What happens if the portal stops moving halfway? | Portal Paradox

I'm so glad you called out the fact portals merely existing already break several laws of physics. Great video!
Edit: I really wish commenting this didn't result in further debates in the replies lol people need to chill and just enjoy things more

If you think about it in a different reference frame, the portal moving toward the cube is essentially the same as the cube moving toward the portal, so the same physics would apply.

I always figured the portals were two ends of a wormhole. The path between any two portals is actually a null geodesic. Therefore there is no violation of energy or momentum conservation. It's like how the moon orbiting the earth changes its velocity constantly despite no energy input yet we know this is not a violation of conservation laws, rather it happens because the conservation laws hold.

The idea of the material fracturing because of a sudden change in portal momentum is scary. If the portal surface was indefinitely thin a sudden change of momentum or position could act as a kinetic “knife” changing the inertia at an infinitesimal plane thinner than a razor. Makes me wonder what might happen if an earthquake or seismic event happened while a person or living thing went through. Worst case could be just as bad as a portal closing mid-transfer…
Thanks for helping us think about yet another disaster that could come of this innocuous-looking technology!! 😅

I think the two cube experiment is the perfect way to demonstrate and solve this paradox, same way as dropping something. All the particles together.

i love how this starts out as a chicken and the egg situation and then James goes to prove the point by stating simply "where do you think the chicken came from", making everything else seem relatively obvious in the process.
thank you for finally creating a well made solution to this lol

The discussion of conservation of momentum in the video reminds me of an interesting variant of these sorts of portal shenanigans I once came up with...
Say we have our portal set up like this: The blue end of the portal is on a concrete wall, something stable that isn't going to be moving. The orange end of the portal, however, is on a thin wooden board, something we can easily pick up and carry around.
Now, on the blue side of the portal, we get a metal pole, and thread it halfway through the portal, so it's sticking out both sides. And then we bolt it to the concrete wall, anchoring it in place on the blue side. So, on the blue side, everything is still anchored in place and cannot move.
If we look at the orange end. We have our board, with a portal in it, and a pole sticking out. And we can still pick up that board and wave it around. And I don't think it would be that controversial to claim that if we do that, the end of the pole should move around as well. After all, it's anchored in place on the other end, it's being held in the middle of the blue portal, so it should stay in the middle of the orange portal even as it moves around.
But that means the tip of the pole is accelerating around, as you wave the board... which means there has to be some sort of forces being pushed around, some amount of work being done. You pushing on the board to move the portal, is resulting in force being applied to the pole. And Newton's third implies that the reverse must also be true... if you try to move the pole, it should translate back to forces being applied to the portal, and the board it's stuck to.
That is... you should be able to grab onto the pole sticking out of the orange portal and lift, and it should pull the board along with it, you could carry the board around just by holding onto the pole.
Which feels weird at first, because the pole isn't attached to the board, it's only attached to the wall on the blue side, but I believe it's the only way it can all work.
I came up with this scenario while trying to reason through another variant of the portal paradox, where you have _two_ pistons facing each other, with portals on both faces, and crush a cube between them... which can be hard to process. But once you understand that it must be possible for reaction forces to propagate backward from the objects moving through the portals to the portal surfaces themselves, it's a lot simpler.

To me the energy that flings the cube forward is just the energy that propels the portal down in the first place.

There were so many people viciously arguing this problem in multiple reply threads over what seemed like hundreds of comments on the original short. There was one guy I remember specifically who was jumping into every thread to call everyone else an idiot and typing out multiple essays of manic physics mumbo jumbo, and ANOTHER guy who was doing the same thing(more politely though) rose to battle the first man. It was wild to see, highly reccomend reading through the comments on that video

About conservation of energy: I always assumed from seeing the first trailer for Portal back in the 2000s that the portals required a vast and continuous expenditure of energy by Aperture Science to open and to stay open. The energy comes from unseen machinery behind the scenes which is fuelled by your suspension of disbelief.
I also think that the cube getting cut in half by the piston ceasing to thrust it forward would be extremely unlikely to happen unless the cube was made of something really really weak such as paper or the piston was going really really fast, such as breaking the sound barrier.
Also, the effect of gravity pulling in different directions on the two sides of the portal should be considered.

8:12 It's probably important to note that this isn't necessarily a clean cut along the plane of the portal. The portal isn't acting as a knife, it's the object pulling itself apart.

Breaking the portal paradox down at the particle level was a great explanation, very easy to understand!

would the piston portal pushing down into the cube not just be the same as throwing it? then the energy conservation would make sense

Welp, thanks to this video we can finally have portal 3, a perfect narrative about discovering moving portals and defining it's physics with logic.
I'm glad that GladOS is still alive.

I think of the portals as wormholes. Drastically curved space(time). You're not teleporting up, you're moving in a straight line. It just so happens that in the way that the curved space is, a straight line leads you back to where you were. Kinda like if you were on a sphere, if you walk forward enough, you'll get back to where you were. It's like that, except the sphere is VERY ununiform, with it being mostly flat, and then a very sharp curve in squished space

This is probably the most logical take and best practical explanation of a "solution" for the portal paradox I've seen. Obviously the portals as seen in Portal would break our universe pretty thoroughly but this seems like the most intuitive and closest approximation to how they would work if they did exist.

the piston coming down at the cube is the same as the cube accelerating towards the piston.
the only question is if our camera (frame of reference) is attached to the platform the cube rests in, or the piston itself.
once you attach the camera to the piston, it should become relatively obvious to anyone, i would think

Editing and animations in this vid were fantastic, hope to see more similar vids soon

It seems to me that the moving portal would kind of "simulate" all of the space on the other side of itself moving that fast against anything that passes through it.

I find the conversation interesting because it views the problem as though portals are a planar barrier, but the Moon moment in Portal 2 (if a bit exaggerated) suggests the sides of the portal can impact each other through differences in pressure and gravity.
I've always viewed the transition between portals more like two magnetic fields interacting with each other. If the magnetic fields are similar, then the point where they meet acts almost as if a single magnet. An infinite hole would not be infinitely increasing gravity, but rather a transition between the gravitational force at each height as a gradient. Also, with regards to relative velocity of the portal, you could argue the entrance and exit are both moving simultaneously relative to the object, like dropping a hula hoop over a person.
Ultimately I think the biggest, and potentially only, contributor to launching the cube would be the force of Earth counter-acting gravity. You would get that small acceleration as gravity suddenly changes relative direction. If the portal stopped half-way you'd see the cube probably lean over into the edge of the portal as it finds an equilibrium between the two gravitational fields it exists between. (which sounds dangerous if the edge of the portal is infinitely thin!!)

On the problem of conservation of energy where you get infinite kinetic energy from this 8:57 scenario, I think you could apply this 6:00 to it. If the portals are stuck on a rigid surface, then that pushback would be felt entirely by you instead of the portals moving. Essentially, the portals would absorb your movement kind of like how a magnet falls slowly through a copper pipe or like a non-newtonian fluid. The faster you move through the portal, the more resistance to motion you feel.
Of course, this kills all the fun of many if not all puzzles in Portal, so maybe we wouldn't want to implement it.

Honestly, I don't even get how this is a discussion, how can people think the cube will stop..

I want to see a serious particle physicist look at the portal paradox and consider things like whether gravity would be transmitted through portals. If anything can pass through a portal, does that include subatomic "messenger" particles like the graviton? If so, then wouldn't the force of gravity pass through the portal? If portals were real, particle physicists would love using them to help with those sorts of theories

I'm glad to see you did a follow up to this topic honestly, there's still some intricacies that you're missing, as I had mentioned in my previous comments on the other paradox video, but I'm thrilled to see you came to the same conclusions I did for the most part!
I ended up writing down effectively a small essay from when I first sat down to think about the portal paradox and knowing some funky physics points regarding portals given their being based on wormholes and I'd honestly love it if I could sit down some day and have a chat with you on this some time!
Especially given there is enough weirdness left to cover regarding the paradox on offer that you could actually make a third video, one thing I'll share adamantly though, all interactions should be considered from the reference point of the portals where the world always moves around them and that they are from their perspectives always static, makes understanding "Speedy thing goes in, speedy thing goes out" a lot easier for the weirder side of the physics, also puts more plainly the moving portal interactions true nature imparting moment of inertia.
Please do let me know if you're open to having a chat regarding this given I had a lot of fun breaking down a ton of weird and at times in words of Einstein, spooky interactions and would love to properly share them in a form more readable than a youtube comment.

IF something like a portal existed it likely would not add an inertial reference frame. In this case, where the cubes have no momentum and a cube fragment is instantaneously teleported, nothing has momentum that can be transfered to the cubes. Only gravity would effect momentum here. We can also just wave our hands and say a portal is a spacetime fold that exists in an inertial reference frame (earth's) upon creation.

My two cents on the conservation of energy problem is that portals fundamentally violate it. There's something called Noether's theorem which shows that symmetry and conservation are equivalent. For example, conservation of momentum is true because of translational symmetry, and vice-versa. Similarly, conservation of energy is due to time invariant symmetry. If portals were to exist in reality as they're shown in the game, you could violate causality by instantly transmitting messages (not a GR expert by any means, but there are some physics stackexchange posts where they explain this better). If you can violate causality, you break time symmetry which breaks conservation of energy. So even if crossing portals used energy, as long as you can break causality, conservation of energy can't be true
Fun fact: conservation of energy isn't even true in reality because of the expansion of the universe (also because of Noether's theorem). It just appears to be true at our scale

this is the exact pedantry ive been wanting to see someone say and explain why this is the answer. i feel a sense of relief to know that others know

To figure out where portals get their energy from, there's some information that is relevant:
1. Moon rock is excellent at sustaining portals
2. Other materials can support portals (aperture had portal surfaces before they bought the moon rock)
The most promising energy source in moon rock is Helium-3, an isotope of helium that can be used in nuclear fusion reactors.
As other nuclear fusion fuels exist, this explains how old aperture panels could support portals, and as there's a limited ammount of Helium-3 in moon rock, it explains why the auto-portals in the early levels turn off (to preserve power), and even why the moon portal closes; The higher energy required to reach and match speed with the moon, combined with unpurified moon rock, results in a portal that only lasts a few seconds.
Sure, it's nowhere near enough power, but that's a much smaller handwave than portals just being magic

Love your videos on the Portal demake, but these videos are also great!
Big fan of educational CZcams channels like VSauce, MinutePhysics, Veritasium, etc.
You did a great job in this video of combining two types of content I enjoy. Keep up the great work. Excited to see more from you in the future!

It’s more fun to make the cube go flying, and for that, it wins the physics debate

I definitely was thinking it wouldn’t move but your idea totally made sense and it changed my mind! First time I am interested in physics.

It's nice seeing your reasoning behind this. It almost convinces me that this is the way it should work.
The way I see the portals are two sides of one thing. You can't have one without the other. One portal on a wall is not a portal. So it's more like, if a hula hoop fell around you, you wouldn't shoot out the other side.

A possible theory to where the energy comes from is if portals themselves had a mass. Considering the portal funnel effect, this could vaguely support the idea that they have their own gravitational pull. As objects enter and exit the portal its mass would change. In the case of infinity falling through portals, I guess one of the portals would collapse once too much mass is moved through.

For Chell jumping into a portal loop, when something fall down, it moves air upwith turbulences, so infinitely falling would make a upward air stream that would add up and apply resistance to falling, mostly making the object to go out of optimal loop path

I don’t know how the portal paradox is so popular as a “paradox” even though it’s solution is so simple to figure out.

Honestly pointing out that the test chambers aren't static kinda cuts the whole line of reasoning off on its own - all portals are moving portals. Whether or not something appears to be moving in our frame of reference has no bearing on the physics operating on it, that's just relativity.
In regard to the infinite portal drop conservation of energy thing, the real reason we're able to break conservation of energy there is that we're not simulating the impact of the gravity of matter on one side of the portal on matter on the other side, which implicitly means the portal is constantly using some amount of energy to counter it. There isn't really one physically consistent way to model that though, since space in our universe can't have holes cut in it (and modeling it would break some basic parts of the gameplay anyway).

One thing that's interesting about portals is that gravity doesn't seem to pass through them. You don't get pulled by the earth on the other side of the portal until you actually move to that side of the portal. I wonder if having gravity work through portals would solve all the infinite potential energy shenanigans, or if they would just make portals incredibly violently destroy their surroundings, as earth starts being pulled by itself through both ends of the portal.

there's something that makes me unexplainably happy about the little companion particles

my idea for conservation of energy due to portals: when you pass through portals of different heights, the sudden change in gravitational potential exerts a gravitational force on you normal to the plane of the portal, nearly instantly converting your kinetic energy back into potential energy, or if you're not moving fast enough or pushing hard enough to achieve that potential energy, resisting that you pass through at all. another fun option is if the gravitational field could somehow "flow" through the portals to equalize the potential difference, resulting in a zone of zero gravitational force directly between the portals, and at some horizontal distance, a slight repulsive force near the one on the floor and a slight attractive force near the one on the ceiling.

I think matpat's explanation of mass as the means of conserving energy is a good solution. Each time you enter a portal, your mass is added to that portal and subtracted from the exit portal. So a negative mass makes up for the energy gained from falling

About conservation of energy - in the case of the cube shooting out of the other portal - it would definitely have to come from whatever force pushes the portal in the first place.
in the case of teleporting up - I think the obvious solution would be that you *should* need equivalent amount of kinetic energy to even go into such portal in the first place, and you just wouldn't fall into it when stationary, so when you fall through a portal and go up - the needed energy is taken from your kinetic energy, just like when moving up normally. Same with going down - such a portal would "suck you in" (this would require carefully thinking about how air pressure would work but I'm sure it would eventually equalize to *something*).

I love how these development updates are presented as videos with mass appeal. Such high production values

From a gameplay standpoint this solves the portal paradox very well, but realistically this is all wrong as it doesn't actually obey the laws of energy conservation. The problem is that energy conservation is being maintained because you're treating the portal as if it has mass and thus velocity, which isn't true. Portals are wormholes, or spatial tubes essentially. What happens if you swing the end of one tube while the other is stationary? It creates a vacuum force and thus momentum--the YT Channel The Action Lab did an experiment showing this.
So the actual answer is that both are true. When one portal moves to encase the box, the box will only move if the vacuum force created is strong enough to actually move the box. Then you have to remember that the larger the diameter the tube the greater the speed needed to generate a vacuum force. So then you're left with the 3 following scenarios:
1. Portal moves and encases the box, causing it to exit the other portal and fall via gravity (not a high enough vacuum force).
2. One portal is in space and the atmospheric pressure difference creates a vacuum force to move the cube.
3. The portal is moving at speeds insane enough--due to large diameter spatial tube--to create a strong enough vacuum force to move the cube.

How am I just discovering this channel? Great work!!!

In your example with the two boxes they're still stationary relative to eachother and the ground they stand on. There is no force acting in these boxes pushing them through the portal except the normal force which never exceed the force of gravity - there's no need for conservation of momentum because the only thing moving is the space around them.

For the question of "How is energy conserved?": What if, it's the gun that provides the initial energy to open the portal, and as it's used, the energy in the 'wormhole' is removed. And then we can explain that the magical portal gun is smart enough to know and measure the current portal locations and puts more energy into those spots to keep it open.

So in a world with these types of portals... One portal at the bottom of the ocean, other portal inside the end of a very strong pipe, which leads to a turbine, and then back into the ocean... And now we know why aperture doesn't have any power problems.

The thing about conservation of energy is that portals "move" matter instantly through spacetime. But nothing can go faster than light. You would need an infinite amout of energy just to go beyond that limit.
So, the simple existence of the portals, as presented in the original game, doesn't follow conservation of energy (we can assume that they store/create an infinite amout of energy).
Maybe they should work differently, maybe like wormholes but we don't know if wormholes actually could exist and how they would operate.
Anyway, I really like your project and how you are giving your best to make the game engine as good as possible. Keep up the good work !!

I've always imagined them as what they appear as: a doorway between two places that just don't need to be connected spatially. And when you walk through a doorway you're not meaningfully interacting with it, just passing through.
Ignoring all the physics that make portals impossible, and aerodynamics (which we know isn't correct but it's easier), it's only the relative motion that matters, not if it's the cube or portal that's moving, so the total momentum is, just like with regular physics, the average momentum of the particles inside it.
The "cube pushed through hole" frame of reference is easy to understand, but the "hole falling on cube" one isn't as obvious, but I think a good way to think of it is like this: The Portal is a hole in the room. The cube sitting on a big stationary but massless plate and the room is moving towards it at a fixed rate. The plate is too big too pass through the hole, so when the room hits the plate it brings the plate with it, and because of inertia the cube "flies".
If we consider aerodynamics the moving portal would "push" the air it encounters out the exit portal, and the stationary cube would travel through higher pressure air than if the cube was moving towards a stationary portal where little air would come out the exit portal. Even in a sealed system where there's no empty space left and all the air leaves through the portal there would be a difference between which side is moving relative to the system, since the air pressure would be higher on the moving side. I'm not sure if the inertia of the moving air would outweigh the higher resistance of higher air pressure, and that's of course affected by the surroundings too. You could suck the cube through the portal if the entrance portal was stationary (and close to the cube) and the exit portal was moving "backwards", which means that if the moving entrance portal immediately quickly retracted after the cube went through it would be sucked back.
Not entirely sure what would happen if the portal went half way and then immediately retracted, essentially bouncing. If the cube was moving and the piston it's on does that it won't do much, other than some suction, so the cube would move like if it had stopped halfway, whereas a moving portal would catch up with the cube, but what exactly would the cube do then? Would it just stay put, or get slowly lifted until it was completely back through the portal? And if so, would it then end up stationary in mid air before gravity pulls it down, or would it come out the portal with additional momentum downwards?

Conservation of Energy is probably a bit easier to deal with.
On the infinite portal fall, you're speeding up because gravity is pulling you down. But, your mass too is pulling the source of gravity towards you (the earth presumably in this case), since you have mass you too have your own (very extremely weak) field of gravity.
And it's just building up with each loop through the portal.
I have to wonder if there would be some sort of multiplication factor with the gravity pulling you through the portal. Since gravity is thought along the lines of warping space, that warp would extend up to the ceiling where the exit portal is, go through the entrance and back up. My instincts tell me it's unlikely to be a continual escalation of gravity build up, but it may have a sort of "higher gravity tube" between the two portals. Buuuuuut, I'm not sure if that would be the case.
As for momentum itself, momentum is a bit weird. It could be considered having stored energy, but, from my limited understanding, that energy is more of a differential between two reference points. Like how in a car that is going a constant speed you don't really feel momentum until you come to a sudden stop. You don't actually have actual energy built up in you, but the act of speeding up or slowing down will change your vectors to make you feel like it.
So with that in mind, when it comes to portals that are side by side facing the same direction, you can think of it like something along these lines. First imagine a wall between the two portals that don't even let the fabric of space and time to seep through. Then imagine a "space-time grid", with coordinates on it, and it intersects the first portal while one of the axis coordinates increment higher the closer it gets. One of the lines are colored red goes straight through the portal. On the other portal, the space time grid would push through it, and the axis coordinate is now increasing as it gets further from the portal.
Now place an object on that line, and launch it forward, it's coordinate on the axis grows and grows as it reaches the portal. And when it exits the otherside, the coordinate continues to grow.
Basically, think of it as the reference point the object is, is not in relation to the universe, but to the portal. And after this long write up, I thought of another way to think of the coordinates, think the coordinates for both portals, regardless where they are, as being [0,0], and the object is at [0,10], and moving towards portal A. It's coordinates decrease till it hits [0,0], and when it comes out of Portal B, the axis is now going into the negative numbers till it's at, say, [0,-10]. Even if Portal B was at [100,100] from the perspective of Portal A, from the object's perspective it's only [0,-10], despite being at [100,110] from Portal A.
and with that rambling done I think I should leave this comment off here before I ramble more.

Well the fact that the edges of the portals are fiery could help your explanation on the conservation of energy. Maybe the portal gun shoots a goo that burns slowly, and the burn rate adjusts based on the energy needs of what goes in and out of it, but it's always lit, like a pilot light of some sort. But now we're really getting into the weeds of scifi technology. We'd probably need to crossreference it with Half Life Lore and get Xen Magic Space Rocks involved

HELL YEAH, new James Lambert video!

I fully agree with your interpretation and I love the thought- and practical experiments you come up with to illustrate it!

What about relativity and reference frames? From the cube's perspective, there *is* no portal! It just sees uninterrupted space.

What if we considered portals as instead of tying space together, we dissameble the incoming object and reassemble it, spitting it out the other side. This would conserve momentum in the way you describe, and doesn't really violate any laws of physics.

The portal does not impart energy at all in this equation, it is doing a third, inexplicable thing: changing the frame of reference for the motion of the cube. All motion is relative, the portal is just changing what the motion is relative to. There is no such thing as a "stationary" object.

I feel like relativity would solve all of the problems. The direction is relative to the portal, the speed is relative to the portal, and the kinetic energy would also be relative.

this is just my take on the whole thing because i think its fun to examine these sorts of things and i havent given my thoughts on it, but i think the cube on the bottom wouldnt push out the top cube, just because the bottom cube is exiting the portal doesnt mean its having any additional velocity applied to it to push the top cube, at the same time, its not getting any resistance from the top cube because the top cube is now just existing somewhere else. the cube has no idea its even moved because of the seamless transition of the portal. what would most likely happen, is the top cube would fall instantly before it even has a real chance to fully interact with the bottom cube, then that falling motion would interact with the bottom cube, if tied, it would drag the bottom cube out as it fell downwards and thats just due to gravity, no additional force.
also the portal on the floor, portal on the ceiling thing, its just that each pass you make, gravity stacks (like a multiplier) and just keeps adding gravity, because all gravity sees is chell at the top of the portal exit the top portal with a velocity of x, and it adds gravity and then chell goes through the bottom portal with that added velocity, so chell exits the top portal with a velocity of that new x, so gravity sees that and pulls down even more until she goes in the portal again and the sequence continues. its no so much "oh im continuously falling" but rather, "oh i see something falling from the ceiling to the floor 250,000 different times with no break in between, time to add a gravity multiplier"
not a scientist but thats just my uneducated theory

For the piston pushing against the portal, my intuition also tells me that it would come out shooting. The energy could come from the piston's kinetic energy (i.e. slow it down).
For the infinite portal drop, it is a bit trickier because you are basically connecting two points in a potential field (gravitational in this case) you would need to penalize the energy somehow (e.g. subtract the potential delta between the portals from the kinetic energy of the object everytime it crosses) I think this is basically a weird discontinuous potential field where the potential increases a constant amount in an infinitesimally thin layer. That would mean you could stand over the portal on the floor, because you have not enough kinetic energy to even cross that layer (boring lol). It would also mean that you would get sucked into the ceiling portal if you crossed a single hand, and you would come out shooting to the same height you were before (that's why I mean the energy is conserved if you have it like this)
Other interesting "paradoxes" would arise in virtually all other fielsd of physics. For example in electromagnetism, there are also very important potential fields like the electric field. To put it simply, you could just connect a battery to itself in series infinitely, and you would have the same exact problem/paradox as the infinite falling.
For the record I am a physicist, so I should know what I am talking about even if I really don't.
Maybe we just cant have portals in real life lol

I don't know if it really makes sense to keep the conservation of energy law in a world where (Portal's) portals exist. After all these laws have been determined empirically in our world, without portals.
However, I think it would be interesting to consider Newton's laws of motion, especially the 3rd one (action and opposite reaction). This means that with the portals on the ground and ceiling, you are also accelerating Earth in the opposite direction! You could use this technique to accelerate a ship!
Regarding the portal stopping in the middle of the cube, snapping the cube in half would also require a lot of energy, spit does not make sense either for that reason. It cannot be instantaneous anyway, so it's ti sane as the cube hoing through the portal at constant speed, and getting progressively decelerated. There must be a reactive force acting on the portal to account for this deceleration.

I feel like if there was a pair of portals that are ”holes in space”, then gravity would not behave as we expect and then the infinite falling trick might not work?

the kinetic energy added to the system comes from the nuclear reactor at the heart of the facility

Maybe this is just my lack of understanding, but I always understood the paradox angle of the box not flying out the other end as being true due to there not actually being any momentum/force applied to it until it comes out the other end. So if it got far enough through the portal, gravity on the other end could pull it the rest of the way out if there's enough of a slant? With gravity really being the only force applied. Thinking of portals kind of like a hula-hoop, where one side just happens to come out in a different place in space. So if you lower a hula-hoop over a box, the hula-hoop doesn't itself apply force to the box because it never actually touches the box. So in my mind the only force being applied to the box in the paradox is the environment on either ends of the portals. But maybe that's nonsense. I just haven't had it ever explained convincingly to me why we are assuming any momentum is coming from the portals themselves.
Similarly for the infinite falling thing. You're speeding up as you fall much like you would if you jumped from a large height. The portals themselves aren't contributing to your momentum, the repeated force of gravity is?

For the momentum conservation with stationary portals, you should think that the vector is relative to the object, not to the "world".
Think about it from another point of view: when Chell cross a portal, she's facing forward from the secondary (target) portal, not from the primary (origin) one. If you use shapes like cubes or spheres, it's a little hard to imagine it as all the faces are the same, but if you use a person, or an irregular shape, you'll see that everything is relative to the shape and not to the world.
Also, for the gravity thing, it's the same. You conserve the speed/momentum when you pass the portals, then, you gain more speed because of the gravity force, next, you pass again the portals, and so on until you reach the terminal speed, it's not magic (except for being able to create a portal, yet), just think about it as a infinite fall from a precipice.

Considering we're talking about the Gameplay mechanics of Portal and it's physics engine, Portals ONLY conserve your speed if YOU are moving into them, If the portal moves into you and you aren't moving, you'll just be spat out at the other end without momentum, or at least considerably less.
Since portal 2 is on a SLOPE at an ANGLE though, then it just kinda falls out instead of stopping completely or being launched if it's a cube.
If it's a PLAYER then you just completely stop.
Portals keep *SPEED,* but they don't keep the direction of the object, they just spit it out in whatever direction they're pointing to.

I think in most interpretations I have seen of portals they are seen more as doorways. They don't reconstruct you on the other side, they don't teleport your particles, etc. You literally move through them as though you move through a doorway.
What the portals do is they contort spacetime so that the two portals are directly on the other side of each other spatially.
Essentially imagine the universe is a piece of paper, they severely bend the paper back on themselves and then poke a hole, you as the player traverse through the hole.
Momentum is conserved in that case, since you did actually walk through a door in the same direction. If you were to draw a line and then have the line"fall down the hole" spatially it's a straight line however, from our perspective it is not. It's the portal equivalent of a straight line on a curved surface does not look straight on a flat surface.
If you look at it from this way and it is the idea of a door frame just falling on a cube, things start to make a little more sense.

Now assume a perfectly spherical cube.

Isn't this just wormhole vs teleportation? Teleportation will shoot the cube out, while a theoretical perfect connection of bent 3d space will not.

I think the platform you're smashing into the cube is transferring it's energy into the cube through the portal. as you said, because the target portal is stationary while the other is moving, the first portal must be essentially pushing/pulling the object to the other side, and the only reason it's doing that is because it's being moved by the platform. so if this were reality I would expect that the piston encounters resistance similar to the momentum the object is gaining on the other side

For conservation of energy in an infinite portal fall, I think the conservation of momentum answer can still be applied. As Earth exerts a gravitational force on you to accelerate you from the top portal to the bottom, you exert the same force back onto it to accelerate it up; the continuous stream of potential energy being converted into your kinetic energy comes out of the kinetic energy of the earth. The real problem presented by portals then becomes how this almost definitely can be used to decrease entropy, thus breaking thermodynamics.

Portals are just holes in space, the changed momentum vector occurs for the same reason orbiting/falling do and where the energy for that comes from also has the same answer as where does the energy from falling come from. In terms of moving with objects, I would imagine that the portal wouldn't be tethered to the object, but would itself usually be an inertial object. While it has the same momentum as whatever/wherever its being created on/at, as soon as it is actually created it would cease to update it's momentum... or it would if not for the fact that energy has to be provided to keep the portal open, and since the spacetime curvature centers on the energy source, the portal would be dragged along by wherever it's getting energy from via a "gravitational bond". Even without that though the portal still would not fly off since relativity is a thing. This would also explain why portals close when you accelerate the object it's attached to too much, as if the energy source gets too far away from the "center" of the portal before the "center" can "move" itself back to the energy source, the portal would just collapse from the energy no longer being geometrically capable of supporting the curvature. Conservation of energy is inherently violated in any system where the curvature of space can change over time, but in this case a portion of the energy that makes up the cube would be transferred to the entrance portal from a gravitational interaction, and would take an equivalent amount of energy from the exit also via gravitational interaction. You can find a similar interaction in real life by looking at two black holes orbiting each-other, and the orbits decay from gravitational energy loss.

The most generous approach to conservation of energy with portals would simply say that creating an infinite-falling loop would just result in some sort of anti-gravity effect between the two portals, although this gets way more complicated depending on the circumstances. The anti-gravity effect has to be dependent on the energy required to enter the portal, meaning that a simple vertical setup has zero gravity if you're exactly above the portal and more gravity the further you are from it, and/or the faster you're moving horizontally relative to it.
It's a big mathematical headache that's not really fun for a video game.

You are forgetting the major reason for the breaking of conservation, its the frame of reference, relativity. the portals allow the change in reference frame for the object from one side to the other.
with the piston example:
* the stationary cube is accelerating constantly at 1g, but the platform is pushing back with an equal force (ie the ground) so it is stationary
*as the piston drops the section of the cube passing through has its reference frame altered to that of 45 degrees local gravitational constant, so now the top half has an acceleration pulling the top of the cube to the side at that 45deg
*also the mass of the top of the cube is is being accelerated by the emerging lower section of the cube (which you explained, but forgot the next bit) which is being pushed upwards by the stationary platform. THIS is where the momentum comes from for the emerging cube, the stationary platform is pushing the cube through the moving portal (the moving change in reference frame)
with the opposing portal example the momentum is conserved because the reference frame of the cube (from the cubes perspective) doesn't change, from the observers perspective the reference frame itself of the cube changes when passing through the portal. So to be clear, the cube is in a box (its reference frame) the box has no mass or energy cuz is a reference to space time relativity of the objects within it. so from the cubes perspective the universe flips around 180deg and it just continues as it was without any force being applied to it.
when playing with portals you need to remember that the frame of reference is the thing that is altered when passing the event horizon and not the object, and if the net forces on an object do not match the resulting net forces of the object on the other sides frame of reference than there will be an change in acceleration imparted proportional to the moment of inertia (mass) on either side of the portal.

Regarding the problem of two portals facing each other so that you could fall infinitely through them:
You wouldn't fall; there are infinitely repeating earth masses below you and equally infinite earth masses above you, there would be a total of 0 gravity inbetween them since both gravitational forces that are pulling on you from each portal would cancel out, or maybe the part if you that's closer to the floor/ceiling would accelerate so fast that you would approach relativistic speeds instantly and produce something similar to spaghettification. But that's not how the portals in Portal work I guess.

Instead of thinking about the piston at all, for a second think of the diagonal portal as a regular hole with a piston and a cube attached to it; flinging it out the other end.
If the piston portal from the example were to stop halfway, the cube would have no sufficient momentum to pull it through leaving it on the ground with the other half poking through the exit portal.

@6:26-.-That's not how I would argue with this. I instead argue that if 1). Portals are just holes in space and 2). Portals are moving, then C). Moving portals moves space itself. So then the question is: what is the scientific or philosophical difference between an object moving through space vs space moving about an object? I for one see no difference. It's kind of like how what to moving in a river would push objects in the water, it would be a defilement of physics if something was just unaffected by waters movement without any clever work around.

I think the best way to get over the conservation of energy is to state that it actually requires energy to travel through the portal. This energy can come from whatever is powering the portal itself. Which is still unknown from the game. Like, a portal which has nothing traveling through it is consuming 'x' amount of energy, but once an object travels through it, the energy consumption increases proportional to the work required to alter the objects momentum (plus a little more for entropy sake). While I'd love to draw the free body diagrams and do the calculations, I'm literally procrastinating studying for my physics midterm as I type this.

I've always imagine that portals kind "add a copie of the room right behind it", rotated depending of the or rotation they have to each other. The object passing the portals will just go in a straight line, kinda going in the "other/same" room using a wormhole-like path.
So for the paradox, it will need that the room need to "move" AND to stand still at the same time, so both of the solutions would kinda works, but that's clearly messed up so they are all wrong too

before watching the video
i'm gonna say it still gets launched at about half velocity since the molecules that get pushed out the other portal have velocity and pull the stationary ones along
but gravity exists too which would lower the velocity a bit too

Think about the old game show "Hole in the wall". This is the exact example you are proposing with the Portal Paradox. In this example a portal (the hole in the wall) passes around a person. Here the portal (hole in the wall) does not impart it's momentum to the person and they do not fly through the other side of the wall at the speed the wall passes over them, nor does the wall feel recoil as a person passes through it. They remain stationary aka the same momentum they started with. The way I think about this is that portals are just doors. If I run through a door I do not fly out the other side regardless of where in space I end up. I come through the other side with the same momentum or speed I was walking through the door way with. Same thing happens with non-eucledian spaces, you can see this in game simulations. You do not fly out of door ways with more momentum then you walked in with. Same way a door does not feel recoil as you pass through it, because the medium is air and the direction of momentum is preserved even if I end in a different point in space.
As for objects being tied together, the same logic would apply. It is not until the center of gravity moves through the other portal, either at an angle or upside down, does the inertial frame of refrence change.
But What do I know..... it just depends on what you think a theortetical portal acts and what properties you give it, so any explination could work depending on the portal you create. Fiction is beautiful.

The way I see it, portals burn their "charge" as things go thru, as suggested by the sizzling edges, that constant sizzle probably because of air currents, light, subatomic particles etc. They likely get their charge from the hawking radiation of the microblackhole that powers the portal gun ( I think GLaDOS mentions the microblackhole at some point, not sure, it was a long time ago); and I would expect that if otherwise undisrupted, portals would eventually fizzle out spontaneously at some point, sooner if lots of energy or heavy things keep going thru, but probably lasting more than a human life-time, or maybe simply for some duration longer than the time since the game came out, as I suspect if someone had been running the game since it launched, there wouldn't be code in it to have make them close spontaneously at any point.
Infinite falls don't violate conservation of energy because the energy is being extracted from the portals.

What if the platform with the portal coming down over the cube isn't being pushed, but is free-falling? As the platform with portal falls over the cube, the part of the cube already through the portal pulls on the part that is still on the other side, which is being kept back by gravity. With the right combination of weights (cube and platform) and falling speed, could it happen that the platform stops falling midway over the cube as the forces equal out? This could also change in interesting ways by making the cube bottom- or top-heavy. The one could make the falling platform stop higher up the cube, while the other could make the cube shoot out as soon as its heaviest part is through the portal.

In my head canon, a portal is just a device that very rapidly analyses every particle entering it, absorbs the particles into some hidden physical storage medium, and sends some information to the exit portal describing those particles, which '3D-prints' them on the other side from some hidden source of matter. From this perspective, the exit portal is effectively functioning as a sort of rocket engine so it makes total sense that the cube going through the portal imparts momentum upon it due to Newton's second law.

A portal is just a hole, where the other side of the hole is somewhere else. If you have a cube on a table, cut a hole in a piece of paper and put the paper on the table with the cube going through the hole, the cube doesn't just shoot up.

This guy is tackling a years long meme debate with full seriousness engages the me.

Momentum of the object is conserved because the portal's function is to teleport an object from one location to another without affecting its velocity magnitude, only its velocity direction. Magnitude of a cube-at-rest's velocity is still zero. The velocity at which a portal moves at you is of no affect because the contents of the portal are both volumes of air that are both having their velocity magnitudes preserved as particles move about back and forth across the boundary. It's like if a bucket fell on a small object, the object isn't going to just hop into the air as the bucket comes over it because neither the air nor floor moved to exert a force on it. Same here.

I'm with you on the portal getting thrown out the second portal. one reason is "relativity", a cube zooming at a portal is the same as a portal zooming at a cube (same relative speed difference).
As for the "stop half way", it's a tricky one since the cube doesn't have inertia. So the half speed is my best guess too.

I liked this video a lot as someone that intuitively agreed with you, and agreed with your argument in the previous video, but it still didn't make sense as to why in my own head. Showing the two boxes made it instantly click. Thanks for all these wonderful videos.

For me I think it will do both of your solutions:
- imagine your first area contain water and the other simply air, then pushing piston in water would make the water flay off and flow, then replace the water with honey, a sandcastle, a rope or soft bread.
For me the first part would gain inertia and with that inertia would pull the second part, but if bond are too weak then it would break, the breaking wouldn't be uniform but would depend on local weakness of bond
Here a way to demonstrate:
You have a pile 4 cube named from top to bottom A,B,C,D.
You weld B and C, then you put honey between A and B then between C and D.
What would happens when you stop halfway ?
A and B would get inertia but not C and D,
A would easily detach from B but like with the rope, There would be a mutual transfer between A and B, so A will not be at full speed, but B would have more speed
D would also easily detach from C, but there would be a mutual transfer between D and C, so D will not be completely immobile, but B would have less speed
B and C, having a strong binding would not break but maybe stress it if it's the weakest point, you can stil consider that they would totally share their energy and for me they would go about half the full speed

RE: Conservation of Energy
Obviously portals aren't actually possible in reality, which means at some point we have to concede that portals are breaking some law or laws of physics. We'd rather it be as few laws as possible so it's as real as possible, but *something* still has to be broken. It obviously must be breaking conservation of energy. And there's no real explanation for that because... it's not real. It's where you need to apply suspension of disbelief and just don't worry about it.
Intuitively I don't like the swinging portals thing. But also does that explanation even work if the portals aren't facing the same direction? Like if you put two hanging portals in a V shape (but with enough room to swing freely) and shoot a cube straight in to one of the portals. The entrance portal being pushed back still could make sense, but the exit portal would basically have that momentum applied sideways, even though the cube comes straight out. Or if the exit portal is still just pushed back like your explanation, I don't see how that's conserving momentum since it's a different direction.
It seems more like portals just don't conserve the direction part of momentum, just the value.
Edit: actually, direction is relative just like speed. So it still keeps the same direction relative to the portal the whole time just like it does with speed. Is that not conservation of momentum?

The idea of potential gravitational force is just careful acccounting.
"You would have to expend energy to apply upwards momentum to get it up there in the first place"
But we're not breaking conservation of energy as much as we've found a manner besides momentum in which to shift something.

At 2:26 when the first box exits the other end of the portal the gravity in that frame of reference takes hold and the box falls over. 5:10. No it's not true for stationary portals. Momentum is maintained, the direction of that vector changes, but physics doesn't care what direction you're going so long as energy isn't created or destroyed, it's why potential energy exists, energy can change form infinitely so long as it isn't gained or lost. Black Holes which suck in spinning matter gain rotation, it doesn't matter what direction the object that fell in was spinning though, the angular momentum of the black hole will always increase when added to. 5:20, and no a cube changing direction mid-air wouldn't violate momentum either, but there's no way to change the vector of the momentum in classical physics. Portals allow for this because you're splicing two pieces of space together. You might as well argue that walking through a doorway breaks conservation of momentum because once you're no longer in the room and that's somehow problematic. 5:27 yes, momentum is a vector, and the direction does matter for moving through space to determine where an object will be from time A to time B, but it doesn't matter for conservation of momentum where all that matters is the magnitude. Gyroscopes are an example of this. Spin up a big gyroscope whine in a spinning chair, tilt it left to right. The magnitude of the angular momentum doesn't change (except by dissipation through other means such as heat from friction) but the direction does change and that isn't an issue. 5:37 Your solution is effectively saying that if I walk through a doorway, I'm imparting momentum on the doorway. That's really wrong. Portals are 4 dimensional connections in space, they're not physical things, they don't ever impart forces or allow you to impart forces that aren't normally happening, they just allow taking shortcuts through three dimensional space. 6:00 that's not how portals work at all. 6:29 in which game? Portal or the one you made? If it's the one you made then ofc the argument is moot, it's your game, portals work however you want, and if it's the Valve Game Portal then you're wrong because Portals can't move at all so the entire experiment is moot. If you take the concept of a Portal as presented in the game Portal by Valve, the explanation given is that they are just interconnected pieces of space and would work opposite of your explanations. 6:40 this argument is moot because nothing sits absolutely still in space, space is constantly expanding. Regardless whether or not a portal is moving isn't relevant to what two positions it connects to. 7:00 in the clip you're showing, by your logic, the portals moving should apply an angular diffraction past the portal exit to the beams since the portal is moving. That clip kind of blows up your theory since as you can see, the light isn't getting bent at all. 7:10, yes because people pointed out why you were wrong and now you're pulling up examples that prove yourself wrong as evidence that you're right. Weird. The ultimate answer to partway protrusion is that the side that exits will have a different gravitational frame of reference and get pulled accordingly and if enough mass is on the other side it'll plop out as expected. Here's an easy way to explain your argument being wrong. Take a wall, put a portal on either side, making it effective a doorway. Slide that wall horizontally to make a stationary box pass through it. Now take a doorway and do the same to the box with the doorway. The results of the experiment should be identical, in your example, the portal doorway sees the box go sliding perpendicular to the wall while the regular doorway does nothing, *that's wrong*.

So if I were to move the portal partially into the cube at a bit of speed, the cube can do a lil hop ^-^
Hoppy cube

7:07 Consider it more as "educating people" rather than "arguing with people". I consider this as a part of educational CZcams.
Btw, as a soon to be engineer, I believe you are correct.

Fascinating, as always

I got this theory off tv short from a long time ago but I can't remember what it was since I was so young. This was just about teleportation and not the game.
Basically it explained portals as destroying and recreating things on the other side. The energy to do this would come from the material that makes the portal and would not last forever. They would be still be limited by the speed of light and basically what happens at the other side of the portal can be anything aperture science they want it to be, but in this case they make it seem like you teleport. You don't die when you enter it because the portal is creating everything you need to just before it destroys it. But you could think of the object on the other side of the portal as not the original its self but a replica.
If a portal ran out of energy while you where between it you would be chopped at the point it ran out of energy. If anyone knows the tv spot I got this from that would be helpful, i think it was animated.

My portal theory is going through a portal is invisible to the matter other than the physics on the other side of the portal once your matter gets there. The world on the other side of the portal is not yours but is simulator in every way other than your not in it yet. And you basically enter the world and leave the world just before you brake physics. The portals just are able to find a parallel universe where this extremely unlikely thing is happening just at this moment since at quantum physics level particles come in and out of existence randomly. And aperture science found a way to tame that.
I also don't think portals can move but instead have a really short life, so short you don't even notice it. As you said the earth is moving all the time. I think they keep getting spawned and die so fast that it seems like it's one thing.
They are still science fiction but it's some of the fun ideas I had :)

Two things.
1. When you set portal to floor and ceiling the air starts to fall trough the portal causing updraft from portal above which pushes the air down harder and the gravity is now pulling air trough the portal on the floor which is pushing the air under the portal at the ceiling. This should cause the air to start fall and generated air current downwards? 😅 You basically made ceiling fan. Also all that carbon dioxide on the floor is now gonna fall down first from the ceiling, while it wont do anything in small amounts it is interesting topic.
2. The cube going trough a portal moving a constant speed leaves the other portal with same speed -> the cube didn't accelerate! That means you can send space ship to warp speed with 0 acceleration! The only thing that feels the G forces is the piston, the portal and the air going trough the portal while the portal is accelerating but once it stops accelerating and moves constant speed is also the point you can go trough the portal without feeling acceleration. Tough you might have to worry about hitting the air on other side if you are going too fast which might cause Sonic Boom from braking the sound barrier.

Interesting. I mentioned last video that portals are holes in space, and while you're right that they'd just go flying off if this were the case, I always assumed thats where the sci-fi part came in. Somehow they don't, yet they're not really an object, only a (relative to our perspective) stationsry hole. I think that's where we differ, while I handwaved that part as fiction you tried explaining it and thus this entire debate about where the energy comes from came about. I still think they don't have energy by themselves -- at least none that they transfer to whatever object passes through them, but this has helped me see the other side of the argument better.

maybe that's why you can only place portals on some surfaces. Portals need the right chemical composition on the surface they attach to, so that they can convert chemical energy into kinetic/potential energy for moving stuff around