Quantum Entanglement and the Great Bohr-Einstein Debate | Space Time | PBS Digital Studios

Did I exist before I replied?

Not to us you didn't.
P.s. Please slow down with the wave collapsing, there's only so many to go around.

I have to pee and its gonna be a wave........ I have to tell you it feels like reality

You definitely exist in an undetermined location by my perspective.

Observing this comment has altered its original meaning.

All is relative. It may vanish from your perspective, but from mine it will stay perfectly fine.

abschussrampe no it won't - but I'm willing to allow you to prove it to me somehow

The fact that I know for sure I exist know, without you interacting with me tells me The universe in truth is enturely dependent on me. Thus I conclude I should be able to temper with it's rules, know be still mortals while I reconfiger space and bring back Firefly

It has already vanished a few times while you played peekaboo as a baby, so we are not afraid!

akrybion don't tell fibs

From an informational point of view, they are both the same.

@@wesjohnson6833 no silly goose, unless you discount realism, you might as well invoke magic. its the same from an informational point of view for YOU, not for the universe.

Sounds like a religious debate.

Possibly the Glass is half empty and/or half full..

You only interpret one interpretation. Copenhagen.
Many Worlds Interpretation on the other hand, which can be argued to be the only true quantum mechanics interpretation, because it doesn't introduce additional elements such as a supposed "collapse", says everything is there before and after observation!

I've been reading a lot of the comments on this because I got a notification. While it is fun to poke around at the possible mechanisms at work for entanglement as I often try in my mid to imagine the intricate worlds of I think with things like this and the location you may detect an electron at is that it's a filed of probabilities and probably moving so ie both states, or connected states however it is set we can observe and fine statistical patterns that can be used to test and repeat and see other patterns that points to the statistical idea of not knowing for instance one of two spin states before you measure but that and the cat is an example as these states are not alive and dead but equally opposite while being able to change from one to the other without us seeing but we know that with a certain degree of precision with things like this or more likely places to find an electron certain other relevant information we can test for like the other entangled particles spin orientation being opposite although with that one since reading it takes a system of gates that can sometimes throw error into the system but with a high degree of repeatability it does show correlation at a distance with no discovered wave communicating the information and if either's is disturbed (ie observed) then they stop being entangled. There is a method to this statistically useful information allowing us to build working and ever better quantum computers right now that do annealing for finding lowest states of energy in calculations of efficiency that fully function as expected based on some of these principles. Other things like extra energy from heat have to be removed so as to disturb fewer of these states in a system and so on. I'm no expert it's just fascinating how to tackle the concepts we have in our minds.

Peek a Boo 😂

“The observed quantum spin aligns itself with our chosen measurement.” Vertically or horizontally. If the axis we choose determines the orientation of the entangled particles’ spins, cannot quantum entanglement be used to send information instantaneously, at a distance?

this stuff simple family is it not kick back eat some pop corn this like 2+2

@@FR-yr2lo but for example you take one particle in our galaxy and measure it so the other particles wave function collapses but in andromeda galaxy you have to measure the particle to know if it's wave function collapsed Or not which will automatically collapse the wave function even if no one really sent a signal from milky Way it can be misunderstood as a signal, and particle spins are very random if we force it to be one of the spins it will break the entanglement so you really can't send the signals

thanks :)

yeah i agree tiz crazy

Don't forget about the soundtrack, which is awesome right now on my headphones

What software are they using?

After Effects and Cinema 4D, primarily.

Dude fucking 100% same

Exactly. Half the time I'm confused or in denial but I still just keep watching and even re-watching some to the same effect.

Haha, keep going! Maybe someday you will derive meaning from it.

Keep watching these and other videos.... you will start to understand some of it. Until the math comes in.... if you're like me it all falls to WTF then.

I think exactly the same...

But if you cheat on your partner they don't find out instantaneously.

How can you change the value?

@@yezambiquerahma259
With a kiss.

Well, that's because the guy that wrote it also invented a lot of the math we use to do multi dimensional geometry. The Alice books are a treatise on hyper diemensional logic. Like... Really.

poor cat... :)

True. It appears that Carroll used literary art to express intuitively what physicists express mathematically and scientifically. This convergence of science and myth is found in Far Eastern philosophies (the dance of Shiva), and the metaphysics of Schopenhauer. The book, "The Annotated Alice in Wonderland" is an interesting examination of the esoteric nature of science and metaphysics.

@@japhetzayas7194 Japhet? Can i recommend you some
science-channel on yt?

@@loturzelrestaurant yes please

and out of this time

Roy Malamud Haha, so true 😊

ikr

+Roy Malamud lol

This channel revives me after a long drawn boring meeting about business.....

wow, he sounds amazing. I wonder if he's as smart as he looks here, or if it's just him reciting pre-existing texts written for him.

@@ThomasJr I've seen in at least some of the video descriptions that he's the one writing at least some of these.

Ricardo M. Ianelli I’m always fascinated by new stuff, and I am about 20 minutes new to this topic. So does quantum entanglement form naturally, or only when we force it (if I was interpreting it right)?

Here, I'll give you an even simpler one that isn't absolutely retarded...
Take two spinning tops from ONE starting location (you) and spin both tops away from one another with reflective angles, momentum, speed, etc, etc.
Presuming the surface is completely flat/identical (effectively a vacuum) both tops will be spinning identically to one another (although inverted/reflective). When one top stops spinning the other top will also stop spinning and they will appear as if they are the SAME spinning top, reflected across the distance that that they were spun away from one another.
It isn't that one top is in any way ~influencing~ the other top, it is simply that both tops were essentially programmed with the same function.
You can take a copy of Microsoft Word and you can boot it up on any computer on the planet and get the exact same functionality... not because the software is in any way linked, but because the software is IDENTICAL.
When two wave particles collide they spin around each other briefly until they reach a uniformed/reflective spin caused by their pole arrangements (positive and negative) directly crossing one another, so when the positive pole of one wave particle aligns directly with the positive pole of another wave particle they act like magnets, breaking away from one another and as their poles are directly aligned when they break away, assuming they're in a vacuum with nothing else to interfere, they will wind up with the exactly same spin (but inverted/reflective).
So... no... sorry, it's nothing magical at all... code a program, copy it across as many computers as you like, as far away from each one as you like and each copy will work exactly the same.
...it's funny, because it's exactly like peek-a-boo... except for adults... like you actually think it's some magical thing but only because you don't understand the exceptional simplicity of it all. :D

Mmm. Sorry but the analogy you are using doesn't exactly match up with the description of entanglement. I suggest watching the video again and doing more research, try not to rush too quickly to find an answer to things or think you know what is going on.

I've watched a LOT of videos and read a LOT of stuff on the subject. When I first looked into it, it seemed to be a simple matter of not understanding the observer effect. Simplest explanation is checking the air pressure in your tires... you cannot check the air pressure without letting out some of the air in the tire. Cause... and effect. You cannot perform an experiment without having some impact on the outcome (for any number of potential reasons).
Any action you take to try and "observe" something will have an effect. Electrons currently cannot be detected/measured until we hit them with photons, but in doing so we cause a change in the behavior of the electrons.
In other words the means of measurement has a "cause/effect" relationship with what's being measured.
Think of it like shooting a ping pong ball across the surface of a lake... the lake being like photons. In doing so the particle, the ping pong ball, can have BOTH the properties of a particle AND a wave simultaneously.
But, like I said, that was just my first take. There's MORE to it, which has to deal with spin alignments caused by magnetic coupling and separation. Ideally I'd like to do some experiments in zero gravity, basically take some ping pong balls with magnets inside and then randomly toss them towards one another and see how they interact.

Personally, I think it would be better to quit talking of entangled particles and instead give up on the idea that there are 2 particles- at all -meaning that perhaps in certain cases, the 2 particles are not 2 particles at all and are instead a split wave function where the "entity" is not 2 particles at all but is actually ONE "thing" that has two pieces separated in space until a measurement when they are then split. Since the object is ONE thing ,not two (**ie there is NO pair) , it gets us away from the verbage about entangled as well as the language about communication between them --since there are not two things at all)

@Binguh Bungah amem

There are all spoons

There you only find out if you open the box.

It is never too old to become anything you want. I am also at the age of what you called '(un-capable). But I still study physics and am writing a book on my experiences with physics in school and outside of it. Don't give up. Here is my thought on the video.
There is a misconception about quantum entanglement which I've been familiar with for decades. Quantum entanglemen involves two patricles (electron or photon) that have interacted briefly. The spooky action at a distance is produced only, and I stress here the word ONLY if these two particles interact. No other situation will allow for EPR experiment to ensue. But I say; what is the state of wave function of two particles that had never interacted? The Universe is made of particles. So, what about some two random particles just floating in the Universe and suddenly they wanted to communicate with each other? From the prepositions of entanglement there has to be a predicate for a reqirement of particles interact. Let's say that there is no such thing as entanglement so no information nor communication is avaliable between such two entities. The Universe would be in chaos. I believe in non-locatity and all parts of the Universe must be in constant communication with its own parts.
Another thing I have never heard phycisists do: why don't they entangle three particles by briefly letting three electrons interact with each other? What would happen then?
Also, the nothingness is a part of object permanence.

@Binguh Bungah Woah crazy over here

@@hazel6221 Not crazy, just ignorant and cheated.

@Binguh Bungah clearly you're delusional

How would you know whether or not you were in an advanced simulator? How could you prove either way?

@@tensevo
That is a very unique question, a digital agent and existing scene are detectable by a device that already contains algorithm keys that can access an actual copy of the digital agent and pick up background scenes, where it can input a record of the time and event the digital agent exist to allow the digital agent to access a copy of themselves.
The device that can input the digital agent detects their programmed energy as active, and it stores a new algorithm key through each copy in a memory software machine bank. The only device within humanity that can verify a digital agent through a digital screen is a camera. The technological design of a camera shows that the actual person who created the device knows they're a digital agent, and they know how there's a biosoftware machine that can simulate programmed energy very fluidly to build up existence.

Same with the dislike! :)

WOW i wish this wasnt 2016 and i hadnt seen that comment 5 years ago

says the guy named roflcopter with a old meme as a profile pic

sunjot grewal the fuck? wouldnt that just prove that i saw it that long ago? you inbred fuck

r0flc0pterl0l talking about annoying dated memes when ur made of dated memes is hypocritical

ditto!!

Well locality has been disproven definitively, it's just realism that's up for grabs now.

No, Matt said at the very end that locality and realism can be preserved with the Many Worlds interpretation. Also I'm supposing that if entangled particles are connected by wormholes then locality would be preserved since no signal would travel at faster than the speed of light between the particles.

Classical locality would not be preserved if they were connected by wormholes. This is exactly what bell was speculating when he said bohm has put on the right path.... Particle entanglement via wormhole is not considered to be local. Aspects experiments proved that bells inequality to be false showing that the universe is in fact non local, remember locality comes out of classical mechanics and more specifically our modern notions of locality is derived from General relativity. If your interested in this subject matter you should look into all the physicist doing work under the banner name of " a quantum theory without observers". As far as many worlds there is no evidence to support such a claim and why you now see many quantum computing physicists turning the corner and leaning towards bohms interpretations of quantum mechanics. The many worlds interpretations must invoke ontological principals (such as an infinity of universes) which we have no way of showing evidence for such a claim currently. By most philosophers/physicists standards/accounts the many worlds is not a realistic account of reality as per the major caveat I have mentioned above and is why many QC experts have abandoned the MWI, it just does not make any sense with current observations. As I said this can all change but there seems to be good reason to be sympathetic with Bell in that we should see that bohm in fact has shown us a way, obviously not the way, but certainly a start to a better interpretations.

I always wondered if the quantum world weird behavior could explained by having an additional time dimension at least at that scale 🤔

Looking for this comment🤣

Hilarious!!!🤣🤣🤣☄️☄️☄️

Can it ever be experimentally ruled out? Besides which we always implicitly assume the freedom of the experimenter. This fundamental assumption is essential to doing science. If this were not true, then, I suggest, it would make no sense at all to ask nature questions in an experiment, since then nature could determine what our questions are, and that could 'guide' our questions such that we arrive at a false picture of nature.

Nice one... That's even funnier than pilot waves :p

Testing Superdeterminism directly sounds substantially more difficult than testing models that feature Superdeterminism. I agree with you that the topic of Superdeterminism has not been adequately explored. The "Science would be impossible" complaint is a red herring.

You look more magenta than pink.

more x ray than magenta

more human than a human

lol

lol

But why encrypt a simulation? Why not just have everything nice and simple? Certainly we don't encrypt our simulations, only things like messages we send to each other.

Because we need to have the illusion of free will

who's to say the simulation doesn't have bugs and therefore failsafes are needed?

You might be thinking with the wrong mindset. Looking at the universe around us as a human we find patterns. Is this good or bad? In some cases yes and in some no. But ultimately our knowledge is so nearsighted that we can not tell.

That's what I was thinking this quantum entanglement and quantum mechanics leans towards us being in a simulation! CRAZY!

I'm glad we made it to 19996. Why did you have to come back? What are you hiding?

Noble price lol

No, I like the one with the wild eyebrows better.

Many people think this remains the best video he's ever made, even when you're not watching it. However experiments with comment sections have shown that we must abandon the idea of a universal best. Instead it may be that every viewer has a different favorite video based on 'hidden viewer preferences'.

Lol

I disagree. I think this video tries to do too much. Putting entanglement, EPR, Bell, and interpretation of those implications all in one video makes it impossible to properly explain it to those who don't already know these topics and also leaves insufficient time to add to the level of understanding for those who do know this stuff already. I'm hoping this is just an introduction to those topics because it is not up to the level of explanation you usually get in this channel. I'm used to learning something new even in topics I know well. That wasn't the case here. He just tried to do too much in a single video in my opinion.

Sam, who says it has to be explained in one video? There could be a whole series of videos on these topics.

Something something childish actions something something child's play

Babies have ruined my life. Somebody bring me back to reality!

Babies don't solve problems they make them.

Maybe this is the matrix's way of minimising resource use. When no one is observing an object or space, it no longer exists.
I can only assume that it was not intended for us to discover this 'new' reality. We're all going to get reset if the physicists don't stop their research!!

+ttrev007 And adults makes babies...

Yeah but that sort of destroys the basis for science, he also said '[W]e always implicitly assume the freedom of the experimentalist... This fundamental assumption is essential to doing science. If this were not true, then, I suggest, it would make no sense at all to ask nature questions in an experiment, since then nature could determine what our questions are, and that could guide our questions such that we arrive at a false picture of nature.'

superdeterminism does not really add or subtract anything from the problem. It only becomes a useful framework if super measurement is also a factor, but we do not have that.
Physically there is a good chance that superdeterminism is indeed the underlying mechanic, but the parameters it depends on are beneath what can actually be measured, so it is a useless framework. QM works fine in such a model, all of the probabilities and wave functions come out exactly the same... and that is the problem, they come out exactly the same.

A much simpler idea is that reality simply cannot be tricked.
If you measured one and the other one did not have opposite spin it would be a violation of angular momentum.
Reality simply forbids that. The easiest and cheapest way (maybe only possible way) to do that is to have the other entangled particle have opposite spin.
That's why two entangled particles are mathematically one and the same.

@@Anon-uv9mj im no scientist but i doubt particles choose a state after only being observed

what I understood from Veritasium's video (not the one mentioned in this one, I believe) is that:
the particles don't choose properties when they are observed, all scenarios keep existing, in each scenario the particle has a property. What happens during the observation is that the observer entangles himself with one of those scenarios, thus only seeing one of the properties.
Actually, the observer splits in many different observers, one in each "timeline", each version of the observer gets entangled with a scenario and interacts with only that scenario.

Yes but that is only one of the possible interpretations.

Same here bro. But if you devote some time to studying up some basics with the vast amounts of videos available on TH-cam, then the PBS Spacetime videos STARTS to make sense. That feeling is really cool tho, ngl.
I highly recommend the DAILY EQUATION videos by Dr Brian Greene

@@schrodingersdad6077 Believe it or not, but 3 years on from that original comment and I am now a physics undergrad (first year completed). Thanks for the Dr. Briane Greene recommendation though. I will be sure to check it out.

@@G-doubleU Wow that's awesome dude.
I'm currently doing medicine, wish I found my love for Physics a few years earlier. But I was never really good at any Math lol.

No, it's not late, it's just on time in my refernce frame.

But if this is youe current reference frame, then last week's was early for you?

lmao this guy^^^

Know Sci Man Dan, the Science-Man?

@Binguh Bungah What?

@Binguh Bungah Bruh wtf are you talking about. And did you call Bohr a... Greek? You're legit speaking gibberish at this point.

Einstein's relativity still preserved locality and causality, but the copenhagen interpretation of quantum mechanics treads dangerously close to not preserving them given quantum entanglement. But it is as the video says, information is not transmitted faster than light in entanglement.

Try watching the other quantum videos from this channel. Itll help alot.

Lament! 'Cause you are missing out a lot on the extraordinary experience of being a member of a technologically and scientifically advanced species.

I know enough to keep up most of the time with the basis of stuff like quantum entanglement, but I have to focus a lot when he's mathing for various reasons. My brain generally awes at the math and avoids the Algebra.

ZeanutJam Cool

me too..... I get what he says but I feel stupid because I'm just an observer not someone who understand these stuff on his own and even though I have a hard time understanding it. quantum mechanics doesn't make sense and that's the problem with it and its beauty, the world is not obligated to make sense for us, it is what it is and probably only we humans see it this way...

Alex B the wave function doesn’t collapse until we observe it

It's because people misunderstand what "observer" means in this context. Makes me laugh but makes me a bit sad too.

From my understanding it collapses not because we observe it, but because we interfere with it in an attempt to observe it.

It's not their fault, it's the fault of scientists constantly, casually patronizing young minds by just telling them that OBSERVING quantum phenomena collapses the wave function, but refusing to actually clarify what they mean by "observe." They are believing the science they are taught. It's the fault of the teachers for lazily using the word 'observer' nonchalantly without bothering to specify EXACTLY WHAT THEY MEAN by something 'observing'/collapsing the wave function, i.e. what are the exact, actual, specific criteria.
I actually still don't even know and I've been watching physics videos since I was young. Because none of the big channels will explain it. None. They just wave it off like it's too complex to get into and we should just take it at face value.

+Lil Soybean
Hold up right there. So they just believe whatever a teacher tells them to and you expect us not to judge them?

اني
me

If the actual teleportation using entanglement can take place, doesn't that violate causality?

it does violate it

@@mathematicalninja2756 no it doesn't, you can't use entanglement dynamically, the teleported particles are pre-made its like your clones, ready to take your place when you're destroyed..

If you flip the axis of the paired particle the parent particle also flips the axis even though an initial observation indicated a different axis alignment. It was verified through multiple observations. You can also measure it at angles like 45 degrees that would preserve orientation I believe. Please correct me if I'm wrong.

No you didn't miss something, they completely left that out. He did however mention another video, which is the best explanation I've seen, Here it is th-cam.com/video/ZuvK-od647c/w-d-xo.html
And for a mind-boggling demonstration using polarizing filters (which you could presumably repeat yourself) see th-cam.com/video/ZuvK-od647c/w-d-xo.html

@@aviroe1 there is no inital observation i guess..he didn't the complete the explanation what happens to the other particle damn

當然是真的，PBS Space Time是最棒的。

We have created self-replicating Lego machines. They are called kids, and cause us to buy more and more Legos.

Probably, but those aren't subatomic particles. The thing is, if it's something we could never observe, how could we know whether it exists or not?

@@ChickSage - Mmmm ... okay. What's your point?

@@rubiks6
I was actually just responding to your question, as it related to the video. Your question got me thinking that, though, the principles of quantum mechanics can apply to everyday objects, everyday objects don't usually behave like subatomic particles.
I also thought about your question philosophically. If something exists, but we can never observe or confirm its existence, then it has all the same characteristics as something that doesn't exist. Thus a strong argument can be made that perception is reality, for all intents and purposes.

You are talking about the Universe as something that is independent from the observer.

That's dumb. If you stop looking at your device while watching a video the sound should theoretically stop.
Everything is in existence cause of the wave form. Just cause you don't see the object (like Einstein's moon theory), doesn't mean you don't feel the effects the moon causes.
See?

@@deathbydeviceable To "see" in quantum physics, is to "observe" which is to say, consciously observe meaning that cause-effect relationships are preserved. So regarding the double-slit experiment, we observe, or measure which slit the particle goes through and it resolves to a precise location, whereas when we do not observe, the particles acts like a wave of possibilities. Regarding the Universe, area occlusion hypothesis, it is not such a bad an idea, but I would remind the reader that this is all theoretical, so even if Quantum physics did ever prove that the Universe was a holographic projection or simulation, we should not confuse the map with the territory. If anything, it is our brains that simulate the Universe for us, it would make sense (from a survival and replication perspective) that our brains only process information that is causally of relevance to us (stuff that impacts our lives). It is not to say, the moon is not there when we are not looking, more that our brain stops processing the moon's existence, when it's effects cease to causally affect our lives.

@@tensevo the gravitational force is still there exerting it's force, just like the sun's and other planets. Sure the aspect of not looking at something the light isn't being processed to the eye, but it's still there making it's rounds to the brain, as you see the light bouncing off the object you're looking at (let's say wall) from the light source (moon, sun,)
Sure you can fit that kind of mentality to your life to help you have a better life. If it's not in view it doesn't exist, but like all news, it eventually makes it's rounds.
Since when did science become philosophical? Science is an understanding of all, not what you perceive reality to be. Science judges religion as easy answers, and what is science doing now? Easy answers cause no one has a clue outside philosophy. No one wants to look at all angles cause it "doesn't exist".
Fuck that, that cat in in one state, and that tree fell hard when no one was around. Why? Cause common sense tells me. We can see the aftermath. How's that for philosophy.

@@deathbydeviceable The frontier of Science has always been philosophical with many interpretations of possible realities offered up, before one emerges as the dominant view. Right now there are many different interpretations of Quantum mechanics, it is not settled or understood by a long way. Sure gravity is still there as an assumed constant, but then at one point we used to say the same about time, we assumed time was constant, now time is interchangeable with space. At one point Science said the Sun was the centre of the Universe. What do we think we know for sure today that will be mocked 500 years from now? LoL if you think you can use common sense to understand the Universe and quantum physics then, well, good luck with that.

Dude this is actually a plausible theory. You should post it somewhere. This is so underrated

Good read.

Write a paper on it

This theory actually makes the whole notion of an object existing in simultaneous states more plausible in my head. Thanks for sharing

Great thought. I've wondered if the Calabi-Yau Manifold doesn't play some part in exactly what you're describing. There are just extra textures and dimensions in space we can't see. Particles are moving in and out of these spatial dimensions, so the appearance of a probability wave (and it's collapse) is actually just normal movement through extra dimensional space, and the act of observation entangles it with us, with our higher dimensions, forcing it to emerge and "pick a side" so to speak.

people are just retarded science is the way to go

Oh, well... Wanna lose your hope in humanity? Check out the size of the audience of religion and superstition videos.

this comment makes me fell bad for being 30 min late to this video

You can counter that by looking at the subscribers to The bible Reloaded, Armored Skeptic, and others. Though I don't count Amazing Atheist, because he's kind of a dick.

what's more depressing than watching kids not pay attention in school is watching adults who didn't pay attention in school think there isn't anything more to learn in the world, or think that nothing they learned has been updated.

yeah I agree, how do they get entangled, how do you move them apart, I thought we can't even see a single electron let alone flip it measure it poke it and prod it

Well, people do say that "if you think you understand quantum physics, then you don't understand it" :)

Basically they're two particles that behave like they were one, linked somehow.

Entanglement usually requires two particles to be created in the same event. Electron-positron pairs can be made from energy (photons) for example, the opposite of matter-antimatter annihilation. They'll move apart naturally by themselves.
We can't 'see' electrons with light, but there are a lot of things (like magnetic fields) we can't see with light. We *can* measure single electrons in lots of ways, old TV 'cathode ray' tubes for example just fired them at a screen to make it light up.

The simplest way to explain it.
1) Quantum mechanics requires things to exist as spread out "waves" AKA to exist in all possible states they can exist at once. It's weird but summing up all possible states results in cool shapes verified by experiment (like the shapes of electron orbitals AKA the shapes of atoms).
2) Physics requires that things like angular momentum, linear momentum, lepton number, etc are exactly conserved.
Now take two photons get them to interact to create a positron electron pair. The photons are ALWAYS integer spin and they MUST have a total of 1, 0, or -1 and electrons or positrons are always either 1/2 or -1/2.
If you shoot photons that you know have a total spin of 0 and create the positron-electron pair we know that one will be spin 1/2 and the other -1/2. WHY? The angular momentum (spin) must be the same as we started -the initial and final momentums must be the same. HOWEVER, quantum mechanics says the states are blurred and BOTH particles are BOTH spin up and spin down until an interaction fixes them a certain way. Note: no entanglement occurs if the initial total spin was 1 (or -1). This is known as a "Triplet State" where no entanglement occurs (the entanglement state is the Singlet State).
Having a single particle existing in all possible states is weird but doesn't tell us much experimentally. HOWEVER, when two particles must together conserve some quantity AND exist in a superposition entanglement occurs.
If we have some situation where we know the initial angular momentum was exactly 0 and we know the daughter particles are an electron and a positron then we know these two particles are entangled. If we measure one particle we are certain of the spins of both particles. However, this certainty will quickly diminish because environmental noise can wash away the entanglement. What many think occurs is when particles further interact with the outside environment they further entangle with those particles obscuring/complicating the original controlled entanglement in unknown ways. This decoherence is a large limiting factor.

Awesome....... I mean all the modern and some of even the unknown scientists like Compton, Olber and many others..... It was fun reading this

It great ...you done a tough job to share ...

👏👏👏

because the entire entanglement theory is based on flawed measurements made by flawed equipment. I don't think it's real. it's an artifact of the way we measure, not a real result.

Do you want the universe to explode?!

To be exact: the Spins are always opposite *if they are measured along the same axis*.
Usually, unless the axis chosen is fully horizontal _[and even then if you want to avoid confusion]_ one direction along the measurement axis is labelled "Up", while the other is labelled "Down". If you measure them at axes perpendicular to each other, there is a 50% chance both will be "Up" along their respective axis, while there is also a 50% chance they will be 'opposite', with one pointing "Up" along it's measured axis, and one pointing "Down" along the other axis.
In fact, Bell's inequalities were derived from a scenario with 3 axes, which were at 120° angle with respect to one another, which, assuming the Spin can be influenced non-Locally by means of the first measurement, gives a 75% chance that the Spin result will have the "same direction" when they are measured along the first axis, compared to a 0% chance when measured along the same axis. Since across all experiments, 2/3 of them will feature measurement along different axes, the total ratio of "same Spin"' vs "different Spin" should be (3.4)*(2/3) = 0,5, so 50/50, in this scenario.
On the other hand, it turns out that when Spin *can't* be influenced non-Locally, the percentage of "same Spin" across all pairs measured should lie between 0% and 4/9, so never reaching 50%, giving a neat little distinction between the two possibilities.
The results of experiments show that the distribution is indeed 50/50, so if you want to keep Reality, you need to give up Locality. Of course, Einstein, Podolsky and Rosen's Thought Experiment _[aka the "EPR Paradox"]_ showed that if we should *abandon* Reality, we *also* need to give up Locality. This is where Bell's "opinion", which is actually fact, that the two together show that Entanglement is non-Local came from.

And i believe that Einstein was only scared to express any real opinions about quantum mechanics. Thats an easy way to lose your job and nobel price back then.

Sandy Crotch That is the point: we can't meassure instantly two points in spacetime to an "absolute" degree and if I understand this right, this is also denied by Relativity.

@Bellatrix Braojos i do but then again im a nobody so...

Clauser, John Clauser

Why have I been seeing you in yt comments for like 7 years I can’t get away lol

Colin DuPée Yes it has been verified for electrons, see e.g. Hensen et al (2015), Loophole-free Bell inequality violation using electron spins separated by 1.3 kilometers, Nature 526 pp682-686

...but the speed of light is finite. the universe is not.

@@jvincent6548 If I understand correctly he means that light experiences no time, it can't in fact, since it is traveling at the speed of light (obviously). So the light, in relation to itself, takes no time to reach the end of the universe.

@@texashankpalmer876 It is breaking laws of physics then. Light's photons travel at 3 x 10**8 mps. Right? So light experiences time and that is why we say 'so many light years away', for example.

@@jvincent6548 No that's actually what the laws of physics tell us. The light from our prospective does take time to get from point A to point B. Light from it's own prospective doesn't experience time. Take a look at this, th-cam.com/video/ACUuFg9Y9dY/w-d-xo.html He explains it much better than I can.

Yea that's what's so spooky about it. It's faster than light, it has no speed because its instantaneous

Nah. The lab on Pluto would always see a particle in a collapsed state, regardless of whether the lab on Earth has measured their particle or not. This is because in order to check if the Earth particle was measured, the Pluto lab would have to measure their particle. Thus, no information is transferred.

No, because you can't know the state of your particle unless you look at it.
So you don't have any possibility to know that it has "changed".
So the only information that you have is that the state of your particle is the "oposite" of the other one, and you only get this message with the message from earth. So, no, it's not faster than light communication.

No, there is no faster-than-light communication of information.
Knowing that the other side has the opposite spin that you just measured is not transferred information since the spin you measured was random in the first place.

There's no 'information' being transmitted. If the Pluto lab observes their particle, they collapse the Earth particle as well, so there's no way for them to see if the Earth lab has made their measurement without waiting for the communication. Despite the particles interacting with each other, causality is preserved since no information oa transmitted.

In general it's referred to as 'spin' since it relates to angular momentum. (How much it will make something that *can* spin spin when absorbed.) This leads to weird things like the 1/2 spin meaning an electron needs to be turned around twice before it gets back to its original state. *This* leads to claims that spin is not real.
However you *can* view a spin as being a real property; as a polarization of energy in a wave (which all particles behave as.) This paper gives a more thorough description: www.physics.mcmaster.ca/phys3mm3/notes/whatisspin.pdf

"Spin" is an abstract group theoretical concept: it refers to the way fields transform as reps of the universal cover of the Lorentz group (i.e., it's relativistic - though you may actually trace the core of the idea to the more mundane SO(3) -, which is why they're so akin to rotations. When you quantize the field, the spin accordingly becomes an observable with discrete (eigen)values, and follows the familiar algebra of angular momentum. Experimentally, we observe it as "excess" degrees of freedom: if all things equal a particle can have 2s+1 different states (you can see the this with e.g. a magnet), then you say you have a particle of spin s. What I've just said is actually more general than spins: it's the logic that people used to postulate the existence of colors (QCD).

Actually there is no classical analogue to that spin thing. There's no way to describe that "spin" in any classical sense

Yoga superpositions*

Any "measurement" or "observation" at quantum scale is performed by interfering with the measured/observed thing. Whether bouncing one particle against another, subjecting it to an magnetic field, or intercepting a wave with a reactive material. We cannot "see" anything at that scale, and indeed, to see involves intercepting photon wave particles with a material that reacts to very specific photon wave frequencies, we "see" by the brain interpreting a vast number of these interceptions, against molecular structures that are specifically sensitive to certain ranges of frequencies, what we call red, green and blue.

I think that Matt is very conservative in his approach. Others are well comvinced about the importance of the observer, for example.

Oh sure, it may say "quantum yoga" on the doorsign. But until you go through the door, can you really prove what they are doing in there?

THANK YOU for stating this

Actually, i think this could be prove that we are in fact in a sim universe. Something not existing unless observed might be a way for "God's" computer to save up some ram by not having to render it to be real unless observed

I find this absurd. It makes humans the center of the universe, the creators of the universe. I'm no Einstein but if people by measuring something cause it to come into existence, what does it mean if we study ourselves?

I think people misunderstand the meaning of “observer” and “measurement”

someone answer man. plz

No, that violates the causality rule of GR (no info travels faster than light) Also, in order to encode some sort of info into the entangled particles, you would need to observe or measure the particles. And according to entanglement, once one of the particles is observed, the wave function collapses and the entanglement stops existing.
Sorry for the late reply

+Afshar So far it seems like no way to send or receive any (meaningful) information through entagled particles, like alone teleporting a being like yourself made of trillions upon trillions upon trillions (go on for about half the page) amount of different particles that you'd somehow all have to perfectly entangle and duplicate on the other side, and even if you accomplished that impossible task would that "copy" of you on the other side really be "you"?

Afshar ali: The Great Iranian search for Anton Zeilinger, he is a leader in Quantum communication and teleporting, but for me is more making a copy than teleporting.

I agree, teleporting would be more with Einstein-Rosen bridges.

It's not influencing the other particle in the conventional sense. The spin of the particles are unknown, but we know the relation between them: they have opposite spin. Their waves collapse when we observe them and the relation is satisfied instantaneously- faster than the speed of light.
This is not the same information in the classical sense such as the motion of a ball or the state of an object in a black hole. Technically, to confirm the spin of the second particle, you would need to measure it, and both this process of measuring and the observer are bound by locality. So another someone else can observe the second particle first and take a look at the other one and get the same result. But the information between these two observers is bound by locality.
On another note, faster-than-light transfer of information via entanglement is being studied and could play a role in communication between quantum computer's.

I also believe the speed at which you can know the information will still be bound by causality

@@okamisensei7270 Thats the up down part you're talking about. But kaylor87 means the direction of the field that you align the particle with. That alignment should also be found at the entangled particle. How is that not information being sent?

Okami Sensei can you pls explain in simpler words if you know that your answer is 100% right? Bc I dont understand like if one particle is lets say blue, and you know that entanglement always works, wouldn’t you automatically know that the other is red? And if someone on the other side of the universe sees that his is red, wouldn’t they understand that the other one is blue? Why would they have to meet and compare?

en.m.wikipedia.org/wiki/No-communication_theorem

Maybe because he had inferior eyebrows?

It was so long ago I don't remember if he even had eyebrows :o)

Same. But my high school Physics teacher couldn't grow a proper beard either. So that's a huge handicap he was dealing with from the start.

This is a popular-level video without the math and details. That really is not what makes up physics. You won't be able to write a single academic paper, nor solve a single problem in quantum mechanics by watching videos like this. These videos, and their hosts, are meant to inform and entertain, not serve to be pedagogical.

i was lucky, my high school physics teacher was awesome. one of those teachers that gets you engaged in learning, not just quoting from a text book. come to think of it my 7th grade science teacher was like that too... huh. guess i got lucky, definitely put fuel on the fire for my love of science today

Really? I was pretty Bhored.

The pinky swear bit... Interesting idea haha... I wonder.

Ish El please explain. We want to know more