"Many Worlds" is a simplification of quantum mechanics

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Looking Glass Universe

Looking Glass Universe

Күн бұрын

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@physicsgirl
@physicsgirl 2 жыл бұрын
Always happy to see a new video from you!!
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Thanks Dianna!! I should try to do it more often
@johnh3733
@johnh3733 2 жыл бұрын
Always cool when other content creators share the same interest
@jockbw
@jockbw 2 жыл бұрын
@@LookingGlassUniverse I anthropomorphised quantum particle as students and the experiment as the curriculum of a particular subject. I the. Took the measurement as testing and exams that brought with it a intuition I never had before that. The way you lay out the problems seems to be a fit with my conceptualisation of it.
@jockbw
@jockbw 2 жыл бұрын
@@LookingGlassUniverse this is where I wrote it down in the feverdream that was lockdown as covid refugee in Europe. Rumour has it die article drove crazy according to some locals, I had fun, perhaps this will bring some ⛅️and luck 😘
@kayakMike1000
@kayakMike1000 2 жыл бұрын
You two and Jade from Up and Atom should do a collaboration. But now I have other questions.... What do you two think about Dr. O'Dowd on Spacetime? (Truth be told, he is one of my heroes, but his content is a bit beyond me) Sabine Hossenfelder is another hero too as she strikes me as a very grounded scientist. Anyways, thank you both for great videos
@ScienceAsylum
@ScienceAsylum 2 жыл бұрын
You finally made the video! If only people knew how long you've been thinking about this one.
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Ahaha, at least you know and I’ve finally done it!
@erikziak1249
@erikziak1249 2 жыл бұрын
You should do a collab. 🙂
@alexandertownsend3291
@alexandertownsend3291 2 жыл бұрын
@The Science Asylum Oh you're here? Your channel is so good.
@kellymoses8566
@kellymoses8566 2 жыл бұрын
Your videos are better than Veritasium
@smlanka4u
@smlanka4u 2 жыл бұрын
There are 31 planes of existence from Hell to Brahma worlds according to Buddhism. The states of mind give rebith in those worlds.
@EngineerNick
@EngineerNick 2 жыл бұрын
As someone who knows almost nothing about quantum mechanics, this is the most sane explanation of "a measurement" I have ever heard. The fact that you took the time to mention the name of the instrument "Stern Gerlach" is brilliant, it makes the entire discussion seem a bit more real to me. I can actually search a picture of what an experimental setup might look like. It is so rare that actual instrumentation is discussed and I find that super frustrating. Often the mathematical models are presented as if they "are quantum mechanics" and the results from the math alone are supposed to be interesting somehow.
@QuantumPolyhedron
@QuantumPolyhedron 5 ай бұрын
She is blatantly lying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@amihartz
@amihartz 5 ай бұрын
She is blatantly Iying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@amihartz
@amihartz 5 ай бұрын
She is blatantly Iying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@amihartz
@amihartz 5 ай бұрын
She is blatantly Iying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@amihartz
@amihartz 5 ай бұрын
She is blatantly Iying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@randylynn2057
@randylynn2057 2 жыл бұрын
I took calc 2 over summer school in university. And I had the greatest teacher ever. They loved the subject, they loved thinking about it, talking about it. Their passion was infectious. He made me want to learn. Made me believe I could learn. Your passion for knowledge and talent to explain, and you do it with charisma. It’s infectious. You’re a treasure and makes me want to go crack open any book and learn. I’m so glad I found your videos.
@QuantumPolyhedron
@QuantumPolyhedron 5 ай бұрын
She is blatantly lying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@theosib
@theosib 2 жыл бұрын
Interesting. If I'm understanding this right, "wave function collapse" is nothing more than the measured particle getting entangled with something we don't have access to. It's not saying that the universe has split into multiple universes but that when we measure entangled particles in a state of superposition, we're going to get results that look like decoherence due to a loss of access to some of the state of the complete system. Did I get that right?
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Yeah, that’s a great way to put it!
@rv706
@rv706 2 жыл бұрын
I don't think it is completely right. Let me try to explain why. In brief: decoherence is not the same as wave function collapse and it's not enough to explain it; and the "splitting" actually corresponds to a dynamical fact (albeit as conventional as the choice of a basis), the fact that the state vector of the Universe becomes close to a superposition of terms which have certain "macroscopic" properties that are relevant to us. Anyway we'll never have empiric access to the whole state vector of the Universe, just to the component pertaining to us. So, about decoherence. When we trace out the (unknown) environment state, the state of the system is no longer described by a state vector but by a density matrix, which incorporates the (epistemic) lack of knowledge about the environment. What decoherence does is transforming the density matrix of the system into a diagonal form (w.r.t. the eigenbasis of the observable being measured), which means the state _after decoherence/measurement_ is a classical probabilistic mixture of pure states (with probabilities given by the Born rule). This means that, if we have an already-measured system in our hands but we don't know the result of the measurement, when we do stuff with it, it will behave exactly (in the sense of the info we can extract from it) as if it were randomly picked from an ensemble of eigenstates prepared with ratios proportional to the Born amplitudes squared. Now, how does decoherence cause the density matrix to become diagonal? I don't know the details, which depend on how you model the environment and the whole decoherence process. I only know that, the more decoherence occurs, the more the off-diagonal terms tend to look like the scalar products of the pointer/environment eigenstates, and the latter are orthogonal. I think the reason they're orthogonal is merely that they're position eigenstates of the set of all "particles" of the pointer of the detector: if you change the position of the pointer a little bit, it's already a different position eigenstate. Summing up: the off-diagonal terms are responsible for interference; and decoherence, by killing off-diagonal terms, explains why different final states don't interfere with each other; and this in turn explains why they behave "classically", i.e. according to "classical probability" and not "quantum probability". *But,* and this is important, the above does _not_ explain how the state seemingly passes from a diagonal density matrix to a pure state (rank 1 density matrix) during a "measurement" (i.e. why the wave function, as seen by an agent, seems to collapse). To explain (or, rather, explain away) measurement you need the Everett interpretation. According to this, it's not that the state vector falls to an eigenstate as per Copenhagen, instead it's that: -The Schroedinger equation holds at all times. -The state vector of the Universe evolves from a separable initial state like, say, (A+B)*(Ready) to an entangled final state A*(E1)+B*(E2). -Each component, A*(E1) and B*(E2), evolves independently under unitary evolution because the Schroedinger equation is linear. -From the point of view of the system (i.e. by tracing out the environment) the final state is a classical probabilistic mixture of A and B (because of decoherence and because E1 and E2 are orthogonal). So you recover the perception of the experiments' results being random classical states (no Schroedinger's cats and no weird statistical facts due to interference). -Each component A*(E1), respectively B*(E2), of the Universe's wave function represents a classical world in which the experiment has resulted in A, respectively B. -There's effectively no way to know anything about other worlds by computing expected values and other measurable stuff using only the component pertaining to "our world", say A*(E1). There's no empirical way to know whether the state vector of the Universe now, after measurement, is really A*(E1) as it would seem to an agent like us, or it is A*(E1)+B*(E2). One thing that blows some minds about Everett is that you have to change your conception of "agent/observer" and the meaning of probability. Now the history of one "observer" is not linearly ordered anymore, but it's structured like a branching tree (The past history of each agent is still linearly ordered though). And probability is not the probability of some physical event happening: because they _all_ happen with probability one, each in their own "world". Probability is more like what philosophers would call indexical uncertainty: you don't know _which one you_ you are. So to speak... I've probably been a bit too verbose. Also, warning: I've background in math, I'm not a physicist; so take what I write with a grain of salt.
@xnoreq
@xnoreq 2 жыл бұрын
No, wave function collapse is simply a physical interaction that effectively reduces a superposition to an eigenstate. MWI on the other hand argues that there is no such collapse.
@nikolayhidalgodiaz9463
@nikolayhidalgodiaz9463 2 жыл бұрын
@@rv706 thank you
@djelalhassan7631
@djelalhassan7631 2 жыл бұрын
@@rv706 I agree, "Many Worlds" interpretation of Quantum Mechanics is pure nonsense and there is no measurement problem
@cavalrycome
@cavalrycome 2 жыл бұрын
Ok, you've convinced me. I'm sure you're right that the "many worlds" idea would have gone down better if it hadn't been given that name. The way you explain it suggests that it's really just a generalization of superposition to include the observer, and that really makes a lot of sense to me now. Thank you!
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
David Wallace calls it “the emergent multiverse” which I think is a much better name. I wish it had been called that instead!
@somasundaramsankaranarayan4592
@somasundaramsankaranarayan4592 2 жыл бұрын
Entanglement with the measurement device/observer seems fine and nice. But that is just replacing one problem with another with no predictive improvement. There is still the problem of explaining why we find the measurement device or the observer to be probabilistically in one state and not the other one. So, no. The many worlds interpretation doesn't solve the measurement problem. It just shifts it to a new one and ultimately had no new predictive value.
@somasundaramsankaranarayan4592
@somasundaramsankaranarayan4592 2 жыл бұрын
@@LookingGlassUniverse .
@SuperMrMuh
@SuperMrMuh 2 жыл бұрын
@@somasundaramsankaranarayan4592 umm, no. It's an interpretation, it's not supposed to increase the predictive ability of QM. it's just a more elegant explanation for what happens because it requires less axioms
@FlyingPhilUK
@FlyingPhilUK 2 жыл бұрын
@@LookingGlassUniverse It's Expanding Bubbles of Quantum Superposition...
@FermionPhysics
@FermionPhysics 2 жыл бұрын
So glad you’re uploading again. You’re one of my favorite science KZbinrs. I was inspired by your older stop motion videos to make one of a similar style on my own channel.
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
I checked out your channel! Amazing work! I’m excited to see more from you :)
2 жыл бұрын
Galaxies, blockholes and planets are FAKE. Galaxies, blockholes and planets are imaginations, cartoons and photoshops. Nobody ever saw them with a telescope and was able to take a picture. Nobody can locate them at any given time in space. Galileo claimed to see Mars around 400 years ago, but you can not find a single photo taken from Mars since, and no photos are posted on the internet. To know that Mars and other planets are fake, answer this question for yourself, why do all the images show the planets are in full? If they are seen by reflecting the Sunlight, like the Moon they need to have partial views depending on the position of the Sun and the earth. Why don't we see the Moon at all times, day and night in its predictable path? Nobody ever proved that the Moon and Sun are giant balls/spheres out in space. The Moon and Sun are just circular images moving/circling in the outermost layer of the atmosphere.There are no photos from the dark side of the Moon and no one can determine their AXIS of rotation to prove that they are sphere shaped. The invisible/dark portion of the Moon is not dark/black, but it is transparent, we can understand it by seeing the images of "half Moon in daytime", google it. Atomic and Hydrogen Bombs are FAKE: There is no Atomic bomb. Japan atomic bomb attack and all those test were explosion of multi kilotons of TNT. Nuclear reactors do not produce power, they use power to make gold and Plutonium, watch "Unlocking Power of the Atom at Tarapur Nuclear Power Plant" to be clear. There are no turbines to generate electricity in any nuclear plants and turbines are the only means of generating electricity in power plants. Nuks are to suppress people's power and freedom and to scare them into submission, and to create a false sense of security for aggressors and attackers. Japanese faked it to take over the world by playing victims, like holocaust (hollow cast). Japanese bombers did not have the range to reach Pearl Harbor, let alone going back. Japan has not yet signed or ratified the Treaty on the Prohibition of Nuclear Weapons (TPNW). Viruses (Covid, Corona and all others) are FAKE: Viruses are all made up of cartoons, illustrations and photoshops from drug induced imaginations. You will know how they were invented by watching "TWiV 625: Fred Murphy, virologist for all seasons". Once scientists learned about the Bacteria and Antibiotics and realized they could not use them against people, they decided to imagine an invisible killer which nobody can study, they called it Virus. No one ever has seen a virus under any type of microscope and has published it. ISS, Satellites and all Astronauts are FAKE: No one ever sat on a rocket, nobody has the guts to do so, we can not survive the acceleration of a rocket. We never exited the Earth's gravity and its atmosphere. All the Satellites are hanging from Helium filled High altitude balloons. FAKE historical discoveries: The Egyptian Pyramids were built during the Suez Canal excavation, and are built with thousands of stone blocks cut and removed to dig the canal. There are no CREDIBLE mentionings or drawings of the Pyramids before the completion of the Suez Canal around 1849. Dinosaurs never existed, all their remains are fake artworks. Search for "first dinosaur discovery", you will see that first they were created from imagination as art and later there were claims of their discoveries. Dinosaur fossils are limited to very small locations and [fake] archaeologists, which does not make sense. They are used for making money from children and trafficking them. The following science is between 99% to100% FAKE and FALSE: DNA/RNA/GENE sequencing. EKG machines. EEG machines. Oxygen sensors, there is no Oxygen as gas exists in the Blood to affect the Blood color or its transparency. The only gaseous element in our blood is Nitrogen. Dialysis machines damage the Red Blood cells, no use for it. Effect of Cholesterol in Heart attack. Chemotherapy. Immune system. Virtually every Medical Lab works. Radiation therapy. All the Heart surgeries. Organ transplantations. and more ... Eye science: Rods and the Cones are not exposed to the light/photons. Not even a single photon can penetrate many layers of nontranspalent tissues and blood vessels to focus the light on the Rods and the Cones. No sharp image can project on the Retina. . Global warming will cause the ice to melt and convert to liquid form, water has 95% less volume, also ice contains trapped air and other gases in addition to some rocks (solides) which will reduce the volume of the outcame water and its levels in the sea. Waves form can only exist in a 2D surface/plane and not in a 3D space, it can not be the path of the Photons or Electrons. If photons/electrons move in a wave path, their speed will depend on the amplitude and its frequency, therefore it is in conflict with the constant speed of the light/photons theory. Time is not different from space. Time is not the fourth dimension. Time is the measurement of displacement of an object in space. Years, months and days are the measures of movement within a shared space in relevance to each other ( Sun, Moon and Earth). In the Atomic clock we count the oscillating atoms in a nano space in the crystal. Electricity, Magnetism, Heat, light / Color, Mass / Weight are different manifestations of Gravity and continually convert to each other. Gravity Force moves by means of CONDUCTIVITY at a SET DIRECTION and SPEED toward the CENTER of the GRAVITY. Gravity Force is Quantitative / Quantum since it is MEASURABLE. Anything we can measure is quantitative/quantum in nature and by definition. The DISTANCE that Gravity Force travels determines its Mass/Weight or counting the single steps which are the cycles of 1 and NOTHING. The DIRECTION [in a 3D space] determines its Electrical Energies and their Polarities, its temperature and its color. Gravity and all its manifestations exist because of its moving / traveling / dynamic nature. There is NO Static Mass or Energy (gravity force). Everything we [can] see exists within Earth's gravitational field and its Connected Atmosphere. Gravity is the fundamental force required for matter to exist. Every formula in physics which includes constantant (e=mc2) is FALSE. There is no constant in nature. The most accepted constant, Pi, is not a constant since nobody can determine its exact value. Turbines convert the Gravity Force to Magnetic > Electrical > Heat > Light and everything in between, all different manifestations of the Gravity Force from its Movements, always 90 degrees relative to its path. To understand better, you need to transpose/interchange the words Gravity and Energy in every document you read.
@fathare2085
@fathare2085 2 жыл бұрын
@Unedited Life Of Daniel You have quite an imagination. You should work for Marvel Comics, seriously.
@abrarrauf3801
@abrarrauf3801 2 жыл бұрын
One of the best science KZbinrs around! I hope to start my PhD next year and your approach of coming up with simple yet rigorous answers to very difficult questions in your field is incredibly instructive!
@amihartz
@amihartz 5 ай бұрын
She is blatantly lying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@NovaWarrior77
@NovaWarrior77 2 жыл бұрын
Please don't worry about the space between videos. I have been trying to jumpstart myself to do this youtube-physics-education thing for some time but it has taken a lot of effort to try to make the videos that I envision (not plugging myself, I literally don't have anything to plug, just testifying that it's harder than it looks, and it looks hard). Take your time to express the unique voice you have in this field.❤
@mediawolf1
@mediawolf1 2 жыл бұрын
Thank you for this. It may have felt haphazard in the making but I have to say, this filled in some really important gaps in my understanding of Many Worlds and answered some questions I've had about it. So I'm really grateful for this video. I've never heard it explained this way before and it makes so much sense. What looks like irreversibility is actually irretrievability, which is functionally equivalent. And we can see it happen on the scale of single particles. It's really quite brilliant.
@QuantumPolyhedron
@QuantumPolyhedron 5 ай бұрын
She is blatantly lying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@astickofdynamite
@astickofdynamite 2 жыл бұрын
Thank you so much for the incredible work you're doing. As a layman with an interest in youtube physics that goes back a decade, this is probably the single best video I've seen yet for a couple of reasons-the hugeness of the subject matter plus the clarity of your explanation is absolutely mind-blowing. Thank you so much, and keep going!
@QuantumPolyhedron
@QuantumPolyhedron 5 ай бұрын
She is blatantly lying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@HK-cq6yf
@HK-cq6yf 2 жыл бұрын
I think the word “worlds” and the media portrayal of it as separate dimensions and universes is a huge reason for making MWI sound much more exotic than it really is. MWI is just the math, without the special affordance for measurement collapse
@timjohnson3913
@timjohnson3913 2 жыл бұрын
Listen to Deutsch, Carroll or almost any MWer. They say there exists countless, maybe infinite versions of all of us that share parts of the same past, but are now almost surely forever separate. This isn’t just math, these are other people that are no longer us, but are going on existing and living their separate lives. No other popular interpretation of QM has this feature. To me, MWI is clearly exotic, fantastical and any other awe-striking word you can think of and it has nothing to do with the media. Your take that MWI is “just math” makes me feel like I am living in a different many world than the one you are living in.
@francescocannistra7915
@francescocannistra7915 2 жыл бұрын
I agree. The MWI just moves the measurement problem to the wave function's branching, which suffers almost exactly the same issues. So I see the MWI as equivalent to the Copenaghen Interpretation (well, the version of the CI explaining measurement with wave function collapse) with just a change of terminology (branching instead of collapse) and a bunch of additional (and unnecessary) metaphysics. Furthermore, it's not clear at all how the MWI would comply with special relativity.
@Webfra14
@Webfra14 2 жыл бұрын
@@francescocannistra7915 I don't think "branching" is just another word for "collapse". The latter throws away information about a particle, when it is measured, while the former keeps all of it. (The Schroedinger Equation doesn't loose information.) Also, interactions with particles are still local, therefore MWI should not have a problem with special relativity. It is not that the "universe itself" gets branched instantly over billions of lightyears. It's just that the entanglement "spreads" through the universe, whenever the entangled particles interact with other particles, getting them entangled as well... and so on.
@Vld45
@Vld45 2 жыл бұрын
@@timjohnson3913 A theory isn't judged by what it entails but through its content.
@Achrononmaster
@Achrononmaster 2 жыл бұрын
The mathematics is not the physics. To think it _is_ is metaphysical overload. Besides which, the orthodox postulates of QM do not mention anything "collapsing". When you write the measurement postulate in linear algebra there is nothing collapsing. Ergo no need to invoke any metaphysical assumptions like MWI. There are more parsimonious ontologies besides, see my comments above.
@parmenides9036
@parmenides9036 2 жыл бұрын
Your probably the most PRECISE science educator on youtube. You don't just parrot what everybody else says you deep dive and find all the things that don't make sense. Your attention to detail is legendary but your also thinking outside the box. It's a crazy valuable mix! You and Science Asylum are the BEST!!🔬🧪🥼
@vhawk1951kl
@vhawk1951kl 2 жыл бұрын
What do you suppose is the significance of the word "world" in the so-called "many *worlds* interpretation"? What you suppose that the word "world" signifies? Milieu, or just state of affairs?
@vhawk1951kl
@vhawk1951kl 2 жыл бұрын
@@ThePowerLover What is an universe? You have absolutely no idea? - My left pocket is now betting my right pocket that you have no idea what you mean by "universe" and are about to demonstrate that by signally failing to set out what you mean by or defining an universe - whatever that might be, and plainly you have not the faintest idea as you are about to demonstrate - do you have any idea what the word "universe means? Apparently not
@vhawk1951kl
@vhawk1951kl 2 жыл бұрын
@@ThePowerLover What do you suppose the quotation marks add to what you cannot even begin to define, as you are about to demonstrate by signally failing to do so - what does "many worlds" actually mean? You have absolutely no idea whatsoever? - This you are about to demonstrate by signally failing to set out what you mean by "many worlds", and my left pocket bets my right pocket that you have absolutely no idea whatsoever what you mean by "world", singular, any more than you have any idea whatsoever what you mean by "worlds, pleural, as you are about to demonstrate by signally failing to set out what you mean by or define "worlds", pleural, it being an athlete incoherent and meaningless word as far as you are concerned, as you are about to demonstrate by signally failing to define either world or worlds, without reference to cognates and synonyms and substituting one undefined for another undefined
@vhawk1951kl
@vhawk1951kl 2 жыл бұрын
@@ThePowerLover With respect, there is no need to "believe" - accept without question that there is only one universe, because *by definition* there is only one universe just as*by definition* there is and can only possibly be, only one unique object.(It's that or re-define universe or unique). They cannot the than one universe because more than one universe is a definitional and conceptual impossibility, it being as impossible to conceive of more than one universe as it is to conceive of a square circle or an sided triangle, or jumping over your own knees or standing on your own shoulders, all of which are conceptual impossibilities, there being various species of impossibility, in particular definitional conceptual and experiential impossibilities, and as Sherlock Holmes would say, once you rule out the impossible, whatever you have left - however improbable, has to be the truth or the case or that which is and cannot be different. If you say that many worlds or a multiverse is both a definitional and a conceptual impossibility or in practical terms, mumbo-jumbo, then I wholeheartedly agree with you, because it cannot be otherwise.
@Elrog3
@Elrog3 2 жыл бұрын
I disagree. I would give that award to Sabine Hossenfelder.
@Raging.Geekazoid
@Raging.Geekazoid 2 жыл бұрын
The problem with Many Worlds is that it equates the universe's eigenfunctions with states of human consciousness. In other words, each eigenstate is said to be a "world" that the people in it (if any) perceive as a distinct physical entity. But the universe only has one wavefunction, and component eigenstates are just mathematical tools for describing and analyzing it. Individual component states have no separate physical existence, no more physical significance than the x, y, and z components of a 3D vector or the Fourier components of a classical wave. Many Worlds is another example of physicists forgetting that math is just models, it's not the physics itself. "Ceci n'est pas une pipe." 🙂
@djelalhassan7631
@djelalhassan7631 2 жыл бұрын
Great, ''The famous pipe. How people reproached me for it! And yet, could you stuff my pipe? No, it's just a representation, is it not? So if I had written on my picture "This is a pipe", I'd have been lying!'' - René Magritte "Ceci n'est pas une pipe." ''This is not a pipe'' "The word is not the thing" "The map is not the territory'' "The mathematical tools of eigenstates is not the reality that it represents but they are just tools for describing and analyzing it' ''Put that in your pipe and smoke it'' the many worlds/multiverse fraternity.
@reilithion
@reilithion 2 жыл бұрын
Oh I love this explanation! You've made this concept very approachable and yet I don't feel like I got a watered-down media version of it. Thank you so much! Subscribed.
@QuantumPolyhedron
@QuantumPolyhedron 5 ай бұрын
She is blatantly lying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@viralsheddingzombie5324
@viralsheddingzombie5324 Жыл бұрын
According to Carroll, if I understood one of his lectures, there is a complete wave function that describes the entire universe. The function is omnipresent. We can only experience a minute aspect of the complete wave function because universally it would be incredibly complex and beyond our means. On the other hand, Bohr's view makes more sense in that collapse of the superposition probably is just a matter of scale. So the MWI is an attempt to circumvent reality by fabricating a number of new "worlds" or secret dimensions for every interaction. But that premise is outlandish and unscientific. I agree with Bohr.
@lepidoptera9337
@lepidoptera9337 10 ай бұрын
Carroll is highly confused about the phenomenology of the universe. There is exactly one universe (by definition as well as by observation). If we wanted to construct a wave function of the universe, then we would need an infinite number of copies of it. We can, experimentally, not even construct a wave function for a single hydrogen atom. Nobody gives us the money for an infinite number of repetitions of the same experiment.
@mattg8205
@mattg8205 2 жыл бұрын
“If you can't explain it simply, you don't understand it well enough.” I just discovered your channel and it's absolutely amazing. You seem to have a genuine and even masterful understanding of your subject matter, and yet you're incredibly effective at making it accessible to amateur physics folk like myself. Time allowing...keep it up!!!
@askiatoure3245
@askiatoure3245 2 жыл бұрын
I can now understand MW but I cannot explain how she made it so that a six year old could understand.
@vhawk1951kl
@vhawk1951kl 2 жыл бұрын
If you please, and if that be right, explain "understand" simply. What in practice you are suggesting is that if someone has a blurred or out of focus photograph of something the details and precise outline of which, cannot be identified, that they identify that which cannot be identified because the photograph is out of focus and blurred- In short inviting them to, or suggesting that they should (or you would like it if) focus what cannot be focused or clarified what cannot be clarified or define what cannot be defined or bring an unfocused photograph into focus, which is impossible. In the all of mirrors or miasma or fog of the human mind, there are an untold number of vague generalisations, or you could perhaps call them unfocused photographs, which are words or ideas, and what in practice happens is that men (human beings come across these vague generalisations or unfocused photographs, and offer them as proxies or substitutes for yet another vague generalisation or unfocused photograph, or in the simplest possible language they produce unfocused photographs of something, or some vague generalised idea, and when the interlocutor looks at it and tries to discover from the one producing the unfocussed photograph and asks him of what it is a photograph, or to clarify or define or focus it or tell him of what it is a photograph, the one showing him the photograph produces yet another or other unfocused photographs, to which is all there interlocutor says exactly the same thing, and the one producing the unfocused photograph cannot tell of what it is a photograph either, because it is impossible to tell of what it is a photograph - and that is why men rarely understand one another, thus if I were to ask you to focus or clarify or define "understand" you simply cannot tell me of what it is a photograph or what you mean or seek to convey, because you don't have any idea yourself - you simply cannot, for you is impossible as you are about to discover, and when you discover that you yourself cannot focus it unfocused photograph "understand", you will almost certainly proffer me or anyone interlocutor another unfocused photograph, or a series of unfocused photographs, or in plain language you don't have the faintest idea what you mean by "understand". Moreover you are about to demonstrate that by signally failing to define or set out what you mean by, "understand" - in your own terminology"Simply". Explain Understand *Simply*. Of course you cannot, because the word/photograph "understand" - for you (and for all I know all men) is an unfocused photograph, and neither you nor any of them can focus the unfocused, it is as if you came across something and took a photograph of it, and when you came to develop that photograph, you discover that you cannot discover of what it is a photograph because the photograph you have is out of focus and no more than ablur, or just a vague generalisation, simply cannot be focused, or you simply cannot determine of what it is a photograph, because that is what words/ideas are, are they are not? When I ask you to set out clearly or focus or define "understand", and you go to look at that photograph, you discover that you cannot, and this you are about to demonstrate for precisely the reasons I set out. It is not your fault that you cannot do the impossible, any more than it is your fault that you do not understand why it is possible, and you only discover that something is impossible when you come to try to do the impossible, and you discover that you *cannot* explain focus define clarify the word/idea/photograph "understand", it is only then that you discover that is completely impossible to do so, because no-one given an unlimited amount of time can focus an unfocused photograph or discover of what it is a photograph - you follow? No matter how hard or for how long you look at the word/idea/photograph "understand", you still won't be able to bring it into focus or define "understand". You have a vague unclear or unfocused idea that it is a photograph of something, but for the life of you you cannot tell me of what it is a photograph. It is not your fault or a criticism of you, that you simply cannot do the impossible. Moreover producing to me a number of similarly unfocused photographs, or vague generalisations of whatever it is that you are trying to explain define or clarify or producing more word/idea/word/photographs (that themselves are unfocused) - or simply resorting to synonyms and cognates or psychological algebra, will not assist you in any way either. Psychological algebra or X = Y = X where both X and Y are undefined, assigned no value, or simply substituting for one undefined term another or several other undefined terms, or cognates or synonyms, or simply substituting for one unfocused photograph another or several unfocused photographs. It will be interesting for you and I to discover if in practice it is to precisely that that you may be forced to resort, but we shall see what is the outcome of that experiment
@honeyspiderii
@honeyspiderii 2 жыл бұрын
This is literally the best explanation of quantum mechanics, entanglement, and many worlds that I have ever seen. Subscribed!
@andreasvox8068
@andreasvox8068 2 жыл бұрын
Great video! I like that it explains MW without relying on branching (because that's basically the same as WF collapse) In my view it makes more sense to assume an infinite but constant number of timelines, and measurements just select those timelines that are consistent with the outcome. Quantum probability then is just a measure on these timelines.
@neiljohnson7914
@neiljohnson7914 2 жыл бұрын
I don't think MW was ever about branching as you mean it. It was never about branches that don't yet exist until a measurement is made. It was always about existing branches which are just all the probabilities allowed by the wave function. You can think of it as each possibility is aware of itself but is unaware of all the others.
@gregsomlai297
@gregsomlai297 2 жыл бұрын
I'm not an expert by any means, but I've been trying to understand as many qm concepts as possible, without having a super tight grasp of the underlying mat, etc. I have sooo many questions, but instead, I'll just say, that the notion of macroscopic systems being entangled and part of a superposition, is something that I always thought could solve so many issues. The first I encountered this, was with the delayed choice quantum eraser. All this explains perfectly what you see in that experiment. (I think:)) It's great to see you've been uploading lately. We had a short email exchange back in the day, around 5 or so years ago. Congrats on all your achievements and keep it up! :)
@joshuacooney-mercadal6302
@joshuacooney-mercadal6302 2 жыл бұрын
Thought it was really good on the whole. As someone who's studied QM, i think a brief explanation of the wavefunction coefficients and normalisation would make a lot of your hand-wavy bits more easy to accept.
@colinbrash
@colinbrash 2 жыл бұрын
Wow, this is incredibly clear and well-paced. It’s the first time I feel like I’ve grasped the many worlds concept.
@lightupthedark632
@lightupthedark632 2 жыл бұрын
You made this so easy to follow and understand: it's the first time that has ever happened to me on the subject of quantum mechanics. Now I'm actually interested in this subject that had previously seemed out of reach and elitist. Good job!
@vhawk1951kl
@vhawk1951kl 2 жыл бұрын
Please correct me if I am wrong or mistaken, but is it right to say that what is called "quantum mechanics" is in reality a series of guesses upon the basis of which various experiments are made the outcomes of which tend to suggest that the guesses are rather better or more than guesses? Would that sound better if we substituted for guess inference or deduction or supposition - or perhaps even just imagination?
@BlaziNTrades
@BlaziNTrades 2 жыл бұрын
I stumbled across your channel very recently and it's pure gold! You are a very good teacher.
@QuantumPolyhedron
@QuantumPolyhedron 5 ай бұрын
She is blatantly lying. If you remove the Born rule then you cannot make the same predictions as quantum mechanics, it's not just there for fun but has a purpose. MWI in the actual literature then have to reintroduce it with another assumption whereby they derive the Born rule from it. It thus not only has equal amounts of assumptions but is more mathematically complicated. Look up the lecture "Local Beables, Wave Function Monism, and Empirical Content" where Maudlin also shows how it is not even a philosophically coherent interpretation because it posits the entire universe is invisible, which obviously isn't true.
@hasansayeed3309
@hasansayeed3309 2 жыл бұрын
This is easily the most amazing explanation in layman’s term of MW I’ve ever seen! Thank you so very much!
@jhoughjr1
@jhoughjr1 2 жыл бұрын
She has some of the best explanations I've seen in years.
@LuisAldamiz
@LuisAldamiz 2 жыл бұрын
It's an excellent explanation of the measurement problem and its correct understanding as entanglement/interaction, all of which, as she explained (extremely well) is empirically demonstrated. But her jump to MWI seems a magician's (mathematician's) trick to me, nothing else.
@Dragrath1
@Dragrath1 2 жыл бұрын
@@LuisAldamiz Out of curiosity how does this seem to be just a mathematical trick to you, i.e. what would it take to make you change your opinion on this? As far as I can tell the logic holds for her jump its just you have to account for entanglement's role in information theory i.e. the change in entropy to define the measurement and reversibility i.e. decoherence. Aside from decoherence what is missing for you? Now to be frank I also think it is likely to be a bit more complicated for various reasons beyond this topic (namely relating the establishment of formalism equivalence between the Schrodinger equation within the Feynman path integral with general relativity and the Einstein field equations and explaining the observed phenomenon known as the quantum Zeno effect) but I'm curious about what particularly bothered you in this description she gave.
@LuisAldamiz
@LuisAldamiz 2 жыл бұрын
@@Dragrath1 - Maths are a logical tool not reality. Often maths produce "solutions", "results" that, when faced with reality are proven false (or most unlikely), you could probably "demonstrate" gods and what-not with maths, it's full of logical traps because it's nothing but logic. I know that there's a lot of Pithagorics/Platonists who think otherwise but Kepler himself had to break with that kind of "philosophy" in order to open the gates to modern science. Science is mostly not based on ancient Greeks but on modern Europeans like Gallileo, Kepler and Descartes. "Shut up and calculate" is ultimately not a good enough approach... unless those calculations are confirmed experimentally, empirically, by observational facts. That's what it takes to prove something in terms scientific: evidence. Something that is not observable in principle, be it String Theory or Many Worlds, is not science, it's speculative philosophy. I'm amiss on how you relate Schrödinger and Feynman to General Relativity, as so far, in spite of the best efforts by Dirac and QFT, these two branches of modern physics remain almost totally separated.
@LuisAldamiz
@LuisAldamiz 2 жыл бұрын
@@Dragrath1 PS - The "quantum Zeno effect" is interesting, because it implies that measurement is also "caging" of the "wavicle", what may help explaining the decay of quantumness with number of particles, as they "measure" (interact with, get entangled with) each other again and again and again. Thanks for mentioning that even if in passing because it was a bit I was unaware of. It seems to imply that "measurement" (i.e. interaction/entanglement) reduces or totally quells the uncertainty or "superpositionness" of the wavefunction or wavicle, forging macroscopic, relatively stable, Reality as we usually perceive it. I still don't see how MW may emerge from that.
@patz8995
@patz8995 2 жыл бұрын
Pretty much the best video I have seen about the topic, don't be too harsh with yourself. After all it's not that easy to explain it without using too much maths and in only 30 mins! Nonetheless I would still absolutely love to see a "deeper" version of it. Thank you for all your effort, it is really appreciated :)
@patz8995
@patz8995 2 жыл бұрын
Btw would really love to see which books you meant at the end...? Unfortunately there are none linked
@thejontao
@thejontao 2 жыл бұрын
This was the first time someone explained the many worlds interpretation in a way that made sense… I’ve seen too many KZbin videos that talked about it, but only talk about the woo woo part. You actually explained it. Thanks!
@vhawk1951kl
@vhawk1951kl 2 жыл бұрын
If you were forced at gunpoint to set out exactly how you understand what is called the "many worlds interpretation", how would you go about doing that? For the purposes of what is called the "many worlds interpretation", what exactly is the significance of the word "world" will it make any difference to you was called the many things interpretation? Why not just call it the many things interpretation? - Or even perhaps just the lots of stuff interpretation. Does it matter what you call it
@thejontao
@thejontao 2 жыл бұрын
@@vhawk1951kl That's an interestingly aggressive way of phrasing such a simple question... I actually started working on an answer, but then I stopped. I'm honestly under the impression that you are just trolling me, and there are better ways to spend my time.
@edwinagnew6800
@edwinagnew6800 2 жыл бұрын
Very nice video! I had always been sceptical of the Everettian’s appeal to Occam’s razor because it felt like they were substituting the measurement axiom for the axiom “I don’t experience superpositions” (which seems true, but brings in lots of philosophical complications of “I” and “experience”). Your argument for why the branches can no longer interfere is much more appealing, so thank you. I also love how the whole thing was done with qubits. This is why I call quantum computing “experimental metaphysics”
@banenewton4559
@banenewton4559 2 жыл бұрын
I really enjoyed this explanation. So glad you're talking about the Everett interpretation as I've always found it to be the most fascinating one. You did an excellent job explaining it to someone without a degree in science (me!) Could you add the books you mentioned to the description when you get a moment? And please make more videos about this! And also just more videos in general. Love your channel
@timjohnson3913
@timjohnson3913 2 жыл бұрын
Excellent video; you explanations are very clear! Sabine Hossenfelder has a video “The Trouble with Many Worlds” in which she argues the measurement update/collapse to 100% in a particular state and MWI’s assumption that everything happens with the probability 1 are “entirely, logically equivalent”. Therefore, she argues the MWI does not solve measurement problem. Could you please address this if there is a follow-up video?
@haoherb
@haoherb 2 жыл бұрын
Nice explanation of the MW interpretation. Personally, I am kind of a true believer in the Copenhagen interpretation. By this I mean that I think there must be some kind of physical process that approximates to wave function collapse. I think that the argument of this video can be boiled down to the following points. a) Wave function collapse is so terrible that it must be wrong. b) Environmental decoherence is sufficient to explain quantum mechanical measurements. c) People don't perceive superpositions because our brains get entangled with the objects being observed. There are two ways that people normally try to explain away wave function collapse. The first is to push determinism down to the microscopic level. The result is some kind of Bohmian Mechanics / hidden variable theory. These kinds of theories have many problems, but that is beyond the scope. The second way of avoiding collapse is to allow superpositions to swell up to the macroscopic level. The result is the Everett / Many Worlds interpretation. In my opinion, the the MW interpretation is more viable than Bohmian Mechanics, for the reason explained in this video, namely, that it doesn't modify the basic formalism of quantum mechanics. The price paid for this way of getting rid of wave function collapse is an ever increasing infinity of unobservable branches of the wave function. If you want to get rid of these unobservable branches, you simply gotta have some kind of spontaneous decoherence (i.e. wave function collapse). This is the basic argument why Copenhagen is the best interpretation. In the end, you have to pick your poison. The debate between Copenhagen and MW is not likely to be resolved experimentally. Actually, there is a way the question of collapse could be resolved experimentally. If spontaneous decoherence were ever observed in the laboratory, MW would be dead. Obviously, that hasn't happened so far, and may never happen.
@anthonypolonkay2681
@anthonypolonkay2681 2 жыл бұрын
Im only a layman with an deep interest in science, and physics, and I think your right here for what it's worth. From everything I have been able to gather on the subject, things like MWI only exist because many physicists hold to materialists ideals. And QM wavefunction collapse spits right in the face of that philosophical presupposition.
@djelalhassan7631
@djelalhassan7631 2 жыл бұрын
@@anthonypolonkay2681 Yes, materialism is a religion and the "Many Worlds" interpretation of Quantum Mechanics is their god and temple rolled into one and they worship unconsciousness and none free will and pure nonsense
@JohnSmith-ut5th
@JohnSmith-ut5th 2 жыл бұрын
@@anthonypolonkay2681 Mathematics, by is very nature, is materialistic. It's not about materialism, but rather, it's simply about having a mathematical mind, which is the definition of a good physicist.
@anthonypolonkay2681
@anthonypolonkay2681 2 жыл бұрын
@@JohnSmith-ut5th idk where your getting that from. Mathematics is conceptual. You can't destroy, or alter mathematics by destroying, or altering anything in the physical world. I'd like to know on what grounds you consider mathematics materialistic by its nature. Because that's going to be a hard case to make.
@JohnSmith-ut5th
@JohnSmith-ut5th 2 жыл бұрын
@@anthonypolonkay2681 Mathematics is our conceptual understanding of physical space and time. Look at group theory. It is a study of symmetries. Symmetries are physical things. All mathematics boils down to logic, which is fundamentally based on AND, OR, and NOT operations. What does AND mean? It's really a conceptual statement about a physical state of the universe. It means A AND B are both true. Same for OR. This is why we use the words "and" and "or" so frequently (look, I did it in this sentence). This is why Muslims rejected mathematics as "evil" around the time of the Enlightenment. They thought a study of physical reality was placing the universe before God. Now, I'm a Christian, and I don't believe it has to be either/or. However, we do have to recognize facts for facts. All languages, including mathematics, are ways of communicating facts about the state of the world (or, in reality, our concept of it).
@audistik1199
@audistik1199 2 жыл бұрын
I’m in total awe of you. While I don’t fully understand QM, I see the brilliance of your logical mind, the utter joy of your personality, and the beauty of your presence. Please don’t tell my wife that I said that!
@VincentGroenewold
@VincentGroenewold 2 жыл бұрын
Really nice, never realized that the many worlds theory is an actual simplification. That immediately makes clear why it exists and many like it.
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
I so glad to hear it made some sense!
@WackyJackyTracky
@WackyJackyTracky 2 жыл бұрын
This is insane... with every particle interaction a new world would be copy pasted. Where shall all the Energy come from to copy paste a whole world all the time endlessly? Only explenation might be, that the worlds are run in a super computer where copy and paste in the RAM doesnt take much energy, so we are a simulation
@pseudonymousbeing987
@pseudonymousbeing987 2 жыл бұрын
@@WackyJackyTracky From superposition. 1. Multiple states of reality are real. 2. A particle interaction happens 3. Multiple states of reality continue to be real. The universe is one big single thing which contains these multitudes.
@steffenbendel6031
@steffenbendel6031 2 жыл бұрын
@@WackyJackyTracky you could argue that all states are already there in the beginning, so the full vector with an element for all the combination of all the possible existing particles. Just that in the beginning only a few elements have non zero weight. And from there, it is is only a rotation (means the length of the vector stays the same) in the high dimensional vector space. And since the base of this vectors space is arbitrary (in the video, the up and down could be written as a combination of left and right), you could always find a new base, where the current state is use one base vector. In that base, only that element would have a weight of 1. So where is the branching/splitting of the world?
@herrweiss2580
@herrweiss2580 2 жыл бұрын
@@WackyJackyTracky Quantum computers, for sure.
@GeoffryGifari
@GeoffryGifari 2 жыл бұрын
glad to have you back! here are my several cents on this topic: 1. what if the violation of schrodinger eq ("unitarity") is gradual? we slowly lose the ability to predict earlier state as our measurement apparatus gets bigger 2. I can see another case why many worlds taken literally can sound absurd: imagine in our lab 2 stern-gerlach experiments being run at the same time. now we have *four* universes split. considering just how many quantum processes happening in the lab, in the device, and in our bodies, it seems like infinite number of universes are being created every second 3. Is decoherence the same as saying quantum mechanics is in a bigger theory which *includes* measurement apparatus? 4. Looking at the thought experiment with the extra particle, is it right to say that every interaction between microscopic particles result in an entanglement? can we "hit" two particles with each other *without* having them entangle? 5. If measurement is equivalent to information being carried away by particles we ignore, does that mean that schrodinger's equation only *fully* work for the *entire universe* ? 6. What do you think is the difference between measurement and preparation (how to obtain |up>+|down> state in the first place?) preparation might give us a clue to what measurement really is fascinating subject!
@adityakhanna113
@adityakhanna113 2 жыл бұрын
I promise there's a world where I am watching the video before commenting! I will, but just excited to see you back!
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Haha! Thank you for always watching!
@niklasbolter8639
@niklasbolter8639 2 жыл бұрын
The way you have explained it, it almost sounds like the "Church of the Larger Hilbert Space" to me, in the sense that every "collapse" can be viewed as an evolution guided by the Schrödinger equation but in a larger space. The analogy might break down quite quickly though.
@raymitchell9736
@raymitchell9736 2 жыл бұрын
Thank you for making this video, it was difficult to get the concepts across, and sadly I as much as tried to understand it, I couldn't get all of the details... but I understand what you were saying about having rushed through things and that it might be a jumble, but not to worry, it is a complex subject and it has strange notation and concepts... maybe you'll have clarity to explain what it was you wanted to say, and I really think you're close to having the video that you wanted to achieve... so I hope that you do make another video and I'll happily watch it.
@markwebb7179
@markwebb7179 2 жыл бұрын
I've always understood MWI as describing discrete 50%/50% probability situations. This is always how it's presented, and it's how you presented it here. What I've never seen is a description of how it could provide any insight into the locality issue for continuous distributions. Take a particle that's distributed across a range of locations, with a higher probability at one location than at others. This isn't a discrete state, but a continuous one. A measurement happens and MWI says ... what? Does 80% decoherence happen, depending on where the particle is measured? Locality is continuous, but MWI is discrete. How do you square that circle?
@praveenb9048
@praveenb9048 2 жыл бұрын
Not to mention the proliferation of "world's" , where the particle's interaction spawns a continuous gamut of universes, each differing incrementally from the next.
@maninalift
@maninalift 2 жыл бұрын
I'm not sure I understand why you say that the MWI must be discrete. Not to say that you don't have one. As I understand it, in the many worlds interpretation, the state is just that described by the evolution equation. Many worlds goes from being a bad name to a terrible one in this case. It may be that reality is fundamentally discrete. But that caveat aside, assuming the normal continuous description of quantum states, a MWI implies a continuum of entangled states as the outcome of "measurement".
@markwebb7179
@markwebb7179 2 жыл бұрын
It all depends on what we mean by decoherence or even many worlds. Take a particle that is probabilistically distributed around a range of locations in 3D space: i.e. most of reality. Current theory says it's in a superposition of all those states at once. A 'measurement' happens and normal quantum theory says the state of the particle "collapses" to a single location - all those superpositions disappear and we can no longer detect them in future experiments. That's a problem, because what happened to all those superpositions distributed across probability space? Did they travel faster than light speed to the collapse event? Did they get destroyed? Have no fear. In steps MWI to save the day! (Does it?) We don't have to worry about those other superpositions because they're no longer coherent in the reality we observe. That's fine I'm a situation that was split 50/50. What does that mean in a continuous distribution that's not evenly distributed. Was this an infinite decoherence, where the probability of me ending up in my current state was distributed across space? I would have detected the particle over there, instead of over here 5% of the time because 5% of the decoherence split off in that direction, but over here 1% of the time? It's worse than that. It's not a bin that contains 5% of the distribution. At least then we could reason it out a bit. It's more a continuous space, where any given location contains
@childfree
@childfree 2 жыл бұрын
This is a reasonably good short explanation of Many Worlds. I studied a bit under Dr. Wheeler in the late 70s early 80s and tried to grasp It from Bit and his other takes on QM when I was a teen/early 20s as an undergraduate physics student and it was fascinating but made good sense to me (A in his course and on my paper) and that made it easier. He was the best professor I had had at the university, a concerned and interested teacher that interacted with his students and made the complex as simple as possible. His recommendation helped me obtain my first teaching position. Interestingly, as a member of the UT ballroom dance team at the time, I helped another student set up for his dance routine tryout for the team, an astrophysics student, said his name was Neil. ;) I've watched your videos over the years as you went through your schooling and appreciate your explanations and willingness to help present this emerging understanding of the universe. :)
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Wow, you had Wheeler as a professor? That must have been such an honour! I really appreciate your encouragement, thank you :)
@childfree
@childfree 2 жыл бұрын
@@LookingGlassUniverse Yes, he was very encouraging of those students that showed promise and worked hard, and an excellent instructor, which can't be said of many professors. Having Neil Degrasse Tyson become a member of the Ballroom Dance team I was a part of as just a fellow uni student was an interesting happenstance, as well. I look forward to more videos like this, your presentation and understanding approaches the directness and simplicity of Wheeler's instructional style! I will tell you, he had an interesting way of handling students that were always looking for him to make a mistake, for instance, on the chalkboard. If someone pointed out an obvious scripting or math error, he would stop, look at them, then slowly pull out of his pocket a small change purse,, pull out a penny, then walk through the aisles directly to the student and hand it to them with much ceremony, without a word, then walk back down the aisle and continue his teaching. I used it with my students, I thought it was so great! ;)
@jimlang7461
@jimlang7461 2 жыл бұрын
Thank you so much for your videos. As a youth, and throughout my life, people have been telling me that I am smart. And that's how it looked to me. Test taking, problem solving and so on... it al came so easy to me.... then I tried to make sense of quantum mechanics...frustration,,, anger even,. that there was a realm of knowledge that I could not understand.... I took some comfort in the Feynman quote: "If you think you understand quantum mechanics, you don't understand quantum mechanics." ... but it was cold comfort. Finally with your videos I have made a breakthrough...do I understand? Maybe. But at least I have a handle on the subject that I have never had before.
@ryancormack6934
@ryancormack6934 2 жыл бұрын
1:04 "many worlds interpretation is the best because it is so simple". Simplicity is nice, but not sufficient. Theories should be testable and practical as well. Many worlds is neither.
@Errenium
@Errenium Жыл бұрын
sure. that's why it's only an interpretation, just like Copenhagen.
@Andronicus2007
@Andronicus2007 Жыл бұрын
1:55 I just want to know why the electron feels sad!
@0710tejas
@0710tejas 2 жыл бұрын
One of the biggest reasons i subscribed you because your life, story is related to mine. I am not really good at maths and i love physics.
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Keep at it :)!
@parmenides9036
@parmenides9036 2 жыл бұрын
People who aren't good at high school mathematics tend to just intuitively understand that the way they teach it is just brainwashing. Once they get exposed to the actual structures like Lie groups they start to actually like it.
@nullmeasure6155
@nullmeasure6155 2 жыл бұрын
Astonishingly detailed yet concise deep dive and very accessible. What an incredible presentation! One thing I think might not be beyond the scope of what a surprising number of prospective viewers would like to see would be if you could explain the missing factors and terms in your mathematical explanation of how the directions combine in a nominal way with a minimal expression of their relations to just the extent required to get the desired algebraic properties. I know that a very good presentation was done by a gentleman from Microsoft who illustrates basic quantum computing using changes in state in the complex plane, which is easier to grasp but still exhibits enough of the same properties to make many of the key intuitions demonstrable. Don't be afraid to bring rotations about the origin as part of multiplication into the mix. I've had good success explaining that to college and highschool students by starting with the intuition of rotations to understand what i is and then from there how the rotations actually work.
@oblivion5683
@oblivion5683 2 жыл бұрын
This is really convincing! I've never seen a computational argument for MW so this is definitely something I'm gonna link to maths-type friends who are curious. I don't see the books you mentioned in the description btw, is there one you like that goes more indepth on decoherence? That's definitely the thing that interests me the most here and the thing I understand the least.
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
I’m sorry, I forgot to put the books in the description. They’re there now though! If you read either of them, let me know :)
@AngadSingh-bv7vn
@AngadSingh-bv7vn 2 жыл бұрын
I would really like to know what makes |up> = |left> + |right> and why that is not the same for |down> = |left> - |right> and can down be -|left> + |right> instead? I feel like a quantum mechanics course would tell me all of this but I don't have that option yet.
@d_laurent8093
@d_laurent8093 2 жыл бұрын
Good to see you back again. I'm really impressed by your ability to put complex things so clean and simple. Just want to say thank you for all of your videos. Keep on your amazing work (but don't forget to enjoy your holiday either :)
@betterlifeexe
@betterlifeexe 2 жыл бұрын
Thank you for formalizing thoughts that I have had a hard time explaining in detail. One of the things that I always point out to people is that it is very presumptuous that there is only one 'universe', and that it assumes less to say that there is either a collection of universes of an unknow size with no measurable maxima, or an infinite collection. I guess people don't like the feeling of their world being so small in comparison to all of existence.
@betterlifeexe
@betterlifeexe 2 жыл бұрын
nobody is likely to read this reply but just to get my thoughts out somewhere: all energetic measurements are relitive to something. In the many worlds if you have a branch - your relative energy does not change except around the inflection point you care about. you are kind of 'pushing off' locally but stealing a copy of the original, without changing the relative energies within the original.
@ny3dfan781
@ny3dfan781 2 жыл бұрын
I’m with Mithuna that “Many Worlds” is likely not the best name for this interpretation, but I’ve long felt that many objections to MW were because people were afraid of a universe that was too profligate and too rich.
@betterlifeexe
@betterlifeexe 2 жыл бұрын
@@ny3dfan781 Maybe, but she does still conclude that there are many copies that are valid, just not able to measure each other. This is likely the most consequential conclusion of the theory, as it opens up a much larger existence for us to be in. This many worlds name does communicate this, it is descriptive. I'm not sure we should use a less descriptive name to make it more palatable.
@ThePrimevalVoid
@ThePrimevalVoid 2 жыл бұрын
Loved this video! I'm glad we got right to the math of it all instead of trying to fly off into space. I'd love to hear more about decoherence, especially/maybe in the context of macroscopic quantum states.
@takedonick101
@takedonick101 2 жыл бұрын
Wow, absolutely incredible!! I swear to god, Nobody has explained quantum mechanics in such detail ever before and this made me understand soooo much more, such as the true nature of quantum entanglement (and the existence of uncertainty linked to missing entanglements.(I'd like to think.) ) But honestly, feeling lucky to have come across your channel and would be glad to support you if you have a patreon.!! Keep moving forward!
@ivanhagstrom5601
@ivanhagstrom5601 2 жыл бұрын
Literally yesterday I was talking with my friend about how quantum state collapse is unnecessary because entanglement can explain the same observations, and today you upload a video explaining it to me!
@vishalmishra3046
@vishalmishra3046 2 жыл бұрын
*Interactions cause Entanglement* . Observation is just an interaction that causes entanglement of the observer with the experiment. Measurement is just a special case of an observation of physical quantities. Entanglement causes co-relation between more than 1 wave-function. After measurement, the observer and the experiment share the same wave-function so the outcome becomes co-related in each of the "Many Worlds" of possible outcomes. Since all observers involved in the measurement see the same "consistent" outcome within the same (any one instance of the) "Many Worlds" they "perceive" that the wave-function collapsed which obviously is not required as suggested in this video. I love the simplicity of the "Many Worlds" interpretation for exactly the same reasons as you do. *Thanks for making this video and simplifying this complex concept* . 20th century scientists who believed that Human beings are somehow special enough to be outside the world of Quantum Mechanics needed the concept of "collapse" of wave-function to explain measurements and complicated this otherwise simple theory of Quantum Mechanics.
@sayantikasarkar09
@sayantikasarkar09 2 жыл бұрын
I love how you explain in such a lucid manner Mithuna ❤️ I really look forward to your videos. Wish you could upload more often 😇✨
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Thank you so much :) I will be trying to upload a lot more
@DoseofScienceDoS
@DoseofScienceDoS 2 жыл бұрын
One of the most comprehensive QM videos. Congrats times a million!!
@DonReba
@DonReba 2 жыл бұрын
An outstanding explanation, thanks for this. Very satisfying "A-ha!" moments from the single particle measurement and many-worlds interpretation explanations.
@munderlarkst
@munderlarkst 2 жыл бұрын
That is the best explanation of Many Worlds I have heard. I have been trying to understand it for a while now. Thank you for this video!
@WilliamLeeSims
@WilliamLeeSims 2 жыл бұрын
This is a very clean, clear explanation of the many-worlds interpretation. I think leaving off the coefficients (but mentioning that they are there) helped keep everything more on topic. Excellent work for an off-the-cuff video 😃
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Thank you so much!
@armagetronfasttrack9808
@armagetronfasttrack9808 2 жыл бұрын
I disagree that the presence of the intermediate interacting particle makes it "look like" a measurement happened in between the magnets vs the previous case. In the first case with no interacting particle, the "preparation" of the system prior to the left-right (LR) measurement (aka the set of magnets) left the particle in an eigenstate of the LR measurement device, thus the LR measuring device measures that eigenstate without changing the system (without collapsing). In the second case with the interacting particle, this interaction changes the state of the system such that just before the LR measurement, the system is not in an eigenstate of the LR measurement device, thus the LR measurement has some probability for different outcomes and there is some apparent collapse into left or right. It is not required that a "measurement" has been made in the preparation in order to see different possible outcomes. All that needs to happen is that the system just prior to LR measurement is not in an eigenstate of simply L or R. This can happen due to some apparent collapse due to a prior projective measurement, or through an interaction changing the state of the system (which it did in the second case). Thus the observation that there is a 50/50 chance of left or right measurement does not supposedly mean that a prior projective measurement was made if you interpret measurements as collapses. Besides this, I think there are some serious issues in the details of the MWI that are fundamental and should not be glossed over if you want to be confident that this interpretation makes the most sense. Yes, the MWI arguably gets rid of the extra assumption of measurement collapse, but it introduces many problems with what interactions are actually doing. For example, if a particle is prepared in a spin-up state, I could choose to align my measurement device up-down such that I always measure spin-up and no superposition is created after I measure/interaction (aka my personal wave function has not branched). Conversely, I could choose to align it left-right such that a superposition is created upon interaction and, thus, my personal wave function has branched into two non-interacting branches. The normal collapse interpretation of this superposition is that there is a 50/50 chance that the system will exist in the left or right spin state after measurement. The MWI is that there is a 50/50 chance that I find myself in either the left or right branch, but a 100% chance that the left branch exists and a 100% chance that the right branch exists. The big problem I see with this is that the creation of these two branches causes two fully-existent worlds to now exist versus the prior one world, and two worlds would have double the energy of a single world. Thus energy/stuff is constantly being generated due to interactions. And I still haven't touched upon preferred basis, the actual mechanism of branching, ect. This is not to say I believe in collapse or any particular modern interpretation. I haven't seen any interpretation that really makes much sense, and I think it's important to make really exhaustive analysis/criticism of a theory/interpretation before you gain confidence that it's correct.
@angeldude101
@angeldude101 2 жыл бұрын
The way I see it, if each world were equally likely, then they would both posses half of the energy of the original. No energy is created, and any scale we'd have for measuring energy would be halved in the same way, so it appears like energy didn't change relative to the observable system. The only problem I personally see with this is that if energy is quantized, then it would imply a finite number of total branches, since it would get to a point that there wouldn't be enough energy to reach the minimum needed for each branch.
@armagetronfasttrack9808
@armagetronfasttrack9808 2 жыл бұрын
@@angeldude101 How would the energy be halved? The energy of a world is a function of, roughly, the positions and momenta of all the particles. Since both new worlds would have nearly identical particles with nearly identical positions and momenta as the original world, they would each have nearly the same energy as the original world. The energy of the two new worlds can't magically each have half the energy of the original world without destroying roughly half of the material from the original world.
@angeldude101
@angeldude101 2 жыл бұрын
@@armagetronfasttrack9808 The main problem is that they're not even really "worlds" in that even if they escape as fast as possible, the influence of a given quantum event, and therefore the size of the "worlds" split from it, would only expand at the speed of light. Really, in dealing with quantum effects, it's best to talk about the wave function. A wave in superposition with itself just doubles its amplitude, so when the two waves separate, the two new waves each have half the amplitude (or possibly squared amplitude) of the original one. The most important thing to remember with Many Worlds is that branches are nothing more than macroscopic superpositions. Any problems with energy on the large scale should be no different from problems with the energy of a single particle.
@armagetronfasttrack9808
@armagetronfasttrack9808 2 жыл бұрын
@@angeldude101 My argument is that the MWI destroys the usual interpretation of the quantum expectation value of an operator. A quantum expectation value of an operator O, , can only be interpreted as the weighted average of the eigenvalues of that operator when the magnitude squared of the coefficients of the wave function, |c_i|^2, are the probabilities of existence. In the usual collapse interpretation, these |c_i|^2 are exactly the probability that the state i will exist after measurement. In the MWI, however, these |c_i|^2 are not the probability of existence of the ith state, but the probability that you will find yourself in the ith branch of the wave function. Thus, the quantum expectation values that we calculate, which are still maintained, no longer describe the weighted average of an observable (ex. energy). Thus, while the usual math still looks the same with the MWI, the interpretation that energy/stuff is conserved because is conserved is no longer true. In fact, energy and all other extensive properties double when the the wave function branches in two, because the probabilities of existence are always 1 for each branch, not |c_i|^2.
@angeldude101
@angeldude101 2 жыл бұрын
@@armagetronfasttrack9808 Ah. Scale. Remember that we're observing the system from _inside_ the wavefunction. Any energy that went to the other branch we would never notice since, relative to before the branch, we would be using a completely different scale. All energy values recorded would be scaled by 1/|c_i|^2 because |c_i|^2 would be the new 1 when viewed from within the superposition.
@taloweryus
@taloweryus 2 жыл бұрын
This was actually the best explanation of "many worlds" I've seen. All of the others sort of forced me to try to imagine a multiverse that continuously splits uncountably many times. Your explanation shows this through the concept of superposition. Maybe I'm strange, but for me that requires less of a leap of faith than the other explanations I've seen. Thank you! I look forward to seeing more videos from you.
@AdrianBoyko
@AdrianBoyko 2 жыл бұрын
Even this quick and dirty video has clarified so much for me. Great work!
@quimlast7180
@quimlast7180 2 жыл бұрын
I think this is a good try but honestly I think quantum mechanics is so reliant on the maths "under the hood" to make sense of things, that videos like this only ever give the semblance that the topic has been understood rather than dispensing actual understanding.
@jaybingham3711
@jaybingham3711 2 жыл бұрын
The math helps with inconsistencies in our speculations and finding proper footholds for further exploration. If it has enabled the popping of the hood, we all are still incapable of making sense of what we're truly looking at. But we've only been staring at it for 100 years. Demands for answers this early in the game is unreasonable.
@ChrisFaa
@ChrisFaa Жыл бұрын
I watch a lot of physics videos. Most of them are very similar. Your explanations usually teach me something new. Always a pleasure.
@lecturesfromleeds614
@lecturesfromleeds614 2 жыл бұрын
It's my belief that the many world's interpretation, is wild arsed speculation like many other philosophies in QM. As Feynman said "Just do the math if it's useful"
@ukaszlampart5316
@ukaszlampart5316 2 жыл бұрын
Great video, had just a little quantum physics at University (computer science) and I always like the idea that observer is not collapsing the wave function but rather being entangled with the measured system, always observing only one branch. It actually removes "non-determinism" in some sense, as evolution of the system is fully described by Schrödinger equation, but this evolution happens in a way we can't observe, the same way a particle cannot observe other versions of itself.
@MatthewDickau
@MatthewDickau 2 жыл бұрын
Great video! There certainly is one sense in which MWI is a simplification of QM, and you describe it well here: the mathematical structure of MWI is much simpler than the standard quantum formalism. However (and this is something that is often glossed over) there is more to a physical theory than its mathematical structure. There is also the conceptual prescription of how that mathematical structure is supposed to correspond to physical reality. Otherwise you just have a bunch of equations and you're doing math, not physics. One of the central problems with standard QM is that is isn't really clear what the wavefunction is supposed to physically represent, and MWI does very little to resolve this problem. I think this is an apt comparison: Standard quantum formalism: vague/unclear division between quantum and classical domains (but at least fairly clear how the classical part is supposed to correspond to observable reality) Many worlds interpretation: much simpler mathematical structure, but now there is no clear prescription for what the equations physically represent Pilot-wave theory: simpler mathematical structure than standard QM although not quite as simple as MWI (guidance equation is not as ad-hoc as the measurement postulates and doesn't conflict with the Schrodinger equation) and very clear prescription for what the equations physically represent Those who take MWI to be the best formulation of QM probably want to say something like "fundamentally, the quantum state is all that exists" and that our observable reality is emergent from the behavior of the quantum state. But without a detailed specification of how that actually works - of what physical reality actually emerges from any given quantum state - the simplicity of MWI is bought at the price of essentially just handwaving away one of the most important parts of the theory, namely, how the equations relate to the real physical world. And if one does add a detailed specification of the emergence, you end up with something comparable to pilot-wave theory in terms of mathematical complexity, but with much greater complexity in terms of its physical ontology (since then it really would contain a multitude of physical universes instead of just one). In fact, what a lot of the most notable MWI proponents say is that the quantum state is all that fundamentally exists, and that its really only the appearance of the physical reality which emerges - not only are there no multitude of physical universes, but there isn't even one, at least not anything like the (3+1)-dimensional space-time universe we perceive. Not only does this rely on some major philosophical assumptions (e.g., functionalism in the philosophy of mind), but it puts the MWI in some ways on the level of a "brain-in-a-vat" scenario - even though it looks like we live and move in a world made of all sorts of matter and energy, our perceptions really just emerge from various features of the quantum state and are not in any sense caused by the material things we think we perceive (just the like the brain-in-a-vat's experiences are caused by electrical impulses fed to it by mad scientists and not by anything in the simulated world it perceives, since that world isn't real). Anyways, there's my rant about the Many Worlds Interpretation. :)
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
This is a great take on it! I agree that MW isn’t a complete description because it doesn’t make us any wiser about what the wavefunction actually is
@ChitChat
@ChitChat 2 жыл бұрын
I've also been leaning more on Many Worlds and getting away from Copenhagen the last few years, but I know nothing about the math so this was wonderful. Nicely done.
@calwerz
@calwerz 2 жыл бұрын
Adam Becker's "What is real?" is a great read about the history of QM including MWI. I almost do not understand how could anyone not take MWI as the default interpretation of QM at the level of our current understanding.
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
That’s been on my reading list for a while- thanks for the suggestion!
@user-vq3lk
@user-vq3lk 2 жыл бұрын
Hurray! I have been waiting for your new video!
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Thank you for being patient with me!
@MrRolnicek
@MrRolnicek 2 жыл бұрын
This was pretty good. The best explanation of Many Worlds still comes from Sean Caroll but this actually filled out some of the gaps that Sean left me with. Nonetheless many worlds is still the ONLY interpretation that ever made sense to me and it made enough sense that I could intuitively and correctly predict the results of common "baffling" quantum experiments. The saying that "if you can't explain it simply, you don't understand it" goes both ways and I think the fact that many worlds simply explains (even to me) what happens means that it's the correct understanding of QM or at least on the right track.
@BlackEyedGhost0
@BlackEyedGhost0 2 жыл бұрын
A very good explanation of both the concepts and (simplified) math behind the many worlds interpretation. You even included the fact that it's possible to reverse the process, which is very cool. I've long agreed that the many worlds interpretation is the most sensible Occam's Razor view of quantum mechanics, so it's nice to see a well-argued and experimentally verified explanation.
@chiepah2
@chiepah2 2 жыл бұрын
I always had a problem with "collapse" and it wasn't until I saw a Science Asylum video that explained that 40%up/60%down doesn't mean that its up 40% of the time, but that 40%up/60%down is the state. We only measure one or the other. I then realized collapse doesn't happen... well, perhaps it would be more accurate to say that what I had thought collapse was, wasn't what was going on. Instead, a "collapse" would be that we become entangled with the particle in the state detected. That when we measure up or down the particle didn't change, we merely can no longer see the rest of the position that the particle is still in. So a society we are not entangled with could prove that the particle is still in a superposition.
@hughobyrne2588
@hughobyrne2588 Жыл бұрын
Thank you for that! There's a story that goes like, Alice says at 11:59, "Right now, Bob's electron is in a superposition", Alice makes a measurement at 12:00, then at 12:01 says "Right now, Bob's electron is spin down". The way I think of it is, at 11:59, I describe it the same way, at 12:00, a measurement is made, and at 12:01 Alice says "Bob's electron is still in a superposition... but, *I*'m only ever going to constructively interfere with that part of the superposition which has Bob's electron as spin down, and I'm only ever going to destructively interfere with that part of the superposition which has spin up. And there's an Alice, which has the same magnitude of coefficients in the waveform, who has just said that exact same thing with the words 'up' and 'down' swapped.".
@lepidoptera9337
@lepidoptera9337 10 ай бұрын
MWI is a simple mistake. You can find it in the second sentence of Everett's thesis. He simply did not understand that quantum mechanics is an ensemble theory. In layman's terms: Everett mistook the forest for the trees and that's why MWI comes up with an infinite number of new worlds.
@HyperFocusMarshmallow
@HyperFocusMarshmallow 2 жыл бұрын
Super interesting topic! I think this is the interpretation people should learn. I also think we should just call it Quantum mechanics. MW is simply the best set of notions to use the famous name for. Your explanation highlights a few of the most important details and does so very well. There is definitely a lot more to say about it. But great video, great explanation!
@peterdesmidt8742
@peterdesmidt8742 2 жыл бұрын
Thank you for the great explanation! Speaking as an unknowledgeable person, why is it only "measurement" that causes the collapse of superposition? Why isn't it just any interaction, including one particle with another?
@petecurry4881
@petecurry4881 Жыл бұрын
I'm currently reading Sean Carroll's "Something Deeply Hidden" and it's a great read but I got totally lost in the part where he talks about adding up the probabilities but it clicked for my watching your video, thank you! Also gained more insight on how it relates to interference, decoherence, and entanglement here too.
@hjs6102
@hjs6102 2 жыл бұрын
This is the best explanation I ever saw to this topic. Great! Thanks a lot.
@GodOfTetris
@GodOfTetris 2 жыл бұрын
Absolutely incredible. Now i totally get it. Math is indeed the best language there is. The explanation couldn't have been more clear & direct. Was a big fan of MWI before, now 100% convinced MWI really is totally unshakable. Kudos.
@TheoWerewolf
@TheoWerewolf 2 жыл бұрын
The detector isn't the measurement device - the SGM is, The electron can't be in both states because the asymmetric field requires the electron to choose a state - an orientation. That state is what is measured at the end. If that wasn't the case, if you put a strip detector - like a sheet of phosphor coated paper, you'd see an interference pattern caused by the two channels interfering, But you don't, you only see ups or downs. As for the measuring device - think of it this way - what's the smallest element of the MD that our object being tested can interact with? In this case, the electron will interact with an atom in a silicon crystal,. It will change that atom's state (and in the process is measured). This releases photons (magnifying the signal) and those interact with more silicon atoms, magnifying the signal over and over until it;s strong enough to register on a much larger system (like a meter).. So what's the difference? Nothing, A measurement is when two quantum objects or fields (or both really) interact in a way that require them to decide their states. When the electron enters the SGM, the electron is influenced by the SGM's magnetic field in a way that requires it to choose a state - and it influences the magnetic field of the SGM which also needs to know the electron's state.
@dimbulb23
@dimbulb23 2 жыл бұрын
Hill Billy high school grad, class of 1963 here. Thank you,! I think I get it, in my uneducated way. Collapse via measurement never made sense to me. It was always about the state of measurement tool and whether are not it affected the state of the particle's state. I am free of the measurement confusion and way too many worlds too !!! Now at 77 I will move on with new-found confidence take a nap to recover. Seriously, I did get it. This must be the 100th Quantum Theory video I've watched. If I get confused in the future, I'll come back to this one. 👍
@GarryBurgess
@GarryBurgess Жыл бұрын
The biggest reason I see for people against this explanation is that they don't think that it feels right. But every time people try to make reality smaller than it is, the end up being wrong in a big way. You have me quite convinced, but I'm too lazy to learn all that math, at least thus far.
@lazzatv
@lazzatv 2 жыл бұрын
I'm not an expert, but I think there is an issue with the final derivation at about 28:00. The |Left>|u> should have 0 probability in the experiment setting as if blue particle is detect on the left it means it interacted with something as explained in the previous setup but that implies that the red particle is in the state |d> not |u>. If one detects the blue particle on the left then interaction and collapse to -|Left>|d> happened. If one detects the blue particle on the right then collapse still happened on one of the possible two states |Right>|u> |Right>|d> but it's impossible to know which one and if the interaction happened without information on the red particle state. I think the problem is already at 25:25 the substitutions |up>=|left>+|right> and |down>=|left>-|right> can't be done because blue and red particle are not indipendent after the interaction. |up>|u>=|right>|u> and |down>|d>=(a*|left>+b*|right>)|d> where a and b are complex with a^2=b^2=1/2 because of the experimental setting which is blue is set in a 50% |up> + 50% |down> state with a specific phase (there's a +, not a - or other imaginary coefficients) that makes it go right if there isn't interaction and there is a certain correlation if blue is |up> it doesn't interact, phase is preserved and it goes right while if it's |down> it interacts with the red particle and the phase information is no longer defined. So at 28:40 you don't have a 50% 50% chance to get |right> and |left> but a 75% to get |right> and 25% to get |left>. All the times you get |left> red will be in |d> for sure, the times you get |right> red state won't predefined.
@jigsound
@jigsound 2 жыл бұрын
Thanks for the intriguing explanation! I'll have to digest it for awhile, for sure. 😁 Would a valid conclusion of the time-irreversibility of the actual physical collapse of the wavefunction be that, if that were the case indeed, there would be retrocausality determining a quantum particle's business between its any two successive interactions/entanglements? - Eero
@nerdatmath
@nerdatmath 2 жыл бұрын
This is wonderful as is! I look forward to your follow up videos!
@rickcarroll
@rickcarroll 2 жыл бұрын
Hi, I just watched your video and it made my many hours of watching Quantum Physics videos all that worth while. It was actually beautiful to have you explain "many worlds" in such an understandable way, it made sense and took away that "billions of other universes" stuff. I will watch it again just for the snazzy artwork. I then started to watch your next one and it was about you and endometriosis, and I nearly fell out of my chair. My eldest daughter has had it all her life and it's now being acknowledge as a major illness.... a bit late for my daughter! Please keep up your excellent videos, I for one will follow them. Many thanks. Rick Carroll (Australia)
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Many thanks Rick! I really appreciate it. I hope your daughter is doing ok now?
@_serkancetinkaya
@_serkancetinkaya 2 жыл бұрын
You look better, simply happy to see you are doing well. Great video as always, thanks for inspiring so many of us in these trying times.
@das_it_mane
@das_it_mane 2 жыл бұрын
Glad to see you back on KZbin! Loved every minute of this video and will def be watching again to make sure I understood
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Thank you so much, that’s too kind!
@potawatomi100
@potawatomi100 2 жыл бұрын
I loved your video: informative, entertaining, educational and you made it interesting. Also, you are a natural - excellent narration. …and, please don’t mind the overt comment, you are very pretty.
@timohearn4454
@timohearn4454 2 жыл бұрын
First video of yours I have watched. Watched because I was possibly going to subscribe. 1:09 in and im subscribing. Your first words on many worlds sold me
@davidwilkie9551
@davidwilkie9551 2 жыл бұрын
Neat and fairly brief summary of a Mathematical approach to QM. An early orientation beginning to the study of the Big Picture. Thinking in pictures is wonderful until you need the thousands of words that "fit them out", so it's good to be able to say the 0-1-2-ness Singularity-point Superspin-spiral Superposition that is generated by e-Pi-i sync-duration resonances into a Polar-Cartesian graphic image.., which, when you add the 137 vibrational timing node-antinode wave-packaging relative-timing Reciproction-recirculation Primes and Cofactors, continuous phase-locked frequencies.., to a standing wave Spinfoam-pulse in bubble-mode coordination that ranges between Hydrogen and Neutron orbital-orbits.., you can identify the first Rule of QM-TIME Completeness cause-effect that corresponds to the Multiverse Conception of real-time Periodic Table of sync-duration bubble-modes, and the Standard Model of phase-locked coherence-cohesion holographic information.., sort of like the "adjusting a Telephoto Lens" sequence of tuning into fractal Focal Objectives, in perspectives of a ridiculously complex integration circuit oscillation architecture, and a first step in creating a fractal holographic image in n-D AdS/CFT i-reflection containment. (Simple steps, not an easy work of imagination) In picture-plane containment, the Measurement Problems are wave-particle spin-spiral condensation-coordination, as if cutting a cross-sectional slice with a Stroboscopic, AM-FM i-reflection sync-duration device, a conic-cyclonic Hydrogen formatting resonce with e-Pi orbital-orbits.. WYSIWYG Singularity Apature Camera, focusing in Correspondence in landscaped positioning through holographic Spinfoam bubble-modes. Looking through Binoculars at Objects from the foreground to Infinity, gives you the idea of tuning a focus of frequency aligned wavelengths, either light or sound on the "trancendence manifest" holographic connection of AM-FM time-timing Reciproction-recirculation sync-duration. Thus, the wave-particle uncertainty Measurement Problem of relative-timing logarithmic ratio-rates approximation, in real-time re-evolution condensation. (That's all that happens) When we make a Lab measure, the image is frozen phase-locked time, reference-framing at zero-infinity Kelvin flat-space ground-state, an abstraction removed from Actuality and shape shifted into a Theoretical supposition about what we think we should believe we're seeing. (There's your problem, we have to "catch them alive" in their natural environment without disturbing normal behaviour) The empirical evidence of quantization in which "up" state = right and left, same either or depending on the reference-framing orientation of 0-1-2-ness GD&P line-of-sight superposition spin-spiral density-intensity probability @.dt Fluxion-Integral Polar-Cartesian Origin-zero intersection of omnidirectional-dimensional Singularity Apature cause-effect. The Observer's POV is simultaneously 1-0-infinity Entanglement in functional e-Pi-i Conception, so the picture-plane is a cross-sectional orthogonal-normal logarithmic condensation image, in Perspective depending on AM-FM focus. This is why 0-1->2-ness, unity in monoculture and "sees" Supersymmetric Equations of QM-TIME Quiescenct Equivalence Principle, all-ways all-at-once shape-shifting here-now-forever, ONE-INFINITY Singularity Objective, Spacetime NOW. The eternal event, looking at a situation "causes" simultaneous resonance bonding chemistry in your brain, a Holographic objective in itself embedded in Eternity-now Actuality Interval, so an abstract concept is partly frozen, mostly synchronised within Universal Conception. Sounds impressive, but that's ordinary existence. Up-Down, Left-Right number line representation of orientation are fractal conic-cyclonic omnidirectional-dimensional Inflation-Gravitation e spin frequency-exponent cause-effect at Pi-bifurcation i-reflection symmetrical Interference condensation modulation, in the containment of 2-ness quanta probability plane. No thing is in and of itself perfectly discrete in a separate universe, merely a continuously created difference in the "flow" of simultaneous sum-of-all-histories here-now-forever Event, so the holistic Measurement Problem is the Observable illusion of separation out of tune, out of time-timing in the Musical Mathematical Instrumentation sense. Ie it's bad timing, out of real-time and sequence spacing of lidar or radar type resonance devices, without parallax or AM-FM alignment. Near enough for a holiday production video.. Thank you.
@DavidLindes
@DavidLindes 2 жыл бұрын
Well, I won't claim that I understand all of this, and yet... you've given a more accessible explanation for some of these things than I can recall having yet experienced, so... thank you for that, and I hope you continue! Subscribed based on just this, with several others now queued up to watch next!
@francescocannistra7915
@francescocannistra7915 2 жыл бұрын
Good video but I don't agree with the underlying claim that the MWI is supposed to solve the issues of the measurement problem. The MWI just moves the measurement problem to the wave function's branching, which suffers almost exactly the same issues. So I see the MWI as equivalent to the Copenaghen Interpretation (well, the version of the CI explaining measurement with wave function collapse) with just a change of terminology (branching instead of collapse) and a bunch of additional (and unnecessary) metaphysics. Furthermore, it's not clear at all how the MWI would comply with special relativity.
@Vld45
@Vld45 2 жыл бұрын
"Branching" is a metaphor.
@timjohnson3913
@timjohnson3913 2 жыл бұрын
Is it possible to explain in an accessible way how conservation of energy/mass works in MWI? I understand that there isn’t an increase in energy in each individual branch, but since there will be more offspring branches of our branch in the future, would not the sum total of energy/mass in those offspring branches contain more energy/mass than sum total of energy/mass in their parent branches’ taken at any point in the past?
@michaelsommers2356
@michaelsommers2356 2 жыл бұрын
Since the discovery of dark energy, it has appeared that the universe has a net energy of zero, so conservation is not a problem when making duplicates. That is probably not the correct of full answer, but it satisfies me on this question.
@logicomix7976
@logicomix7976 2 жыл бұрын
I would like to know what you think about Relational quantum mechanics (RQM) in terms of your simplicity metric as an epistemic measure for the value of interpretations.
@farissaadat4437
@farissaadat4437 2 жыл бұрын
I was captivated throughout this beautiful video explaining a beautiful topic! My main confusion is with the particle that measures and then goes missing: when you replace the particle with yourself a ‘collapse’ is apparent however we don’t go missing, in fact it feels impossible to lose track of oneself! Also, I find it strange that losing the measuring particle (essentially losing information) corresponds to a measurement (something that feels like gaining information).
@Webfra14
@Webfra14 2 жыл бұрын
The red particle itself may gone missing, but the blue particle also carries the information, that it got entangled. Therefore, the information makes it into the detector and from there to the observer's brain. Like a footprint in the sand... 🙂
@b43xoit
@b43xoit 2 жыл бұрын
I could well be wrong (this is not my field), but I feel that under the Copenhagen interpretation, a measurement would not necessarily appear to be gaining information. It gains you classical information, but at the cost of quantum information. And maybe the amount it loses is more than it gains.
@sureshapte7674
@sureshapte7674 2 жыл бұрын
this is really a fantastic point of view about measurement, collapse,interference, entanglement etc. beautiful accompanying mathematical expositions. thanks.
@axelschafer2934
@axelschafer2934 Жыл бұрын
Great video, thank you! Never had it explained to me in this way 🙂 However, I have a logical problem: Shouldn't there be an interaction between the electron flying through the "1-particle-detector" and the 2nd electron "doing the measurement"? Due to the conservation of angular momentum, the |v> state of the "detected" electron (v and ^ represent arrows here) should go up to |^> when the "detecting" electron goes from |u> to |d>. I mean, there is no measurement without interaction, or is there? In that case we would have a resulting state |^>|u> + |^>|d> = |^> ( |u> + |d> ), and we still couldn't determine whether the electron took the up or the down path, and the uncertainty would have been transfered to the "detecting" electron, which is now in the superposition |u> + |d>. What am I missing here?
@srgtcolon1493
@srgtcolon1493 11 ай бұрын
I subjectively dislike Many Worlds but your "I don't know why light slows down in water." (loved it) made me check this one. Well, no change ... :) I much prefer an interpretation of [collapse + "as of now, we haven't got the faintest idea how does it happen"] over [no collapse + "only there are as many, inaccessible, Universes as possible measurement outcomes"]. I can't help the feeling that Many Worlds is a mathematically appealing linguistic transform that sweeps the challenge of the collapse under a different rug. I feel similar verbal magic happens at 24:00, where you let the electron "go off, wherever it wants and forget about it". This feels so in-physical that this stops being a useful mental experiment that allows to draw conclusions about our real universe from. We just said that a measurement does not require a conscious observer, so where that electron goes off to is it "gets measured", which collapses (using the collapse version language) the waveform of it's entangled pair. (Also, I can't ** forget about it! says the no-hiding theorem. :) )
@david_porthouse
@david_porthouse 2 жыл бұрын
The Schroedinger equation has a nonlocal degree of freedom which allows an opening for behaviour which collapses the wave function. The SE itself describes an oscillation in the way of travelling faster than light which exchanges spacelike and timelike intervals. Orthogonal to this is tachyonic Brownian motion in the way that exchanges energy and momentum. At this point, since the two behaviours are orthogonal our entity is still a superfluid, but when we bring in the nonlinear interaction with the electromagnetic field then we have the possibility of collapse of the wave function in the classical sense. The MWI is just a reification of probability theory. Adopt it for the time being if you find it useful in constructing a model of the collapse of the wave function, but be ready to drop it. Taken literally, there is a world where I win the National Lottery every week (i.e. a large sum of money) but efforts to locate this world have proved to be fruitless. I would suggest that is because it doesn't exist.
@ericstromquist9458
@ericstromquist9458 2 жыл бұрын
What a great explanation! I always thought of splitting as the irreversible loss of information into the environment, but your explanation shows that the absence of access to a single particle in an entangled superposition can make your part of the system behave as if a measurement has occurred. I love the way you take that to show that this produces the appearance of non-unitary collapse, with the further conclusion that real non-unitary collapse is unnecessary for producing the appearance of collapse. Your’s is a very lucid explanation of the Everett interpretation.
@LookingGlassUniverse
@LookingGlassUniverse 2 жыл бұрын
Oh, thank you so much for the lovely comment! This example really was what made it click for me, but I can’t take credit for it. I think there was a similar agreement made in either of the books I put in the description. They’re both wonderful, if you’re interested in diving into it
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