Fauna very casually says the nerdiest thing ever
HTML-код
- Опубликовано: 6 окт 2024
- She only knows it because it's Heisenberg's
================================
Clipped from: www.youtube.co...
Subscribe to Ceres Fauna: / @ceresfauna
I am SlackFunday! Although my channel is mainly considered as a Fauna clipping channel, I give myself the freedom of making clips of other Vtubers every once in a while. You can find me on the Faunlings fan Discord. If you have any idea for editing, moments to clip, feel free to contact me there or ask me in the comments.
Profile Picture art : Misaネキ @Misamisatotomi / misamisatotomi
A goth, a nerd, a gamer, a goofball, a fashionista. Fauna really is the complete package!
what a deal!!!
Honestly, she is my second favorite of Myth, maybe of EN. She really can hit nearly all the boxes i find significant.
@@jasonkeith2832 but she is Council
She's good at what she does
Forgot cute!
Gura's "big brain" moment and Fauna's big brain moment are two vastly different things.
gura: where is 3-4?
fauna: well you could find the exact location of 3 and 4 but you wouldn't be able to tell their exact velocity, or you could find their exact velocity but then you couldn't tell their exact location...
gura: did you say 2x2?
fauna: ?
Ah yes, Heisenberg's Uncertainty Principle, the question of whether you let him cook or not
Someone cooked here
does he know?
I hate that this makes sense in today's context
Like 2 years ago that should not make sense
@@ClorxxKage The same way the phrase "among us" or the word "impostor" had completely different connotations just a couple of years ago. The internet is the final evolution of society, and eventually EVERYTHING will fall victim to it.
And remember one of the major tenents of the principle is that HE IS THE ONE, WHO KNOCKS!
I love when she says things that I can only understand by watching a two hour RUclips video talking about the basic principles of that topic
What she is talking about is actually closer to the concept of Laplace's Demon (en.wikipedia.org/wiki/Laplace%27s_demon - funny fact that La+ is probably somewhat inspired by this) and has little to do with Heisenberg's uncertainty principle which just states that you can only measure the impulse and position of a particle up to a certain degree (delta p * delta x >= h_bar/2 with h_bar being the reduced Planck's constant)
Still impressive that Fauna seems to have a decently broad grasp on pop science overall though
she doesn't understand it either don't worry
"Heisenberg's Uncertainty Principle states that the more precisely the position of a particle is known, the less precisely its momentum can be known, and vice versa. In other words, the act of measuring one property of a particle necessarily disturbs the other property. This principle is a fundamental aspect of quantum mechanics and has been experimentally verified."
@@themage1115 it actually has a lot to do with the uncertainty principle, because with the knowledge that we can't know both the position and velocity of a particle simultaneously Laplace's demon can't really exist since it's impossible to predict the future state of particles, or that's what i remember from back when read a little about quantum physics lol.
@@joaogarcia6170 The initial problem statement for Laplace's demon is kind of ignoring/circumventing the uncertainty principle - assuming you know everything about all fundamental forces acting on all particles and their position to infinite precision. The thing is that even under these circumstances it would be impossible to accurately predict the future due to the fundamental principles of thermodynamics (among others) but this is kind of outside the scope of a single youtube comment.
I hope I got all of this down accurately since it has been a while since I have taken quantum mechanics & thermodynamics at Uni but the gist of it should be correct.
Another reason to love Fauna, she just drops stuff like this in the middle of casually playing a game. Galaxy brain kirin.
The way she talks makes me think she was either a teacher or worked with children in some way. She really seems inteligent and well spoken but also very gentle.
@@weebshit2391
A little birdy told me that a long time ago fauna was an asmr artist and that's why she has that chill vibe to her
@@Justakatto I'm going to be honest with you this is the first time in my life I've have seen a phrase "ASMR artist". Also time to visit the forbidden knowledge sites I guess.
@@weebshit2391Actually I’ve seen lots of people just coining the phrase as ASMRtist. Btw, you don’t need any forbidden knowledge site. It’s right here in RUclips.
Holy shit, mother nature's surprisingly knowledgeable about quantum physics...
Uh, of course? The entire point of science is to understand the natural world. It logically follows that mother nature would already know _all of it._
Physics is naught but the study of principles that rule the nature of the world
Shes an Uchikoshi fan. If she didnt know random pseudoscience factoids shed be a fake.
@@thunderhogTH This one isn't pseudoscience tho.
@@thunderhogTH This one is real my guy. Everyone who took high school physics has been taught the heisenberg's uncertainty principle.
Heisenberg's uncertainty principle? I've heard that daily during my freshman and second-year phys classes, but I did not expect to hear it from Fauna
I love her more than before
she talked about attending an astronomy class in college, probably a STEM major
She's basically describing "Laplace's Demon".
Which, funnily enough, we have the kusogaki version of just a few holo branches over
My thoughts exactly, lmao
She should have gone to HoloJP to see Laplace's Demon.
Well Laplace's demon cant work because of the uncertainty principle in a way
Heisenberg uncertainty principle- it is not possible to calculate the position and the momentum of an electron at the same time.
Never thought I would use this in my life
Is it because the electron moves too fast? Idk am dumb
@@goji-0045 A year late, but basically the very act of measuring something changes it. Like, for you to see an apple in the first place, light has to have hit the apple skin and bounced back.
On the quantum level, light hitting the particle sends that particle flying to who knows where. You can lower the energy level of your photons, thus not disturbing the particle as much, allowing you to figure out how fast the particle is going, but then you won't have enough information to know where it is.
The second I heard “the position” I immediately thought “Laplace Demon” so it’s not like she’s too much for her audience
I can only imagine Sana and Fauna having a heated debate about complex physics while Kronii's last braincell melts
I love our nerdy kirin with my whole heart, and it makes me so happy that I can learn about stuff I didn't know while also watching her be adorable! Although this one I knew already xP
"lmao she has an education what a nerd"
Fr, it's a paradoxical stain on humanity the concept of anti-intellectualism even still exists, we literally live through technology abd yet still maje fun of ppl for understanding things.
Man, I love this nerd so much.
after finding out Luna was a software developer, nothing in hololive surprises me anymore
and she owns a Harley-Davidson
People went places. Wouldn't believe Luna telling Marine she's among the smartest in Hololive in a babyvoice if it wasn't for Subaru asking her for tech help since she knows programming language.
Worst, Luna worked with COBOL, which is basically an eldritch language by current standards, so she probably worked with banking.
@@pedrofelipefreitas2666
One step above assembly, and banks refuse to stop using it!
@@bassbusterx she WHAT
The man gave her a very clear death threat, and she was just like "ah yes, Heisenberg and such."
The perfect diction of each consonant in “uncertainty” ices the cake.
The kind of throwaway remark that could decide one’s choice of oshi.
Fauna really knows about a lot of random things, especially science facts. This combined with her elegant speech and vocabulary make her a nerd of the highest caliber.
Why is nerdy fauna kinda hot?
Because of science :))
Because sapiosexuality
@@dumpsockpuppet5619 tbh, I think it's more that I already had a mental image of her as an attractive girl, but then she turns out to be attractive + smart so I guess her showing an impressive new side to her is hot.
@@JohnDoe-pc3uk fair enough, i mean, she already is a THICC, shy, goth, weeb, soft Ara-ara dommy mommy. Memequeen, toxic gamer cow-tree deer-dragon, adding nerdiness is just the cherry on top.
I get being lonely, it sucks but this ain't it.
Laplace’s demon
If I don't know Fauna's velocity she might have a chance of being nearby.
That first part... is a principle... known as La+'s demon of space...
This is the background for La+ Darknesss (Laplace's Demon), smashed together with the Heisenberg uncertainty.
Glad to know Fauna also enjoys H's uncertainty principle, knowing our limits is always a good step towards humble.
Considering everyone slept on Fauna for the first half a year or so of her debut. She is coming out as probably the most well rounded and amazing talents. Cute, super funny, super smart and multitalented.
I'd like to sleep on Fauna 😩
Fauna is actually a genius and has a PhD in Astrophysics
Fauna is smart, not a genius in my opinion
Damn! I wonder how much she knows about physics.
La+: "I feel summoned."
Damn, did not know that Fauna is familiar with Laplace's demon.
Well yeah, it's her kouhai after all.
I just now realized this is what La+ lore is inspired by
I had a friend in high school physics who brought up a similar theory. That if we could predict the motion of all particles, then not only does that mean we could predict the future but he also argued that it negates the idea of free will. I loved that class
Free will is a lie.
Hearing Fauna bring up the Heisenberg Uncertainty Principle gets me hot and bothered frfr😳💚
Would love to see ame and fauna nerd out over science
People just now learning that she's actually giga brain and knows a great deal about science is fun to watch.
My love and respect for Fauna went up quite a lot after this 💚
Me: Ok. I searched it up, and this pertains to quantum mechanics.
Saplings: What's it about?
Me: The uncertainty in the position momentum of a particle. Sounds common, eh?
Meanwhile...
Heisenberg (House Heisenberg, Resi VIII Village): Your funeral.
Ethan Winters: _screaming as he falls into a hole_
So you're saying this scientist refutes Laplace's Demon? Then how come that demon is leading HoloX?
She knows this from the 2019 Jerma stream where he attended a university Intro to Quantum Mechanics lecture series for undergraduate physics students.
0:32 Sana flashbacks. She taught Fauna well
It's that guy from Breaking Bad right?
You're goddamn right
The Heisenberg Uncertainty Principle is just humans being told that there is a physical limit to how much you can know about a thing. Truly one of the principles of all time.
But is there a limit to how much we can know about the limit to how much we can know about?
@@isaakvandaalen3899 most likely
You say this as if it doesn't have important implications for how we understand the nature of the universe. What an odd critique
@@Backcornerboys personally, the reason I'm inclined to agree with the OP is because when I heard the principle my mind was pretty much like "well duh".
How can every single thing she does only ever make her more attractive?
Does me understanding all of that without having gone to uni make me a nerd or everybody else just uneducated? Yeah no it´s definitely the former🤓
Thank goodness I watched the DC animated movie Crisis on Two Earths…
Since I had to look it up myself and it's not in the comments, here's a quick rundown regarding Heisenberg's Uncertainty Principle for those who don't know.
The Uncertainty Principle is a quantum mechanical principle proposed in 1927 by the German scientist Werner Heisenberg. In short, the principle states that there is a fundamental limit to the accuracy of which certain physical values in a pair, called complementary variables, of a particle can be predicted based on their initial conditions, which is the measurement of a value in any point in time deemed the "starting time". In an example similar to Fauna's, such a pair is the position and speed of a particle. Essentially, the more accurately you find a particle's position, the less accurately you can find its velocity, and vice versa.
In the most dumbed-down, Hololive-fan manner possible, the Uncertainty Principle is like watching Kronii. Either, you watch her ribbon and don't know what's happening in the game, or you watch the game and don't get to see the ribbon physics. If you try to watch both, you'll see less of either. The same idea can be applied to the measuring of the position and speed of a particle by means of quantum mechanics and is the reason why it's theoretically impossible to use the measurements of the speed and position of every particle in existence to predict the future. It's the same reason why you can't use the direction of motion of Kronii's ribbon and her current state in the game to predict the next move she'll make and it's outcome, because the more you know about one, the less you'll know about another.
This has to be the wildest example I've ever used to explain a physics concept.
Source: Wikipedia. Speaking of, here's the link if you'd like to read more.
en.wikipedia.org/wiki/Uncertainty_principle
Hope this helps someone, because it was fun for me. Learned something new.
she's becoming more and more canonically 🤓
Hell yeah brother Laplace's demon
gonna need a Heisenberg Compensator.
My chemistry classes have finally come to some use.
YEAH, SCIENCE!
I imagine when she said position, she was prepared for the nerd emoji.
Heisenberg ?! RUN JESSE RUN!!!!
You god damn right
This is the moment Fauna became Heisenberg
maybe i'm being *that guy*, but this is like next door to knowing what schrodinger's cat is, a concept which every visual novel will make certain you understand
Tracking every particle and using their trajectories to predict the future... that's exactly how the Monado works.
Fauna knows about laplus demon. Neat
Awww. Really thought she was gonna talk about Laplus during this clip.
Shawty thinks she's Walter White
Say my name!
Heisenberg!
You're damn right!
Truer words have never been spoken.
My head canon is that at full power, La+ would be omniscient - making her the antithesis to Bae, who embodies unpredictable random chance.
One wears shackles, the other has a key on her...
demon of laplace: *theoretically could exist*
Heisenberg: I'm about to end his career
Fucking love Fauna. Simple as.
Normalize cute girls talking big brain physics. 💚
And someone in chat mentioned Laplace's Demon. Happy nerd noises.
Idk why, but my favorite chat reactions there are the people who only said:
what
Laplus' Demon slain by local tree.
I did a project on this, I did not expect to hear that from fauna tho
Nerdy fauna best fauna
0:29 the guy just spins and no one comments about it
Holy fuck these games are so busted lol
thats actually also laplus's namesake
I’m not one to shamelessly simp but… That’s a certified doki doki moment.
Big brain fauna
0:09 I'm gonna Green Beans
"Do not Green Beans"
"I'm gonna Green Beans "
The universe is deterministic
she spittin' fr.
Spoken like a true Zero Escape fan
Fauna once again proving she's _the mother nature_
Some people commented "Laplace Demon". Tbh, I thought the Heisenberg Uncertainty Principles would be more popular
yo yo yo mrs. Fauna
I was wondering if anyone e was going to make a Laplace's demon = La-Plus Darkness reference here in the comments. I was not disappointed.
What's next Fauna, are you gonna talk about Gödel's theorems and the possibility that our math is fundamentally inconsistent, and can lead to contradictions, because we can't prove it's consistency using math itself ?
Wait, but it's a little misleading to present Gödel's work that way! Gödel's whole thing (well, he probably had other things too) was proving consistency (or lack thereof); he wrote an entire book that was one big proof of the consistency of the axioms of set theory (in particular Zermelo & Fraenkel's axioms, which are one way of formalizing the most basic precepts that give rise to "numbers," and operations upon them), with the continuum hypothesis (the idea that there is no infinity both [larger than countable infinity (i.e. rational numbers)] and [smaller than the first uncountable infinity (i.e. real numbers)]) and the axiom of choice (which says that you can make new sets in a particular way out of elements of other sets)--the mathematical conclusion of which is that none of them contradict one-another. It's an interesting--albeit dense--read; once you get to where it all comes together, you can see what an incredible style of proof it is, unlike anything one might write in a standard undergrad math course.
And, tbf, Gödel didn't get all the way to proving full independence himself--Cohen later proved that these three ideas are all fully independent. So with Cohen's result, you can take any of them to be true and also any other to be false, and you'll still not be self-contradictory.
Now, Gödel's incompleteness theorems does state that no collection of axioms that allow arithmetic--which is most collections of axioms that interest mathematicians--can prove its own consistency. That isn't to say that the axioms are inconsistent! And it doesn't give any hint to anything like a *probability* that the axioms are or aren't consistent, which is where our minds often go when presented with, "there's a possibility that something bad might happen." We think, "Oh no! What are the odds?" but in this case ascribing odds is simultaneously maybe impossible and also kind of meaningless, because axioms either are or aren't consistent, or their consistency is a paradox that is neither true nor false. Anyway, I'm pretty sure no one has yet discovered an inconsistency arising within any of the various collections of axioms that operate behind the scenes of modern mathematics, because it'd be pretty big news. Gödel's (second) incompleteness theorem simply says that no subset of math is ever enough to prove itself on its own (all sorts of axiomatic systems are provably consistent with the additional of an extra, unprovenly consistent, axiom), and that's more beautiful than scary, I think!
I just watched a video about Godel by Vsauce a few hours ago. What are the chances of running into a fellow nerd learning the exact same topic? Also my brain hurt trying to keep up with the video’s info. Math principles like Godel and Heisenberg should be explained using story examples.
@@EnvyScylla Gödel proved that a system is either consistent or complete, but it's not possible to prove either for our math system, at least not yet, so when i say there's a chance it's not probabilistic, what i meant was "we can't prove that mathematics is consistent, therefore it could be that it is not consistent" which is true.
And of course i exaggerated it for comedic purposes in the comment lol it's not all doom and gloom for math.
That's like common knowledge
Nerd Fauna is gold
She's just saying what we're all thinking 😔
sounds like something you'd hear from vsauce Michael here
“Mommy-Fau-Pog-Truly-Wrinkle-Lukewarm-Brain-Pog”
Yeah, I remember in highschool, I used to be a hardcore believer in determinism. Then in college, the chemistry teacher explained the duality of electrons, and my worldview had completely shattered... lmao.
Yeah, we already knew she was that smart, but still!
"Fauna, what the hell are you talking about?"
Damn straight
"In quantum mechanics, the uncertainty principle (also known as Heisenberg's uncertainty principle) is any of a variety of mathematical inequalities asserting a fundamental limit to the accuracy with which the values for certain pairs of physical quantities of a particle, such as position, x, and momentum, p, can be predicted from initial conditions.
Such variable pairs are known as complementary variables or canonically conjugate variables; and, depending on interpretation, the uncertainty principle limits to what extent such conjugate properties maintain their approximate meaning, as the mathematical framework of quantum physics does not support the notion of simultaneously well-defined conjugate properties expressed by a single value. The uncertainty principle implies that it is in general not possible to predict the value of a quantity with arbitrary certainty, even if all initial conditions are specified.
Introduced first in 1927 by the German physicist Werner Heisenberg, the uncertainty principle states that the more precisely the position of some particle is determined, the less precisely its momentum can be predicted from initial conditions, and vice versa. In the published 1927 paper, Heisenberg originally concluded that the uncertainty principle was ΔpΔq ≈ h using the full Planck constant. The formal inequality relating the standard deviation of position σx and the standard deviation of momentum σp was derived by Earle Hesse Kennard later that year and by Hermann Weyl in 1928:
where ħ is the reduced Planck constant, h/(2π).
Historically, the uncertainty principle has been confused with a related effect in physics, called the observer effect, which notes that measurements of certain systems cannot be made without affecting the system, that is, without changing something in a system. Heisenberg utilized such an observer effect at the quantum level (see below) as a physical "explanation" of quantum uncertainty. It has since become clearer, however, that the uncertainty principle is inherent in the properties of all wave-like systems, and that it arises in quantum mechanics simply due to the matter wave nature of all quantum objects. Thus, the uncertainty principle actually states a fundamental property of quantum systems and is not a statement about the observational success of current technology. Indeed the uncertainty principle has its roots in how we apply calculus to write the basic equations of mechanics. It must be emphasized that measurement does not mean only a process in which a physicist-observer takes part, but rather any interaction between classical and quantum objects regardless of any observer.
Since the uncertainty principle is such a basic result in quantum mechanics, typical experiments in quantum mechanics routinely observe aspects of it. Certain experiments, however, may deliberately test a particular form of the uncertainty principle as part of their main research program. These include, for example, tests of number-phase uncertainty relations in superconducting or quantum optics systems. Applications dependent on the uncertainty principle for their operation include extremely low-noise technology such as that required in gravitational wave interferometers."
Source: Wikipedia
After my refresher from WillNE’s Tedx talk, I can understand what Fauna means
*Fauna says something nerdy*
Me: *nods head in agreement*
Everyone else: WHAT?!?!?!
Man I Love Fauna
This is why Fauna is the greatest
I, somehow, understood everything. Idk why, but i did.
"Yeah, science!"
Did I just watch too much Breaking Bad memes or I had just heard Heisenberg Uncertainty Principle correctly.
Really cute
Basically, it’s just you cant measure the velocity and position of small particle like atom or photon or electron at the same time because observer interference.
If u measure the velocity, the observer will change the particle’s position. Or if u measure its position the observer will change its velocity.
Not velocity. Momentum right?