speculative, but it's not just an arbitrary sci-fi fantasy (like "wouldn't it be cool if there was some way to make a portal connecting different places"), traversable wormholes are valid solutions to the equations of general relativity, and thus of interest to theoretical physicists exploring the consequence of the theory. Whether they are possible in the real world depends on whether the right type of "exotic matter" is possible (certain results from quantum theory like the "Casimir effect" suggest there's a good chance it is, but it's definitely not settled, see here), and also on whether there would be any process that could give rise to one in a region of space where one hadn't already existed since the Big Bang.
 
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  • #62
What would be an example of a wormhole being a "solution" to a GR equation?
 
  • #63
SeventhSigma said:
What would be an example of a wormhole being a "solution" to a GR equation?
I don't know what you mean by an "example", are you looking for the equations of a specific spacetime metric involving a wormhole? A solution just means a spacetime with a metric (describing a curved spacetime) and a matter field that satisfies the Einstein field equations (dealing with the relation between matter distribution and spacetime curvature) at every point in the spacetime. Anyway, the detailed equations for one such solution can be found in this paper, for example (the author also has a full textbook on the subject titled Lorentzian Wormholes)
 
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