Does Quantum Entanglement Allow for Faster-Than-Light Communication?

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Quantum entanglement allows particles to affect one another faster than the speed of light. So does this mean we could one day build a device to exploit this and enable superluminal communication? A popular trope in sci-fi for sure, but today let's look at the science.
Presented by Prof David Kipping (Columbia). Special thanks to Prof. Ehud Altman (Berkeley), Prof Tim Byrnes (NYU) & Prof. Raquel Queiroz (Columbia) for fact checking our script.
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::References::
► Gisin (2014), "Quantum measurement of spins and magnets, and the classical limit of PR-boxes", : arxiv.org/abs/1407.8122
► Pawlowski et al. (2009), "Information causality as a physical principle", Nature, 461, 1101: arxiv.org/abs/0905.2292
► Einstein et al. (1935), "Can Quantum-Mechanical Description of Physical Reality Be Considered Complete?", PhysRev, 47, 777: journals.aps.org/pr/abstract/...
► Salart et al. (208), "Testing spooky action at a distance", Nature, 454, 861: arxiv.org/abs/0808.3316
::Further video resources::
► "Why You Can't Use Quantum Mechanics to Communicate Faster Than Light?" by Looking Glass Universe • Why Can't You Use Quan...
► "The puzzling tension between faster-than-light communication and quantum mechanics" by NYU Quantum Technology Lab: • The puzzling tension b...
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Music licensed by SoundStripe.com (SS) [shorturl.at/ptBHI], or via Creative Commons (CC) Attribution License (creativecommons.org/licenses/..., or with permission from the artist
► Brad Hill - When Darkness is No Longer Dark (0:00) [open.spotify.com/track/2hU8Ly...]
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::Film/TV clips used::
► Moonfall (Lionsgate)
► Passengers (Sony Pictures Releasing)
► Mankind: The Story of All of Us (History Channel)
► Foundation (Apple Inc.)
► Interstellar (Paramount Pictures)
► Contact (Warner Bros.)
► Arrival (Paramount Pictures)
► Back to the Future (Universal Pictures)
► Avatar (20th Century Fox)
► Mass Effect 2 (Bioware)
► The Matrix (Warner Bros.)
► Star Trek: The Next Generation (Paramount Television)
► Star Wars: the Last Jedi (Walt Disney Studios Motion Pictures)
► Genius (National Geographic)
► Star Trek (Paramount Television)
► Star Trek: The Motion Picture (Paramount Pictures)
::Chapters::
00:00 The FTL Dream
02:10 Relativistic FTL?
03:41 Quantum FTL?
06:27 Quantum 101
09:01 FTL Action at Distance
10:33 How to Exploit?
12:23 Idea 1: Repeat Measurements
14:16 Idea 2: Double Slits
18:04 Idea 3: XY Switching
22:20 Where From Here?
28:11 Outro & Credits
#Quantum #ftlfasterthanlight #CoolWorlds

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Комментарии : 7 тыс.

@Schottingham Год назад

I love how many of these videos with a question in the title turn out to be "probably not", because you're clearly not setting out to prove these things wrong; in fact you (and maybe most of us) want the answers to be 'yes', but you seem to really work through the science and find that the evidence is just not there. This is the sort of critical thinking we need to teach.

@chrisbarry9345 Год назад

Except that our understanding of sciences laughably and complete. It's openly acknowledged that we can't account for 96% of the effects within the universe. We want to call it dark this or dark that but when you consider how quantum particles are said to pop in and out of fields and combine that with us calling the universe so-called dark, isn't there a lot to say there could be more that we don't know like other dimensions

@SteedRuckus Год назад

It's sad how so few people actually understand that the scientific method doesn't just bilaterally prove or disprove something tested - either the results are statistically significant in a way that supports one's hypothesis (and further research is necessary for any kind of confidence in confirmation), or you get the "null" result of "something else", which doesn't prove or disprove anything either, it simply indicates that the very specific variable tested is not the cause to your very specific effect (and further research is necessary for any confidence in de-confirming anything). Basically, no matter what the result, further research is necessary nearly 100% of the time.

@Schottingham Год назад

@@chrisbarry9345 I was careful to say 'probably' because yes, of course there could always be something we haven't discovered yet

@rockdesertsun8246 Год назад

@@chrisbarry9345 I can account for 100% 'of the effects within the universe'..... God.

@SteedRuckus Год назад

@@rockdesertsun8246 I hope that's sarcasm, otherwise it's a literal logical fallacy to bring in an "argument from the metaphysical" because all rules of logic are now out the window in a debate/discussion. Saying "God did it" is the singularity of debate - once you pass it's event horizon, it's impossible to continue that specific course of logic.

@BRUXXUS Год назад

I've watched, read, and listened to hours of explanations of why QEC should be impossible, and you effortlessly, finally made it clear. It's so much simpler than I tried understanding that it makes me a little frustrated that it's been so poorly communicated by others.

@Elmithian Год назад

And I still think we should try to attempt the impossible. If we just decide stay within the boundaries of what we think are the laws and limits, we just end back at the 1899s when patent commissioner at the US branch made the claim "everything that can be invented has been invented." Yes, I am fully aware that lot of stuff is very likely just as it seems, but we still are going to hafta push the boundaries, otherwise, how are we going to fully map out all of said boundaries? Plus, outside the box thinking is what got us the theory of relativity and quantum theories after all. Science should not deal in complete absolutes. If someone tells you "this will never work" they are likely not worth listening to. If they say that "by our current understanding of how things operate it should not work", then they are worth atl lending an ear to. Again, ofc you should ratio your doubts in accordance in science to how well something has been tested, but you should not just wave off left field ideas before you have made sure to make the appropriate tests to confirm that is something that doesn't seem to work.

@e_neko Год назад

There's still a little problem there. Bell's experiments so far show that entangled pairs are NOT like pre-selected left or right shoes in sealed boxes. The selection really does happen when the "boxes" are opened. Perhaps one day we can find how to exploit this.

@BRUXXUS Год назад

@@Elmithian Oh, I totally agree!

@murphyrichard6485 Год назад

He did a great job explaining

@usmh Год назад

Yeah, that's something I've noticed in general. Physicists are terrible at communicating their field.

@geogabegalan Год назад

This is a very informative video. Quantum entanglement cannot be used for FTL communication, due to its inherent randomness. But there's another thing worthy of note here. The consensus is that information and causality don't travel faster than light. With quantum entanglement, the collapse of the wave function after measuring one particle, is transmitted to its entangled partner much faster than light. But this is not called "information", but "action at a distance". But information and action have blurred boundaries between them. Every exchange of information involves a physical action. For instance, if I get information through sound waves, the waves have to do the action of vibrating my ear-drums. And if I use my arm to lift a book, I am also sending it the information to alter its spatial co-ordinates. And it is not said that it travels "faster than light" (well, you said it in the vid, and kudos to you for that, but some others don't), but that its "non-local". It seems to me that these distinct terms for quantum mechanical phenomena only obscure the simple fact that: We have discovered three speed limits in nature. 1. The speed of sound in any given material, which is the natural speed limit of mechanical waves in that material. Nature has many random sources of sound, like thunder. But we can use sound in a non-random way to communicate. We also surpassed the speed of sound with supersonic technology and EM waves. 2. The speed of light in the vacuum. This is the natural speed limit for matter/energy travelling relative to the reference-frame of another system of matter/energy, as well as information and causality travelling between systems of matter/energy that are not quantum entangled. Nature has many random sources of EM waves, like lighting. But we also learned to harness EM waves for communication. We also learned to detect random sources of gravitational waves, though we can't harness gravitational waves yet. The only source of faster then light transfer of information/action that we know of so far is number 3 below. 3. The speed of transmission of information/action at a distance, from one quantum-entangled particle to its partner, to maintain the entanglement at a distance; as well as the collapse of the wave function from a measured particle to its entangled partner. Here, the entangled particles are natural, random sources of...whatever it is that is being transmitted between them to maintain the entanglement. A classical analogy to quantum entanglement might be acoustic resonance. An even closer analogy might be the *synchronised*phase*opposition*of*two*pendulum*clocks* (you can google it, its interesting). Here, the means by which the synchronisation is maintained are: the "non-local hidden variable" of acoustic waves transmitted from each clock to its partner through the substrate (say, a wooden beam) to which they are both attached. If we can identify the "whatever-it-is" that is being sent by entangled particles to each other, to do action at a distance between them, then we can dispense with quantum entanglement, and build a device that uses this "whatever-it-is" to communicate faster than light. Have you made, or are you planning to make a vid about interpretations of QM that involve non-local hidden variables ("whatever-it-is"), like Bohm's pilot wave, and their possible use (or not) for FTL communication? It would be interesting to hear your take on this.

@StevenScienceNTech 3 месяца назад

Hi, I built a simulation setup that demonstrates FTL communication. Maybe can check that out? ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-hYZQTw-BoME.htmlsi=lcKdBBlY2g8Lsfwf

@jordanwhisson5407 18 дней назад

Plenty of things travel faster than the speed of light including some galaxies

@KazuDiabolis 10 дней назад

@@jordanwhisson5407 cap

@TheInterestingInformer 23 дня назад

I always click on these videos knowing the answer is gonna be no, but always hoping I’m wrong

@glitcherade1482 Год назад

It's the first time I actually understood entanglement, very well done mate, I always love your way of explaining.

@immortalsofar5314 Год назад

Why did nobody else explain the shoe box? That's all they have to say!

@gravoc857 Год назад

@@immortalsofar5314 Because the shoe box by itself doesn’t do it justice. People still get caught up in thinking about “well, both know that the other has the corresponding pair, so they have a full set!”. This indicates a thinking that some how you can come to a forced measurable result. Kipping explained beforehand that it’s entirely random, and that no matter what you do to the entangled pair, it always results in a randomized dice roll that provides no relevant information if you only have half the set. In other words, if you get a left shoe. You don’t know that you have a left shoe, unless you can see the data of the other party. The shoe is only a left shoe, relative to the other previously entangled particle. Without knowing the state of the other particle, you’re left with an annoyingly undefinable particle. This is also where the Heisenberg uncertainty principle comes in. Measuring for one vector, increases the uncertainty in another vector. Measure it’s location, and the speed becomes blurry. Measure the speed, and it’s location becomes blurry. You need multiple measurements, but only one measurement can be applied before the super-positioned entanglement ends.

@ologhai8559 Год назад

just put it in transparent shoebox 😂

@matthewfrost3677 Год назад

@@gravoc857 it sounds to me like quantum entanglement is not FTL in its action. It sounds to me like entanglement just imparts opposing Quantum fields causing them to collapse in the opposite directions when observed but not transmitting any information instead revealing their pre determined bias

@gravoc857 Год назад

@@matthewfrost3677 That’s what I used to think. That the information is perfectly symmetric. We need to remember though that measuring one particle will instantly reveal the nature of the second particle, no measurement required. If you and I’s assumption was correct, an entangled pair would require two measurements.

@mjbarge Год назад

Finally! An explanation I can actually understand. Your ability to communicate very complex ideas in such a clear and understandable way is by far the best I've come across. Keep up the great work!

@nickduplaga507 Год назад

If something is reacting at faster then light speed there is energy traveling at faster than light speed. Should be common sense. Also wormholes are possible in physics. Space can move time faster than light. Black holes singularity universe sees black hole frozen from aging, but it’s only perspective. The black hole can experience the universe aging faster into infinity even experiencing events that the universe can’t yet experience. The concept of negative energy that NASA claims is created by gravity.

@jaywulf Год назад

All that + lovely voice!

@EricMalette 11 месяцев назад

I read this terrific sci-fi series called The Gap, by Stephen R. Donaldson. I was in my teens, so I had no notion of the idea of entanglement or quantum. In the books the aliens called the Amnion, had this crystalline device that allowed them to communicate not only faster than light but essentially instantaneously. The shock of the human characters when discovering this was truly chilling. They could place their ships where they needed to be without dispatching a gap courier drone to cross the void. Truly hideous.

@HassanCodA-Xod8hm Месяц назад

Isaac Asimov. + Philip K Dick. 💘💘

@vladimirfilipovic5845 22 дня назад

You finally helped me understand why QEC should be impossible, you have a knack for explaining complex things , thank you, keep up the good work!

@DomovoiJr Год назад

Causality dictates that no one has finished this video yet at the moment I’m posting.

@PafMedic Год назад

Im Watching At The Moment,But Was Thinking The Same Thing😂😂😂

@wzrd7023 Год назад

what if someone watches it at 2x speed

@TennesseeJed Год назад

@@wzrd7023 ...and ½ speed on another device.

@danieladmassu941 Год назад

That just means Patreon members get to enjoy miracles. 🤔

@jasonfaerwald Год назад

You can if you set the video playback speed to FTL

@sandip100682 Год назад

Such a lovely video with amazing closing comments that are applicable for not just the context of this video, but life in general. Thanks for all your videos. Really love the way you explain things with such ease and fluidity

@jonnyjonjon333 8 месяцев назад

So, I know this will probably never been seen, but what if Bob and Alice have 2 entangled particles. If he wants to say yes, he collapses one of the particles and leaves the other entangled. If he wants to say no, he collapses both particles?

@alejandrinos 7 месяцев назад

The only way Alice can know if any of the particles collapsed, is by taking a measurement and collapsing them herself if they werent already, so she can't know if only one of the two was collapsed.

@CoolGear12 3 месяца назад

Good question good answer!

@kosterandpartners 3 месяца назад

Why cant the particles be collapsed in a rythem like morse code? You just register collapsing and the pauses between them...

@Zr0Bites 2 месяца назад

@@kosterandpartnersyou can collapse the particle with any rhythm you want, the receiver needs to collapse his own particle in order to read it, so you are only able to know the state of the particle at that specific moment.

@FirstLast-vt3ii 3 дня назад

@@Zr0Bites I thought if bob collapses, Alice collapses instantly. This disentanglement would be noted by the scientist. If there are two sets of entangled particles, but one morning the scientist comes into the lab and one set is no longer entangled, that’s a “yes”. (If both, “no”, if neither then the experiment is still running)

@n00bJesus 6 месяцев назад

As I was watching the 6 problems with warp drive vid, I was thinking what about entanglement, and if we could control a collection of entangled particles, etc. So I’m excited to watch!

@Benson_aka_devils_advocate_88 Год назад

This is something I've pondered ever since I learned about quantum entanglement. I've spent many nights thinking about the ways it may or may not work. I'm really glad you touched on this topic and I can't wait to see what your take is on it!

@friskeysunset Год назад

OutSTANDING work here. You took the whole thing apart and put it back together for me to understand that Einstein's limit is really about causality and the nitty-gritty of why all of my little fever-dreams for FTL communications are impossible using entanglement. In half an hour. Bravo. My heart is broken, of course, but you let me down as easily as anyone could have, and your closing remarks about facing reality as it is was right on target. Thanks.

@cyberfunk3793 Год назад

What we observe in quantum entanglement isn't possible according to relativity. The fact that we can't use it to communicate doesn't change that, if the particles can use it to communicte faster than light (as our observations currently seem to show) is enough to violate relativity. There seems to be no phycisist that currently can explain what we observe in QM. They don't know and can't say.

@Skrzynia Год назад

@@cyberfunk3793 Wrong. Nothing is violated here. The information can not travel faster than light and as the video explains, you can't send any information using QE even tho its faster than light. Its "nothing" that travels faster than c

@cyberfunk3793 Год назад

@@Skrzynia Special relativity is obviously violated by entanglement unless you think you know better than Einstein who wrote the theory. Einstein obviously agreed QM violated the principle of locality, that is the reason why the EPR paper came to be. The principle of locality means nothing (energy or matter) can travel faster than light, so no interaction can happen faster than that between A and B. It doesn't say, that we just can't use it to send information, that is an excuse people nowadays use when they don't wish to accept reality and that local realism and specialy relativity has been refuted empirically. The only way to avoid this conclusion is superdeterminism, so unless one is actually advocating for that they can't imply entanglement doesn't violate local realism. My personal opinion is that superdeterminism is absurd and really a childish cop out for people unable to follow the evidence when it takes them to inconvenient conclusions.

@KevinDC5 9 месяцев назад

i must say, i just subbed a couple months ago, but this is a GEM of an episode bro! good work!

@Jagdishtemkar1 Год назад

I thought that we can dictate which spin we want the particle to be in, and that is how Quantum Computing works. Now I need to revisit that again.

@larsnystrom6698 Год назад

@JAGDISH TEMKAR We can control the spin of particles, for example electrons, but then we get bits, and not qubits. So not quantum computing, just computing. The trick with quantum computing is to compute with bits in superimposed states, i.e., Qubits, until we read out the result at the end.

@WRanger87 2 месяца назад

@@larsnystrom6698but if you can force spin-states, as a bit, why can’t quantum entanglement work to send bits of information?

@I_SuperHiro_I 2 месяца назад

@@WRanger87send it how though?

@jcevans16 Год назад

I'm no rocket scientist, I can barely wrap my mind around what you're saying, but I am a science nut, I love all things space related. I love your presentation, for lack of a better description I find this video soothing? Its like Relaxing and learning at the same time. Sorry if I'm weird.

@BTScriviner Год назад

You're not weird. I get the same sense when I watch Dr Kipping's videos.

@antanaskiselis7919 Год назад

When you've started laying out examples I was hoping for mass effect. Thanks, nailed it. Also, thanks for the video, not long into it yet, but I was looking forward for something like this for years I think at this point.

@dmsoundcollective6746 8 месяцев назад

I don't know how to express how wonderful these videos are. I guess I can only say thank you David!! I love what you're doing

@pedroascencio_ 7 месяцев назад

If we can choose the axis in which the quantum wave collapses, regardless of orientation, we could express it as such: X = 1 Y = 0 That way the receiver will always be able to decipher the message.

@pedroascencio_ 7 месяцев назад

Alternatively, even if the wavefuction doesn’t collapse in the desired state. Couldn’t a Hadamard Gate set it back to Superposition until you get a new state?

@doggonemess1 Год назад

I am really proud of thinking up the "tachyonic telephone" when I was younger. I only discovered that someone had dreamed it up almost 80 years before I did, but I love the theory. Using tachyons, which may travel backwards through time, you can send a message to a far away receiver. They would get the signal in the past, relative to the distance light takes to travel that distance. I can form the idea in my head, but can't explain it. If you look up the term, someone else can do a better job than me.

@afnanejaz9297 Год назад

so technically tachyons don’t actually travel backwards through time, time is always moving forward with entropy and entropy can only be reversed by chance for split seconds at a time and i have no clue what im talking about why are you reading this

@WeRemainFaceless Год назад

Tachyons don't actually exist though. There's zero evidence to even remotely suggest their existence. But in reality, if communication with the past/future was actually possible...Tachyons wouldn't be needed. Simple Photons would be. You see, Photons, being massless, always travel at the speed of light. We know that anything travelling at the speed of light cannot experience time. From the perspective of the photon, there's no causality. Its emitted, travels and arrives instantaneously. Which then raises an oddly interesting point. If the Photon does not experience causality, in the classical sense of cause-effect, then all events that a photon is subject to, influences the photon throughout it's entire existence as we perceive it. So, observing a photon today, will have influenced that very same photon in the past. Scientists have proven this via the Delayed Choice quantum eraser experiments. The sad fact however, in order to observe such a change in the photon in the past, you must first know what change you have actually made to it. So the only way to decipher the information, is to first know what information you're trying to decipher. Hence, its not possible to send information faster than the speed of light.

@dananorth895 Год назад

@@WeRemainFaceless the photon follows a null geodesic path....interestingly this is how information gets around the universe. On the photonic level of reality it is instantaneous or synchronous.

@williamkoch1947 Год назад

@stewiesaidthat Год назад

@@WeRemainFaceless the very fact that photons are massless means they have a zero decay rate and thus don't experience 'time' aka change. Photons can travel at a speed anywhere between zero and infinity depending on the permeability and permittivity of the space it is traveling through. Nothing can go back in time because causality is instantaneous. Once an event takes place, it can never be changed. You can however 'witness' the event again in another location in space. The speed of light is the fastest information can be transmitted but you lose information with distance so the only thing you will 'see' are specs of light. You can't really do FTL though because electromagnetic waves are energy waves and the universe is made of energy. You would have to enter hyperspace or subspace where travel is faster than normal space.

@Parabol1Parabola Год назад

This is literally the best channel on RU-vid

@mccaderiggle4724 26 дней назад

One of the great videos on RU-vid, great job dude!

@charstevenson6817 Год назад

Yes, it is possible to use quantum entanglement to send information. This is known as "quantum teleportation," although it does not involve the actual physical transport of particles. In quantum teleportation, two entangled particles (typically photons) are used to transmit information from one location to another. The sender performs a measurement on the particle they wish to transmit, which destroys the original particle but also allows them to determine the state of the particle. They then send the information about the state of the particle to the receiver using classical communication methods, such as a phone call or internet connection. The receiver can then use this information to perform an operation on their entangled particle, effectively "recreating" the original particle with the same state as the one that was destroyed at the sender's location. The advantage of using quantum teleportation is that it allows for secure communication, since any attempt to eavesdrop on the transmission would disturb the entangled particles and be detectable. However, it is important to note that quantum teleportation alone cannot be used for faster-than-light communication, since the classical communication step is still limited by the speed of light.

@WokeandProud 9 месяцев назад

This is utterly impossible too because of the uncertainty principle.

@twelfthhausjones6753 9 месяцев назад

I'm sure this is the reason we haven't progressed too much with time travel. You mean I have to destroy myself to test it out? What about James. He never does shit around here anyway

@user-qt5xm2xp2f 5 месяцев назад

You seem to be describing the QKD BB-84 protocol. Despite the name, QKD is about agreeing on a key (mutually determining a key), NOT transmitting a key. You create a stream of pairs of entangled photons -- one is "read" by one user, the other by a second (and at least one of the particles has to be sent, speed of light to the other end of the channel). The classical channel (speed of light) is used to determine what measurement to make/which particles to measure. The HUGE problem with such approaches are that they are slow (bitrate - relative to conventional comms) and although they are secure because you can DETECT eavesdropping, they are EASY to "jam."

@CHIIIEEEEEEEEFFFFSSS Год назад

Every single time I thought of a potential solution, you said it right as the thought was entering my brain, in the same order I thought of them.

@rosaeruber225 Год назад

what did you expect? experts know what they're doing.

@CHIIIEEEEEEEEFFFFSSS Год назад

@@rosaeruber225 he's positing it as a thought experiment. I was playing along. I didn't really expect to think of a solution while I sat watching a youtube video. It was more that I had a repeated series of "why not _______?" just as he started to explain that very solution each time.

@xxxjamxxx638 Год назад

I always feel like I'm transcending somewhere when watching these videos, completely mind blown and just don't want them to end. Defo gonna grab one of those t-shirts one day! Keep up the amazing work!!!

@Ron4885 Год назад

Agree *xxxjamxxx* . By the way. I have 2 of the shirts.

@unreachablesecretary Год назад

Time for more mind blowing: Since FTL Comms can't happen, that means not even a solar system wide civ would be able to have a decent timed communication system since even communicating to Mars would require 7 mins per message (avg) Edit: Even the moon would take a whole 1.3 secs...

@Skynet_the_AI Год назад

Get it get it, you know… Hennything IS Possible!

@firestarter923 Год назад

I already have a cool worlds hoodie and a mug, well worth it to remind myself to stay thoughtful and curious (and they actually look great) 😀

@xxxjamxxx638 Год назад

@@firestarter923 Nice! Plus if you're wearing it out and someone clocks it, you just know they're going to be cool!

@harryshriver6223 Месяц назад

As someone famously once said, you got to play the cards that life feels you sometimes you win sometimes they lose but at least you're in the game

@jamesab- Год назад

I feel stoned watching these

@Test-nr3cd Месяц назад

Maybe you are. 😊

@KazuDiabolis 10 дней назад

i *am* stoned watching these

@D33zNutzOnyaChin Год назад

Best explanation of this topic I've heard, thank you. Not only that, your final thought went beyond the science and was just a great lesson for life as a whole. Great job 👊🏿

@MagnusErikssonIsMe Год назад

Really awesome video! Really easy to follow and understand, even though the concepts are advanced. I do realize that most things might be and "over simplifications" when talking about quantum physics etc, but it did give a bunch of "aha"-moments. It's very appreciated!

@mon573r6 Год назад

It's definitely a nice video. I don't necessarily agree the assertions, but fun to watch nonetheless. Also If your still murky on any of the concepts, feel free to ask. If I notice the comment I'll answer. Not sure I'd consider myself an 'expert' but I've always loved stuff relating to Quantum mechanics and/or Theoretical mechanics with practical applications. ^.^

@wwatse 4 месяца назад

I literally asked myself this question the very first time i heard of quantum entanglement Thanks for this video

@jc_alpha Год назад

Wait, in this thought experiment, how would Alice know WHEN to LOOK at her particle? I thought the mere act of “looking” at a particle would make it collapse into a given state, no? Assuming Bob can somehow control the state of his particle before he measures it, Alice wouldn’t have a way to know when Bob has measured it because she would have to be “looking” at her particle waiting for Bob’s signal… but the moment she “looks” at her particle, it would collapse into a state because she looked at it, no? What am I missing? Are we assuming that the particle would be inside some machine that can detect when it has collapsed into a state without actually measuring it?

@robertowens7547 Год назад

You can solve that problem by just having a set time to check the particle, knowing like 3 seconds prior bob interacted then Alice just has to check at the specified time to see the message, if there is any. I think at least.

@spody1005 Год назад

Great question and great answer

@spody1005 Год назад

Thank you, your question has helped me in my figuring as to how and why ftl commo is indeed possible

@jc_alpha Год назад

@@spody1005 but based on this thought experiment, ftl communication is actually not possible, right?

@spody1005 Год назад

@@jc_alpha it's not possible at the moment because noone has applied the methods that seem to imply that it is possible. You touched on an important issue when you asked about the particle collapse. We don't need to control the particles state. I see it like this, instead of trying to send a message by determining the spin of a particle, imagine if we only looked for the collapse itself. Whenever a pair was observed, the collapse into a given state could correlate with a true/false signal. Like binary code or like a Morse signal controlled and timed very precisely , we could develop a system that deciphers a message based the observation of whether an entangled pair has collapsed or not into a given state. O's and 1's, true or false. All the physicists seen to be focusing the randomness of the spin outcome. I don't think the orientation of the particle is what's important here.

@VeganSpaceScientist Год назад

Cool to see 'ansible' mentioned, as it's the first thing that came to mind when I saw this video title! I came across the concept of an ansible (device for FTL communication) in the Ender's Game series, but it was an homage to Le Guin's work.

@dominicmillerca Год назад

After listening to a lecture by Alain Aspect two weeks ago, I've decided to attack the subject with the book "Introduction to Quantum Mechanics" by David J Griffiths and Darrell F. Schroeter, it's pure food for the brain. Your video couldn't be more on target with the topic. As usual, very interesting and clear with a great sound quality and beautiful video editing. 👍

@knucklesamidge Год назад

That book is pretty great it seems. Do you know the maths?

@mxbishop 29 дней назад

This has got to be one of the very best explanations of quantum entanglement I've ever seen posted on RU-vid. Thank you. The important take-away here is that entanglement is non-local - but even so - it does not violate causality. But why is it non-local? I think one area that needs more theoretical exploration is the idea that spacetime itself is quantized. If we imagine spacetime as quantized - it means spacetime particles (or whatever one wants to call them) can exist in superposition, and that means spacetime particles may exist as entangled pairs. So it may be the case that a pair of entangled electrons, derive their non-local status, because they exist within the same particle or envelope of entangled spacetime. The idea worth exploring is that there may be other dimensions that we do not observe directly due to the quantum nature of spacetime, and as such, what appears to us as non-local effects that happen faster than the speed of light - are actually demonstrating to us that spacetime itself, is entangled. And perhaps the spacetime entanglement involves more dimensions than we can directly see. So in this model of spacetime, "Spooky action at a distance," is not really happening at a distance. Instead, the effect is happening within the confines of entangled spacetime. What appears to us an instantaneous communication between a pair of entangled electrons that are far apart - is actually happening in the same region of space - that is an envelope of entangled spacetime. Entangled spacetime, if it exists, could have enormous implications for all of physics - and may even, propel physics to a new foundational understanding of the universe. Please think about quantized spacetime, and its close cousin, quantized gravity, as a promising new direction for physics. Some thought experiments are needed to complete this picture. Please carry on.

@dsoprano13 Год назад

Great video. I also thought of the approach to just detect if the particle was observed or not since we don't really need to force a specific spin. But apparently that idea is shot down. At this point the only answer seems to be able to force the spin in a desired direction. Not sure if that will ever be possible.

@nw4042 Год назад

That's what I was thinking. Not sure why that gets shot down either. Folks smarter than you or I haven't figured out yet though.

@DavidByrden1 7 месяцев назад

The quantum theory explains all this. You can't force a spin and you can't see if a particle has been observed or not. Unfortunately this video was made by somebody who does not grasp the quantum theory. Here's a life tip : RU-vid is not a college. Idiots are free to post nonsense here.

@stickyfacade3388 7 месяцев назад

Yeah I was wondering how you would even know if the person communicating had observed the particle without having to observe your own particle 🤔

@Erikaaaaaaaaaaaaa 2 месяца назад

@@DavidByrden1I don't think you understand the video, Dave

@DavidByrden1 2 месяца назад

@@Erikaaaaaaaaaaaaa Well, I am absolutely sure that the video maker doesn't understand QM. I listed his mistakes in another comment. Given that the video is full of mistakes, there would be no point in my "understanding" it. But, feel free to tell me where you think I went wrong? I'm sure I can teach you something.

@robertwcote Год назад

This is really well done, you guys. Great work. At the beginning you alluded to communications between distant outposts of an interstellar species. This is something I've been wondering about a lot lately and would love to see you discuss it at some point. The main thing I struggle with is the assumption that we would communicate with humans who set out to settle an extrasolar planet. I mean, would we actually? At some distance, the latency would make it almost pointless, right? What sort of information would we share with a colony a light-year away? 10 light-years? 100? It's natural to assume we'd have communications, but when I actually stop to think about it, I'm not so sure anymore.

@LWT80 Год назад

Taxes bro. All we need to do is set up a colony and the IRS will figure out the FTL communication problem in no time.

@zachb8012 Год назад

As far as the nature of a conversation is concerned, listening, processing, responding. The delay would severely limit what could be communicated in that sense. Nevertheless I would imagine the basis of communication between distant colonies would consist of a constant two-way stream of art, media, and scientific knowledge. The expectation wouldn't be the recipient colony would respond and convey something meaningful, rather that all parties would continue sharing their culture and information.

@brunospasta Год назад

If we would do this one day and the rules of physics we know today still apply, I would guess there would be multiple different species of humans at some point as we'd evolve differently depending where we are. Communication with other human "species" would be more of a fun thing to do, but wouldnt hold too much purpose at this point.

@jackwilson5542 Год назад

There is no speed limit on communication. It is a myth perpetrated on purpose of keeping this world "in the dark" aka. not known by alien civilizations. (Type 2 civilizations and higher don't communicate on RF spectrum) If there is widespread belief in there being a limit, nobody/few will research possibilities past it. I personally worked on Special Access Projects, so I know this for a fact.

@protorhinocerator142 Год назад

The conversations would be highly relevant if we also had FTL drive to get us to those planets in a non-ridiculous amount of time. Using rockets or generation ships? Forget it. Star Wars or Star Trek? Now you're talking.

@robnathan7690 Год назад

Thank you for all this content. I agree with others, you are truly inquisitive, accessible, willing to admit when we Don't Know, or even more importantly, willing to question what we think we know! 🙏🏼

@twelfthhausjones6753 9 месяцев назад

I think a fun way to describe Schroedinger's Cat (which always confused me as a child) in comparison to Quantum Theory is not necessarily that the cat is both dead/alive until we develop a point of reference, but what occurs based on our lack of knowledge. If Schroedinger went about town & told everyone his cat was alive, & bought a bunch of cat toys & treats, he would be functioning as if the cat were alive & changing the universe (utilizing communication to affect society & money to affect the marketplace) to develop a space for the cat. Therefore, the cat is "alive". If Schroedinger decided the cat was DEAD, & lamented to friends & famoly that the cat was dead, & threw away all his cat food & never spoke of it again, the cat is DEAD (or will be soon unless he treats the cat as if it's alive again). This is "Spooky Action at a Distance," aka Quantum Entanglement. In humanity's search to find an absolute, pure unit of time to compare against, we have forgotten that our unique experience as a human race is its own measure of time. Our frame rate of perception is Quantum Entanglement At A Distance (I hate Einstein's Name)

@bassem500 Год назад

In all versions of quantum communication attempts you mentioned I have not seen one which takes a similar approach to the quantum computing approach. Quantum computing is limited in what it can compute, because it uses convoluted methods to arrive at results. I still believe that there are convoluted structures of entangled quanta, which allow for FTL communication... It just needs an engineering approach. I'll try and tackle this one when I do my doctorate. 😉

@shanehudson5438 11 месяцев назад

Good luck mate

@varany3376 8 месяцев назад

We are rooting for you. Hope you'll get to pursue your dreams.

@Shep01 7 месяцев назад

As a layman. If you can entangle something which we confirmed already then we definitely will work out how to use it for FTL. Communication. It might start out simple as a telegraph before working it up to computers talking. But here's a thought if you established a real time link. But time is passing differently I assume the communications couldn't speed up or slow down at their respective locations

@varany3376 7 месяцев назад

@@Shep01 The kicker is, there is no new information being transmitted. You simply also have information about the other part of the system, because it's complementary in a way (if my coin says heads, I know you got tails). We would have to meet again and make another entanglement then travel very far from each other again to "communicate" further, but this is not FTL at any point. Once you look to see if you get heads or tails, the two systems untangle go through decoherence.

@fearlessIFI 5 месяцев назад

I am Quantum 😂 Pleaseee helppp meee. Bassem....I fucking sent myself to be birth in this day and age...get me off this planet of aliens haha...No one is probing me anytime soon

@sy14 Год назад

Such a thought-provoking video. Thank you. Keep up the great work.

@9fmradisapratama Год назад

This is the answer I hoped from you. As a person who failed at physics I can't do anything but silently watch physicists and the other people discuss the formula and interpret it. My question is always "How can you define a useful communication while neither of you know it or not needing to know it the first place since it breaks the moment either of you measure it and the opposite of you not knowing it breaks yet which is simply "sending information without knowing that information from the first place". How can you have a good communication while neither of your observations needed?" And this might be rooted from my ignorance since I don't know physics and your explanation corrects all of my misconceptions of that although I have the shared answer that is a solid no, or at least not enough. The difference is that my argument is filled with misconceptions and ignorance while you have valid reasons.

@guillemsegurapascual8968 Год назад

y yoo😮😮ooy

@jasoncravens1124 Год назад

Nah, you're correct, or very close anyhow.. Schrödinger's cat, sort of ...IS an observation required? Entanglement is, specifically, Feynman diagrams. Two-slit, as I'm sure it referenced. Amazing stuff. 👍

@JohnB-sp3de 21 день назад

As someone who has a background in Physics, I always went along with the accepted point that the randomness within a quantum entangled system prevents FTL communications. I recently read a book 'Cracking the Cosmic Code' which actually shows that the randomness is not a restriction at all. It now opens up the distinct possibilities of FTL communications.

@_Matchu Год назад

I like the thought you had towards the end which is that: in the coming centuries we may not get anywhere close to FTL travel or communication, but we will need to ACCEPT that FTL may be impossible and find ways to overcome that... for instance, for the colonization of mars it places a great importance on self-sustainability and understanding supply+demand and preventing overpopulation

@cellokid5104 8 месяцев назад

Fuck mars, embrace the moon

@Jimmy-B- Год назад

Now I understand, always thought you could force a spin, but that was cleared up, thanks!

@RyanEglitis Год назад

It was cool to finally find someone who would delve into all the what-if's of FTL/entanglement attempts. One thing I think that could have helped was to clarify how it doesn't really help to collapse a state as a signalling mechanism either, as there is no way to _see_ that a state has collapsed without observing the particle. And of course, observing the particle collapses the state.

@awvscbsteeeerike3 Год назад

These videos are awesome. Also, wish I had read this comment before taking 30 mins to figure that out on my own. Ha.

@AndrewJens Год назад

Can't information be encoded by Bob delaying the second observation after his first? E.g. If he waits 1 second after the first observation (before making his second observation), then it's a "1" and if he waits 2 seconds then it's a "0"? Alice then doesn't have to care about spin direction, she just has to note whether it's 1 or 2 seconds between her first and second disentanglements happening. (I know nothing about all this, so sorry for wasting time if it's a nonsensical suggestion.)

@RyanEglitis Год назад

@@AndrewJens No, because again, you can't tell if Bob has collapsed his state. If you look at a particle _after_ he observed his copy, you see a random spin (which later you could confirm was the opposite of what he saw). If you look at a particle before he observes his, you see a random spin (which Bob can later confirm was the opposite of what he later saw). The two states look the same to you: you saw a particle with a random spin. You can't tell if he's observed his or not - it's not like the particle turns red or something when Bob observes it so you know it's go time. You're not looking at it when Bob observes his copy - how would you know anything happened?

@AndrewJens Год назад

@@RyanEglitis Ah, so I'm not understanding it at all (but thanks for taking the time to reply). So how does Alice detect the collapsing of the spin state of her particle (assuming she's a keen observer and is watching continuously)?

@RyanEglitis Год назад

@@AndrewJens It's my understanding that you would detect it by interacting it with some other particle (i.e. electron, photon) and then multiply up the result to something human scale. "Observing" something is just a way of saying "interact it with a bunch of stuff so that we know the state of it (at the time of the observation)". It's part of why it's hard to keep entangled particles - you need to keep them away from _anything else_ that could interact with them. Even if we don't _see_ the result, the entangled state would get lost.

@PhilTParker Год назад

Is it possible to continuously observe the quantum spin state of an entangled particle? And if so, is the spin state constantly changing or is that spin state at rest? I’m assuming that constantly observing (or measuring) the spin state would show that the spin state is always constantly and randomly changing.

@asagoldsmith3328 8 месяцев назад

The moment you begin to observe it it will enter one spin state. It is in superposition before it is observed.

@JacobPratt-md8hb 8 месяцев назад

You did this video really well. Thank you.

@EddieA907 Год назад

Amazingly explained. Thank you for all your efforts I always look forward to your new content.

@Sundablakr Год назад

This cleared a lot up for me, many scientists have explained that it's impossible to transfer information with QEPs but never why. I now realise that entanglement is a one time measurement deal and that you can't alter the state of the entangled particles at will.

@_imps 7 месяцев назад

would it matter if instead of A:B = 50:50 we had other bernouli distribution i.e. A:B = 60:40, could receiver in such case observe reversed distribution i.e. A:B = 40:60(when transmitter did a series of measurements)?

@pablocopello3592 11 месяцев назад

This is the best "not expert" exposition of this topic I found in this network. So I will add a little more. 1.- There is nothing FTL here; what we have are cause-effects that do not follow the space-time structure (like all cause-effects in classical physics). That is: do not try to maintain the idea that space-time is the structure of all cause-effects. There are not either "instantaneous" effects, because simultaneity is not universal and is a space-time related concept, while quantum correlations are more fundamental than space-time (ST is just an "emergent" phenomena (emerging from quantum correlations) under certain conditions (that includes our most immediately experienced domain of reality)). 2.- Uni-dimensional and uni-directional time is a way to avoid causal-loops. Avoid causal-loops is a way to avoid contradictions in our models (theories) (paradoxes for the modeled reality). But, we do not need to avoid causal-loops, (as we do not need to avoid loops of proofs in a mathematical theory), to avoid contradictions. Causal loops seem anti-intuitive because it seems to "collide" with "free-will", but QM and its follow-on (when we could model how space-time emerges) are just models, whose target is not to find the "final truth", there is NO final theory and at each level we have to use the concepts that better adapt to the domain of reality we are modeling, and know that the models should not be extrapolated outside their domain of application (like to say if we have or not free-will).

@jade59230 11 месяцев назад

Ok, is FTL communication feasible or not?

@pablocopello3592 11 месяцев назад

@@jade59230 the point here is that fot something to have a speed, it has to move thru space-time: have a path (or paths) thru space-time, but the effects consequence of quantum correlations (entanglements) do not travel/move/propagate thru st: there is no possible barrier or even modification of metric or topology of space time that could diminish or alter in any way that effect, because that effect is outside space-time, and so it has no speed, and so it cannot be said that it is ftl. Ask if that effect can be ftl, would be as to ask if Mondays are heavier than the Earth.

@shingnosis Год назад

Thank you, this is something which has been bugging me a lot in sci-fi. Entangled particles are like having two pieces of candy that look the same, one is sweet and one is sour. Then you give one to a friend and he travels to the other side of the planet. If you eat your candy you'll know what flavor you got, and what flavor your friend received. But it really does you no good other than that. If you want to talk to your friend and ask him if he liked his candy you still have to use your phone. And obviously you can't change the flavor of the other candy by doing anything to your own candy.

@iurlc Год назад

You are right - the problem is that the mystic far distance influence was "proven" with Bells inequality. But this inequality is based on set theory. But every measurement is an energy transfer. And for this vector equations must be used with basic electrical formulas. And then you will get the right answer, even if you assume the two are paired in the beginning of the experiment - not only at measurement time.

@mohamedaminehenchir297 Год назад

What if you had prior information that your friend doesn’t like sour candy and both agreed to eat the candy no matter what, wouldn’t that be reliable information?

@davideggleton5566 Год назад

@@mohamedaminehenchir297 -- Still doesn't communicate anything new between each end of the entanglement, unfortunately

@Joopfyi Год назад

What if one candy is deadly and the other candy not. The result of quantum entanglement will still be a 0 or 1 when measured. I think there is very viable information in that case. So then you could say: After eating the candy you must do the same candy experiment with your neighbour. That means if we measure if person A is still alive the neighbour of person B does not know anything about a candy. So giving extra tags to a case before measuring will create a lot of good information.

@ryanduckering Год назад

K, but what if you had a bag of quadrillions of pieces of sweet and sour candy and you ate them on your end in a very specific order to communicate a binary code?

@darwaynelynch Год назад

Two things come to mind. 1. Deeper research into understanding how to detect if a particle is entangled or not … if this can be solved we’d have a way to communicate FTL. 2. Entangled Particles are obviously communicating somehow, digging into the how could be the medium we use for FTL communication

@wesjohnson6833 Год назад

Cannot detect whether one is entangled. And the first measurement breaks entanglement. It is not obvious at all that they are communicating. In fact its fairly obvious they are not.

@Merilix2 Год назад

2. How is it so obvious? In my opinion it's much more convincing they share some kind of information but we just don't know how exactly yet. Bell-Inequalityl is targeting determinable particle behavior but those quantum objects aren't just particles. They are more like waves which have to be described with complex matrices.

@wesjohnson6833 Год назад

@@Merilix2 Not waves, but one wave. Being entangled means they share a single wave function. That single wave contains two particles worth of information in the possible selections of (up/down) and (down/up). When one particle is measured it collapses that single wave function for both. They do not need to communicate. They have no choice but be opposite as there is no (up/up) or (down/down) possibility to randomly measure.

@Merilix2 Год назад

@@wesjohnson6833 Well, the one wave function you are talking about is just a probabilistic math model. This wave function does what every function about probabilities have to do if you get measured results. The model collapses from uncertainty into (partial) certainty. In my opinion its just misleading layman's if the word "collapse" is used like something really happens remotely at that moment. I think, entanglement is about the contrast between uncertain principle and conservation laws. I'm pretty sure, the Copenhagen interpretation as good as it really is is not the end of the story yet.

@wesjohnson6833 Год назад

@@Merilix2 I agree about Copenhagen. Not advocating that as gospel. Of course the wave function is a model. Some argue it is physically real (like many worlds advocates), but even if s bookkeeping device, it does seems to model something physically real. "Collapse" is another term we use for lack of a better term or model. With caveats I think we can use them meaningfully. That said, it is true that only one wave function is needed to completely describe the entire system. And there is no uncertainty about the system, just the parts. They are entirely random which is a necessity for a maximally entangled system. I just noticed reading through the thread that you were replying to the initial comment and not mine. lol. Oh well, sorry 'bout that.

@hullinstruments Год назад

I don't know if this will help anyone... But when I was first getting into photonics in mythology stuff.....what helped me understand this was the properties of harmonics. Interference measures and patterns can kind of be assimilated to what musicians know as harmonics. Things adding together to become correlated and greater than the sum of their parts. Which will interact and I known way and can there be observed as a waveform and worked backwards mathematically. Obviously it's not a one-to-one comparison but it got my foot in the door when I started wanting to learn and research more for my own English league boring hobby of photonics breadboard type chicanery. I should also mention... The 2 quantum particles illustrated in this video... Pretty much sum up the last two brain cells I have to rub together. So I'm probably completely wrong about everything I said above. But maybe not. Being both wrong and right at the same time

@itzmeyesmewhoelseman 12 дней назад

The primary challenge here is how do we measure an entangled particles spin without actually allowing it to settle to a state or rather how do we know when a partcle settled into a state so that one may know when the other has measured the particle and transmit information via that

@jacobmalof Год назад

Makes me think of the measurement problem. Everything that’s going on in double split before the electron hits the screen, where the measurement of the position actually takes place, the wave seems to collapse. It chooses a position to narrow itself down to. The act of measuring the wave changes the wave. In the interference pattern of the double split, we know the collapse is not random. The electron is very likely to be where the wave is strong and unlikely to be where it is weak. There seems to be a correlated anomaly that we haven’t fully grasped yet. I hold out hope for additional breakthroughs in the future.

@xxmeanyheadxx Год назад

energy is everywhere all at once. light is energy. to attempt to grasp an infinitely small moment of light is futile (see; achilles and the tortoise). however, we perceive an infinitely small moment of time at any given time. this is only human perception. the light is always there. the patterns are always there.

@absynthe8840 Год назад

It's double slit not split.

@a-cv8396 Год назад

Very nice video as always Cool Worlds. I really enjoyed that many scenarios were explored and references to how some of these promising concepts were embraced by popular science fiction as a plausible solution for communication across vast distances. Something to understand about the current state of quantum mechanics is that the act of measuring is never passive and becomes deterministic of the answer we will get. In most other domains of science our measuring tools manage to have a minimalistic impact on what is being observed. But in the context of quantic mechanics there is no sight, what we try to measure is so small and the way of measuring is throwing particles against the particles we are trying to observe to see how they bounce off. Perhaps everything will be reconsidered if we find a technology to measure the quantum states without as much interference. I'm already impressed that through statistics of infinitely repeated experiences the quantum mechanics science is able to establish causality when every observation is destructive and deterministic of the state being observed. I find it interesting to think that anything FTL could however break causality. If we used a theoretical wormhole to send a mere Lightspeed communication through a distortion of the spacetime elevation map, would that be breaking causality ? The speed of light appears to be in a way the speed of time. Riding a photon, one wouldn't experience time at all. Any particle without mass also seems to be traveling at this speed, and so do gravitational waves. Electromagnetic waves are slightly slower than the speed of light. It seems like a possibility that the perception of time could be an emerging property of the interaction with the Higgs field. That anything with a mass is dragged through the ever expanding time dimension and able to perceive it, perhaps akin in the same way that gravity holds galaxies together in an otherwise ever expanding spatial universe. Could dark energy be expanding all of spacetime and our perception of time be a mere side effect of gravity on spacetime?

@CandidDate Год назад

Well, yes and no. Make a guess and you're correct.

@TheRotnflesh Год назад

I love the entire breakdown. Continuing with "mass dragged.." One thing to remember, always, is that we are made of the same crap we see when we look out 'there' in space. We are designed adjacent to the circumstances of our environment: Our genetic code is adaptive due to climate changes, our forms are a collection of atomic-scale fusions, cellular formations, and biochemical reactions. Systems within systems, like a galaxy itself. We are finding that the fundamental substrata of our universe of probabilistic. Maybe its a gigantic mind, and we are part of a gigantic, cosmic neural network? Being so aware of the system that we can modify and adapt it utilizing the same sentience that makes it up? ;) After all, what we are to a human brain would be somewhere in the center of the nucleus of an atom in a neuron.. That was off-topic. What I was getting at is that we only observe the universe at a rate we were DESIGNED to. Universal time dilation is totally subject to the framework of the observer. In this case, average humanity. That observation has 2 obvious possibilities: That what we see is all there is and is subject to external events involving light (which can shock the observer's system when what we see does not align with our contuinity of events from a personal framework), or what we see is defined by what we expect to see. This latter idea is vain, and points towards man's egotistical idea that we are somehow separate from the energy we are made of; essentially, god beings. At least, simplified, this is how I interpret it. FTL is possible in theory because existence just is. We are the instruments ill-equipped to be somewhere else from 1 moment to the next. Its a material limitation of our very design.

@med2904 Год назад

We already have a way of measuring the quantum state without interference. It's called "delayed choice quantum eraser". Check it out. This experiment proves that it's the act of observation, or at least the information about a particle becoming available to the universe that collapses the wave function. An entangled particle somehow "knows" that its partner will be measured in the future and collapses its wave function retroactively. So the interaction during observation would have to break causality for the non-measured particle to "know" that its entangled partner will be measured in the future.

@daniellewis984 7 месяцев назад

Bob has 6 particles that he can interact with. 3 of which mean "Yes" and 3 of which mean "No". If Bob interacts with all 3 "Yes" particles in rapid succession, then Alice can assume that Bob meant to say "Yes".

@MedSpark 5 месяцев назад

I'm shocked that nobody has proposed using modulated disentanglement rate to transfer information. If you have a large set of separated entangled pairs, then you could conceivably measure (collapse/disentangle) the particles on your side at a rate that's modulated by the information being sent. The receiver would need to be able to detect the occurrence of each measurement on their end, but by demodulating the rate, they could receive information. Obviously there would be lots of technical challenges, but breaking the laws of the universe wouldn't be one of them.

@Gary-rf7ng 5 месяцев назад

I suggested adding a 3 second pause after the result you're looking for to ID it as such. So long as both parties agree on the same "pause pointer" of x amount of time, is there a reason that wouldn't work? Based on the video seems like it would.

@kristovx7 4 месяца назад

The ability to detect that the measurement is taking place in the first place would require transmission of information. If it is as fast as disentanglement, why not just use that to transmit data? If it is not as fast, then what would be the point? You would just have a bottleneck, because the data could not be received faster than whatever method you are using to detect the measurements.

@timrundle-wood4420 Год назад

Another incredibly thought provoking video, thank you so much David for the time you put into them. I believe in miracles and I believe our seemly mundane every day existence is the miracle

@jarradgray56 Год назад

Wish I had you as a lecturer at University, your ability to communicate and break down extreme complexity into simplified terminology, then bring us(the viewer) back up to the level of understanding through step by step learning to give us understanding of such complexity is brilliant..(I hope that even made sense) No offence to the seriously intelligent people out there with in their specialised fields, but not every PHD, Dr, or Prof can communicate with the masses.. At university I was told by a Doctor of Chemistry that "a Dr knows a heck of alot about very little". 😊 it took me a moment to realise how true that statement was.

@alals6794 Год назад

haha......"a Dr knows a heck of alot about very little". Great quote

@stevencoardvenice Год назад

You have to truly understand something in order to explain it. There's a mark Twain quote. "An expert is just some guy from out of town"

@rolobotoman Год назад

"Wish I had you as a lecturer at University," me too, but unfortunately, you can't put lecturer at 1.75x playback speed.

@bridgerfinch131 8 месяцев назад

Here's an idea, why not assign characters to time? hear me out, Alice and Bob both have their entangled particles and if bob wants to send a message then bob times the activation of the particles and Alice measures the time between each activation of a particle. If "H" equaled 1 second and "I" equaled 2 seconds then Bob would activate a particle, wait 1 second, activate another, wait 2 seconds then activate another creating two segments of time representing "H" and "I" between three points. Theoretically Alice would measure these time segments and attach them to the correlating characters deciphering the message "HI." its essentially cosmic Morse code

@caspernotghost5089 8 месяцев назад

But how would she know if he has activated any of the particles?

@flintread2303 8 месяцев назад

The cat can actually be in three distinct states: Alive, Dead and thoroughly pissed off. As a cat owner I can tell you it's actually much more likely to be the latter result.

@BayouBushcraft Год назад

Thank you for your hard work with all these videos. Best science content on RU-vid

@RazyMon Год назад

If any interaction with an entangled particle collapses its state, then there's no way for Alice to observe changes without affecting the state of the pair. In other words, if there's no way to observe (let alone affect) a particle state without collapsing it, this system is pretty useless as a mean of communication.

@NefariousKoel Год назад

To me, that seems like the real kicker at the base of it. If the receiver has to monitor for changes, then it's already collapsed by the receiver. The whole transmit-receive concept won't work.

@VikingTeddy Год назад

I don't think I completely understood, because it seems you can keep both particles on a perpetual double-slit experiment, and only collapse one when you need to send a bit. So Bob and Alice agree that at time t, Bob will either take a measurement of the particle (meaning a one), or leave it alone (meaning zero). So if Alice who is watching the particle going through the slits, sees a collapse at time t, she knows that the message is one. What did I miss?

@Ijusthopeitsquick Год назад

@@VikingTeddy My thoughts exactly. Collapsed or not collapsed is just as good a binary system as left/right or up/down. All you would need is an agreed frequency. I'm sure I must be wrong, but I'm too dumb to know why.

@spacenoodles5570 Год назад

@@VikingTeddy I think by doing the slit experiment you will collapse the particle, as you're measuring its state

@VikingTeddy Год назад

@@spacenoodles5570 The slit experiment doesn't collapse the wave, otherwise we'd never see interference. I'm sure there are other ways of checking if the wave has collapsed which don't need such a complex setup. The experiment itself isn't difficult, but isolating it from all other particles is quite the challenge. I'm hoping someone with more knowledge stops by so we'll know how the idea doesn't work. Or if we can go pick up our cheque.

@user-ru6mq1xw9y 7 месяцев назад

The problem with this discussion is a lack of understanding about serial communications. One requires 2 entangled lines. The 1st line generates a phase transition that functions as a timing pulse. The 2nd line represents data and is referenced to the timing pulse. The only thing required for data is a transition which can be either a 1 or 0. All that matters is that the transition occurs when compared to the timing pair. The pairs are entangled but not with each other.

@timspicer1237 Год назад

By my understanding, unless I am somehow mistaken, particles can be entangled with more then one other particle. Which leaves me to wonder, if one particle is entangled with several others and you disentangle one particle by observation, what about all the other entanglements with the other particles? does just the one disentangle or do they all become disentangled together? and what if you observe more then one entangled particle at the same time out of the grouping?

@WilliamDeanPlumbing Год назад

This is exactly why I Proclaim that we have never been visited by other life forms, they have the exact same problem that we do, the vast distances and the slow speed of light prevents any survivability to make it from point A to B.

@silvergreylion Месяц назад

When referring to light, you probably mean transverse light, or transverse EM waves. Longitudinal EM waves propagate at practically infinite speed. It's just that they are much fainter, so very hard to pick up, and in the development of radio communication since its inception, everyone just assumed longitudinal EM waves didn't exist. They do, but it takes a spherical antenna for transmitting, and very sensitive equipment AND a spherical antenna, for receiving.

@pereirahawk Месяц назад

@silvergreylion Give me one reference for what you stated. I really mean this. I'll go read it as soon as you post. You're saying speed of light (longitudinal) in a vacuum is much faster (infinitely). Correct?

@silvergreylion Месяц назад

@@pereirahawk This is currently being researched. The research hasn't been published yet, but the speed would be the reciprocal of the Planck constant, so ~1.5x10^33 m/s.

@sraldleif 29 дней назад

@@silvergreylion I'm currently researching how to turn my hot tub into a time machine. I haven't published anything yet though, so you'll just have to trust me when I say it's totally legit.

@theifthenist284 24 дня назад

We are apes, one foot out of the trees. Yet we have, OURSELVES, proven theoretically the reality of wormholes. Why is it so hard for not so smart individuals to believe that in a universe with COUNTLESS planets able to support life, there would be one (or one million for that matter) life form that figured out how to use the Einstein/Rosen bridge wormholes practically? The arrogance of some simple minds to think that we "apes" are the pinnacle of intelligence in the universe is hilarious. New discoveries in physics happen every day. Smh.

@stephanieparker1250 Год назад

I loved this! You brilliantly cover a very heavy physics topic in such a way that makes it relatable and clear! I like that it’s a new idea for the channel yet also cleverly ties into previous videos. An idea for an upcoming video, maybe you can touch on how particles become entangled to begin with. It’s rarely covered in videos on other channels. Maybe bring it up when discussing the current record holders for distance between entangled pairs. 👍

@aaronperelmuter8433 Год назад

It’s incredibly simple to produce entanglement between 2 particles, etc. One simply has to interact with it, that’s all. Literally ANY and all forms of interaction will produce entanglement. If a photon lands on your retina, that’s producing entanglement. Or if you feel warmth (kind of hard not to, if you’re alive. Lol) you’re absorbing/interacting with billions of photons per second, entangling said photons with whatever particle of your body absorbs them. That’s all there is to it.

@stephanieparker1250 Год назад

@@aaronperelmuter8433 I read somewhere that the probability of an entangled pair resulting in true opposite measurement goes down the further they are apart. Is this something you have heard about? Thank you for the reply btw 🙌

@aaronperelmuter8433 Год назад

@@stephanieparker1250 No probs, you’re very welcome. Ttbomk, there is no known correlation between distances of any size, small or large and the reliability of entanglement. Also, it’s purely an arbitrary choice as to whether one wants the spins opposing or matching. Come to think of it, quantum theory doesn’t really have any use of distance in an abstract form. Sure, interactions only take place when within a certain distance, e.g. strong force within about the diameter of a nucleus, etc, but when something is entangled with something else they can no longer be thought of as seperate objects. The very definition of entanglement is that all entangled objects are the object, the wave function is now describing all entangled objects, not a seperate wave function for each object. This is precisely why entanglement is so fast (instantaneous? I think not but how fast, I’ve no idea) as when an operation is performed on one of the objects, it (immediately) propagates the fact that an operation was performed to the rest of itself. It isn’t like if you touch your elbow and feel it immediately but touch your hand and it takes a few seconds to feel as it’s further away. In a manner of speaking, a person is one entangled system so when an update happens, no matter where it happens on your body, you feel it instantly. Entanglement can be thought of in a similar fashion. One can entangle any number of objects, but they will not be maximally entangled if there are more than 2 objects in the entangled system. Regarding what I wrote previously, I’ve a small correction; I don’t know that it’s possible to entangle a photon with a matter particle because I can’t think of any interaction which doesn’t result in the photon being absorbed by the matter particle (electron, neutron, etc. absorbs photon and gains energy of the photon but now said photon no longer actually exists. And since there is obviously no possible way to identify one photon from another, when the matter later emits a photon, losing energy, is it the same photon or actually a new one? I think it’s the latter. So, I don’t know any reason why dissimilar particles couldn’t be entangled, if they share the necessary quantum property, so a neutron should be able to be entangled with a proton, an electron and a neutrino, I think. I’m just gonna go out on a limb and say matter can only be entangled with matter and radiation with radiation. Also, reasonably sure their spins have to be of the same order, as in spin 1/2 or spin 1 but not mixed. Although, that’s actually the same as what I said a moment ago, matter with matter… Hope that’s of some help.

@stephanieparker1250 Год назад

@@aaronperelmuter8433 it does help :) thanks!

@ArtyAndy77 Год назад

The spin is talked of in terms of spacial dimensions, but what if there was a higher, dimensional one, such as a temporal spin? a spin of the entangled particles being stripped of the temporal component, so that C is not violated?

@cemberendsen4297 Год назад

This was a very inspiring video! keep up the good work!

@grimaffiliations3671 Год назад

If they gave out Emmys for RU-vid videos your house would be full

@jamesburns6891 Год назад

It seems like the easiest way around the communicating problem would be to use the time between observations as representing letters. Have 3 observations of the same length of time to start a message then the distance between the observations would be the letters. Ex. .001 nano sec. For A .002 for B and so on. Or even easier .001 is 1 and .002 is 0. And the observation times become your binary system no need to rewrite codes. Doesn't matter if the spin is up or down. Just the differences between observations. Just a thought.

@scottcortez1313 Год назад

that is exactly what i thought, use time and go morse with it.

@KowBoySpace 2 месяца назад

Neither Bob nor Alice know if there has been a measurement or not? How bob could have collapsed 1 or he could have collapsed 1000 Alice doesn't know either way?

@harraldschmitt9113 8 месяцев назад

Quick correction, 10000 years ago is 3000 years after the Göbekli Tepe structure was errected in Turkey. So, yes, 10K years ago we had no already left africa, but we also had already begun creating fixed settlements, agriculture and, well, culture in general

@AnDiWaffen Год назад

Thanks for this great video, going through the most common misconceptions about quantum entanglement, which to the best of my knowledge should be described as a peculiar type of correlation (just as with the shoes). So most importantly: opening the shoe boxes does not constitute an action where my opening the container affects the other box. I think, your final summary would have been an excellent opportunity to glance at the measurement problem for a future video. The Schrödinger equation, as well as the Dirac equation or any other QFT, does not contain the wave function collapse. It is an ad hoc postulate that might need resolving to better understand quantum physics and anything that might await beyond.

@ag6133 Год назад

We may not have found a FTL communication (yet), but we did find a truly random number generator, i would say!

@nmarbletoe8210 Год назад

My half-elf is clapping with joy

@molybdaen11 Год назад

I thought old defect ram chips would already do that.

@sadovsf Год назад

Feels like entanglement and whole measuring stuff is mostly about us having so basic particles that they behave super deterministic. If we force 2 of them to have same state they keep their "sync" simply because they are so similar and have so deterministic behaviour that for us it seems they influence each other while we are still measuring 2 different things that "luckily" end up with same values. In programming we have pseudo-random generators. They spit out pretty random numbers but if you create 2 of them and start them up with same "seed" they both return same sequence of numbers. It almost feels like this could be the same case

@DecemberNames Год назад

Thank you for another great video brother

@waynemailles8285 Год назад

First of all I appreciate ur channel and the work you put it I’m in love with the cosmos and wish I would’ve chased a career in cosmology , Physics but anyhow… I had an idea on this topic myself but it led me straight to the same verdict now that I understand the measuring faults of quantum entanglement…. Just wish we could create some kind of “bridge keeper” or something to hold onto the “ bridge “ of entanglement of two particles so that way when we measured one or the others spin the entanglement would survive… theoretically of course … the cosmos is awesome and not knowing everything is also awesome… it is fun to think and wonder after all

@darthevol5734 Год назад

Thank you for your videos. You have a way to engage and make my brain hurt in the first 9/10ths of your videos, then engage and make my heart hurt (in a good way) the last 10%.

@harryplendl5824 10 месяцев назад

Absolutely brilliant. Thank you!

@divinedoodoo 8 месяцев назад

Can the state not be stopped and started again? Wouldn't it be possible to stop and start a spin at a fast pace and record every position change as a decimal to be converted to hexadecimal for text based ftl communication? Like Morse code

@thagrintch Год назад

David, I can't get enough of your channel. This was one of your best topics. At this rate, you are going to hit 1 million subscribers in no time. Thanks for the great insight into nature and the cosmos.

@CoolWorldsLab Год назад

Thanks so much! This episode took a lot of work so pleased you enjoyed!

@canadianvideos6094 Год назад

@@CoolWorldsLab I had also asked about this topic/possibility after your previous video. Thank you very much for providing such an excellent explanation! Love your channel, thank you for all the hard work!

@Brendy733 Год назад

I’m shocked I haven’t found your channel sooner. It’s quickly become my favorite space channel on YT.

@skizmo1905 Год назад

It's pure trash... why are you so happy to find it?

@Brendy733 Год назад

@@skizmo1905 ok 👍 why do you think it’s trash?

@savage22bolt32 Год назад

I could not put up with the annoying background noise.

@Brendy733 Год назад

@@savage22bolt32 I didn’t notice I’ll have to see for myself

@savage22bolt32 Год назад

@@Brendy733 i thought the subject matter would be interesting, but the music killed me.

@triklop_8708 Год назад

So one idea I had about this is Bob kinda achieving a statistical shift for Alice. Let's say Bob has 1000 sets of 100 particles. Bob wants to communicate a 1. Bob measures, until he gets a positive amount of 1s over 0s in his set of 100 and leaves the rest open. Then he continues with the next one. Alice would get a higher amount of 1s than 0s plus a random amount until 100. That would achieve a statistical shift towards the 1s, that gets more significant the more you measure. You would basically communicate, when you are more likely to stop measuring.

@Blazagg Год назад

On average you'll get 50% 1s and 50% 0s in each set. Even if Bob is able to observe 30 1s and 20s in a set (that's already rather unlikely), Alice has to observe all the particles which collapses their state. In the end your 1000 sets will just spit out a 1 with 50% chance and 0 with 50% chance. You're just postponing the random observation from a particle to a set of particles.

@spacewarp607 Год назад

what if you just get 1 in any position is a 2 is b and so on

@sk-sm9sh Год назад

@@spacewarp607 all these searches for FTS comms basically fall flat in same principle like infinite motion machines. Smarter person may come up with a more complicated scheme that may get take more effort to debunk. But eventually it goes down to same thing. It's impossible just like infinite motion machines are impossible.

@Trepur349 Год назад

When you think about it fom the perspective of Alice, if she observes the particles in the exact same order as Bob she'll be able to tell exactly when in each the set Bob stopped his observations (both in cases he wanted a 0 and in cases he wanted a 1) but she will end with equal numbers of 0s and 1s, and so will have no idea if he intended to stop at the 1s or stop at the 0s

@The_Primary_Axiom Год назад

I want to know how the hell they’re influencing each other at those distances. How does one know the other is up. Lol

@ribbles1699 8 месяцев назад

Random thoughts from a non-physicist, which have undoubtedly been discussed and thrown out already: If, after measurement, the position of particles can be determined by both parties, and the timing of measurements can be controlled by our fancy QEC... What if we ignore the actual position, and only focus on A) timing and B) when the same position occurs multiple times in a row? Bob starts measuring, say one particle every millisecond. If a _zero_ bit is required for the message, as soon as three (for example) of the same spin are detected in a row, the machine introduces a pause in the measurements (say 5 milliseconds). If the communication is instant, shouldn't Alice see that pause? If a _one_ bit is required, Bob would _not_ pause after three in a row. A pause after five (or whatever) in a row indicates a one bit.

@araptuga Год назад

One reason I find so many Cool Worlds videos (including this one) so rewarding is that they conclude with a CONNECTION. A connection to human concerns, far afield from the original topic or even from science. I know that some will argue that "that's not science!" That this is opening the door to pseudoscience, to New Age woo-woo and so on. That science stops when pure logic and evidence stops, and should not keep walking into "speculation". And they're right that it's not science - but I believe wrong about the implications. I don't believe Prof. Kipping would claim to have shown any science-verified conclusions about these human concerns. These connections are not saying "science tells us the 'answer' to this ancient moral dilemma". Rather, the science is providing us with a new point from which to VIEW that dilemma. It's not an answer, but a tool. Perhaps from this new perspective we can reach our own conclusion with greater confidence, satisfaction, or even richness - but it remains OUR conclusion, not that of science.

@aldejesus7195 Год назад

This is absolutely very well expressed! It’s also a science that seems without end

@2000bvz Год назад

Fascinating and well explained! Thanks! The one thing that I don't understand is why we even think that Alice could measure the spin of the particle without altering it in some way that is unpredictable, regardless of what Bob did. I think that simply stating that Alice could not know whether the spin she is measuring is a result of her own measurement (which forced a random spin direction and broke the coupling) vs,. Bob's measurement (which forced a spin direction and broke the coupling) would be enough to prove that we could not use this method to transmit information. If I am misunderstanding this, wouldn't that imply that we could tell if a particle had had it's probability collapsed by someone else vs. us? I.e. if when Alice measures her particle she can tell whether the spin it shows was a product of HER actions vs. Bob's actions, then we actually HAVE transmitted some information. In that case, it would be trivial to send two particles, and have one be 1 and the other 0. By choosing which one to affect, Bob could send information back. But since it sounds like just the act of Alice measuring her particle will force it to choose a non-determinate state means that no such information transfer is possible. And that fact alone would eliminate any chance of using this as an FTL communication method no matter how many tricks we try. And perhaps that is exactly what the video explained, but I just didn't fully grasp it.

@KurtKobain01 8 месяцев назад

Wrong wrong wrong! Spin correlation can be influenced and predicted or Quantum Computers wouldn't function. Quantum Computers use entangled Qubits to do computation. Qubits can be atoms, electrons, photons, trapped ions (Positively Charged Calcium atoms, superconducting, etc... If spin state correlation unpredictable and there was only a 50/50 chance of guessing that correlated state then Quantum Mechanics wouldn't be the most successful theory, quantum systems and their interactions would be random and all matter in the universe would cease to function and break down due to a lack of structure and coherence. I suggest that you build a foundation of factual scientific knowledge by going to school, rather than allowing yourself to be mislead by people like this fella on here. You're just regurgitating nonsense.

@illbeV. 3 месяца назад

Could anyone else who's not a complete dick like this kurtKobain dude answer the OP's question? I'm interested, too

@garymorgan313 Год назад

Such a fine channel and such a well done series of topics, all narrated so brilliantly by you, Dr. Kipping. Worthy of a Carl Sagan like style. That said, and to the point, consider the EPR paradox, and just suppose that that something is missing from the Standard Model. First, let us agree that, more is yet to be learned in physics than is so far known. Even though the SM is the most self consistent and best confirmed model of the quantum world, I have read that it predicts a "mirror image" of particles to those in the current working set. Most of the "mirror image" particles are as yet undiscovered. Consider the entangled electrons in the presentation, there is no discussion of the mechanism that enables the FTL collapse of the spins at a distance. Perhaps it is possible that there is another (as yet undiscovered) particle enabling this action. Just a thought. I also love that you emphasize that all of this (in fact all of science theory) is a model of reality - tools used to understand and predict the behavior of nature. As to what is REAL and what is not, who can say?

@wesjohnson6833 Год назад

If a model has yet to be falsified, then it must considered for the "current' state of "real" And that "current state of real' is the best we have at the time. What is the alternative? That nothing is deemed real until all things are proven real?

@garymorgan313 Год назад

@@wesjohnson6833 Yes! I take your point and I quite agree! My statement is in the realm of the metaphysical, however. Theories (scientific def.) are models of the natural world that allow it to be explained, understood and predicted. Yet, they are a “mapping” of the natural world into the model construct. This does not mean they are false, but quite likely, incomplete. Consider a geodesic map, for instance. It may show the topography and other characteristics of some region to a level of useful accuracy. One would not expect it to show every rock, pebble or shrub - that level of detail would be unnecessary for its purpose. In that sense, it is “incomplete,” but is “good enough” to represent the “real” world. The map, itself, is not the “real” world, but rather a model of it. Again, I agree with your statement. What I was saying comes down to this: Physics has constructed marvelously self-consistent, predictive, and well confirmed theories that allow us to contend with the natural world. As to whether, or not, electrons, protons, neutrinos and all of the other particles actually exist is immaterial, and likely unknowable; the models work well enough for us to cope! Thanks for your reply. I hope someone will address my question about the FTL communication mechanism between the entangled particles. I am quite curious as to what the researchers' conjectures, hypotheses, etc., might be. 😊

@wesjohnson6833 Год назад

@@garymorgan313 Why assume there is any communication between particles? When in an entangled state both particles share a single wave function. A measurement on that wave function is a measurement on both. Hence, both particles collapse into a defined state. A bad analogy would be like having two pencils, one with the lead on the right and one with the lead on the left. Throw them into a bag and pick one. It will always have the lead on one side and the eraser on the other. No communication is needed. Now put the pencils in a state of superposition and make a measurement. Same result. There is no other option but lead right/ eraser left -- or eraser right/ lead left. This is no different than making a measurement on a single particle whose wave function is spread out through space. But the shared wave function has information on two particles, not one. The really amazing thing is that, before a measurement, this information can be spread out in space and time. It is non-local.

@garymorgan313 Год назад

@@wesjohnson6833 "When in an entangled state both particles share a single wave function." Of course! And I should have thought of that. Its been decades since I have studied these subjects rigorously, and I sometimes forget details like that. Please don't be annoyed by my curiosity. Your analogy was not so bad as to not help clarify the point (pun?), and I thank you. In essence, the wave function itself is the FTL communication between the two particles, and hence, the mechanism I was not seeing. Straightforward and simple. Cheers.

@crandonborth Месяц назад

This just confirms I was never meant to be an astrophysicist. 😂

@frankiethebull8269 Год назад

"Open subspace frequencies" Something a lot of us heard in Sci Fi shows and movies.... they've had an idea about this kind of stuff in the 60s but lacked the technology to actually test for it or attempt creating it. It's not a question of "is it possible" the question is "how do we do it". Quantum particles (particles that can exist in two places at the same time) they seem to also have another characteristics, one being that it can "slip" into and out of some sort of void, a "subspace" that scientist can't fully understand or explain yet.

@epimetheus8243 Год назад

We don't understand anything. We just measure stuff, get results and pray that our macrocosmos-based methodologies & tools are reliable in the world of quantum mechanics. At this point in time, all the "explanations" are just wild speculations, interpretations, philosophy, expressed by the limited human mind/ human imagination/ human language. When you say "particles can exist in two places at the same time" I assume you are refering to the "superposition-principle" which describes a mixed state of being. Being a particle and a wave at the same

@mwansamatimba2750 29 дней назад

It's somehow related to the multiverse, because it does make sense that you cannot communicate FTL. It means one particle exists in another universe. Basically, the communication will be between two different universes. Thus it won't make sense to the other universe hence producing random results.

@goose5462 Год назад

Excellent video. Clear and concise explanations.

@WolfeSaber9933 8 месяцев назад

One idea I thought of is not to have the system use the ups, downs, or sides as ones and zeros, but how Morse Code worked, using dashes and dots. If time is unaffected, only the orientation, then using the period of how long particle is angled could be used as the ones and zeros.

@farhanabdulrahim1 8 месяцев назад

How, you can measure, you can't impose the state

@WolfeSaber9933 8 месяцев назад

@@farhanabdulrahim1 We do know the entangled particles will spin, then orientate themselves. The original idea for using Quantum Entanglement as communications is that we use the position as the one or zero. Since the chance for the other is 50/50, we can't use that. But if we know if can have a position, we can use the time it stays still as the one or zero. Like Morse Code.

@filiplou74 28 дней назад

Measurement can only be done once, so you don’t even know when the other has made the measurement as you can’t continuously measure your own side

@c.b.8193 Год назад

How about this model from a senders perspective: First pair is used for bits. Second pair as "Switch" or Send button. Measure the first one as long as u get the desired outcome (0 or 1). Then measure the second one until it changes spin compared to its prior state. The receiving end will know to only read that one bit in the information string, that was measured prior to the "switch". The "switch" does not care about direction of the spin, just the change itself. Or no? Thank you bye

@frankf1095 Год назад

Prof, you're very good at explaining such a difficult (for me) theory from unobtainable for my intellect to something that I'm beginning to grasp. Thank you.

@EricLancheres Год назад

Amazing video, I love how you explain things (especially quantum entanglement) and agree with the sentiment that even though we want something to be a certain way, it probably isn't. When you mentioned quantum entanglement, it made me think of all those twins videos where they claim that one twin feels what the other feels. The anecdotal reporting says that when something happens to one twin, the other one can sometime feel it. To me, it sounds like magic and definitely in 'woowoo' territory... However, if we were to suspend our beliefs for a second and assume this was possible, then an experiment could be breed twin mice, separate them and see if there's a reaction in one of the mice when something happens to the other one. Imagine taking this a step further, if we could make twin cells, then split the cells away and observe a reaction at a distance. I wonder what we'll discover in 1000 years time. Will we ever discover something that links all of us?

@PsychoShayar 6 месяцев назад

One question here : Is there a way to know whether a particle is entangled anymore or not? If yes, then we can communicate by breaking and not breaking the entanglement by bob and then by being observed by alan at a predetermined time for predetermined particles. I hope someone understand what I'm proposing and answers my previous question.

@JayCyano 5 месяцев назад

In the solutions proposed in this video the awnser is no.

@PsychoShayar 5 месяцев назад

I'm saying.. Not to observe the state of entanglement, just whether it is entangled or not.

@rustle9369 8 месяцев назад

But you can affect the state in a timed manner essentially sending state changes in timed sequence- this way it dosen't matter what they observe they just have to observe the changes and measure the time between.

@quinnobi42 Год назад

I read a lot of science fiction. When I was younger, I naively believed that quantum entanglement truly could make FTL communications possible. But as I've learned more about quantum mechanics and how things actually happen, I became increasingly skeptical of the idea. The final nail in the coffin of FTL communication for me was learning that you can't observe particles at a distance. It's not like watching a ball roll on a table where you can see how it moves without affecting it. We have to measure particles using light, which (to use my earlier analogy) is like having to poke the ball in order to see which way it is moving. We can determine from the forces on your finger which way the ball was moving, but now that we've measured it, it's moving in an entirely different way.

@Shirocco7 Год назад

Great description, thanks

@subvind Год назад

"you can't observe particles at a distance" - interesting... just thinking here: they say in order to move at the speed of light it's mass or information must = 0 ... ok that makes sense to me but what is the entropy of that thing moving at the speed of light then? What I am getting at here is maybe we don't need to "observe" what we already know because our methods of communication are based off patterns and algorithms (special relativity).

@molybdaen11 Год назад

What if we use a very small finger and move ist very gentle and fast?

@CosmicCraig Год назад

I love what you have said here. I also have begun saying science fiction is really science future. I agree we need to understand the quantifiable data at hand, but that data. can sometimes change as our processes improve. Human ingenuity will always find a way to create the necessary tools for the universe

@Vexas345 Год назад

@@molybdaen11 Doesn't matter. You're relying on the ball to impart some of its momentum onto you so you can feel it. It's not something you can avoid because it's a requirement to make the measurement, you need it to happen.