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damnit

The uncertainty principle is mainly about being able to know the location or the velocity of a particle, but never both at the same time. Also it includes not being able to know the spin of more than one axis per particle. Neither really play into this, as we simply need to know the location at a given time.

This is probably made of win

I'm still working on fractions and long division.

They are teh same pics from teh 1 and teh 2.... keep up now... :P

It's not peek-a-boo, though... you can't just say that cognition is the determining factor. The determining factor is ___________. We may not know what it is, but it certainly isn't "us knowing the path". Actually, I'll even give you that it could merely be a cognitive faculty. They haven't isolated the cognitive faculty and shown that this is the cause. The results change. There is a cause for this. The cause is unkown. That seems to be all that the evidence points to.

LOL I WAS THINKING THAT MARISAMA

cool

!!!

fix the, "the the" line and put iamthenra is teh sex for nothing since I already 5'd it.

Where's the the?

Fix typos for 5 and my head a splode.

So much to read.

Why do you mock me so with your butterscotch pudding?

"Imagining the Tenth Dimension" is a good read if you are into this kinda stuff. You also have to be open minded.

YTMND Makes learning fun! I look forward to your next episode, although it makes me feel like this is newgrounds. Minus all the hentai links.

D-, Black slides? See me after class.

4 for educating us. Yes, Quantum Physics is cool. I couldn't even follow most of that, but it does sound just about right from what I've learned about it in the past.

â—„I know you don't really come to a conclusion in the piece, but what IS your conclusion? That the particles can travel through time? That they are sentient? I'm curious to know.â–º

If the particle is in an eigenstate of position then its momentum is completely unknown. An eigenstate of momentum, on the other hand, has the form of a plane wave. It can be shown that the wavelength is equal to h/p, where h is Planck's constant and p is the momentum of the eigenstate. If the particle is in an eigenstate of momentum then its position is completely blurred out. Usually, a system will not be in an eigenstate of whatever observable we are interested in. However, if we measure the observable, the wavefunction will immediately become an eigenstate of that observable. This process is known as wavefunction collapse. If we know the wavefunction at the instant before the measurement, we will be able to compute the probability of collapsing into each of the possible eigenstates. For example, the free particle in our previous example will usually have a wavefunction that is a wave packet centered around some mean position x0, neither an eigenstate of position nor of momentum. When we measure the p

Some wave functions produce probability distributions that are constant in time. Many systems that are treated dynamically in classical mechanics are described by such "static" wave functions. For example, a single electron in an unexcited atom is pictured classically as a particle moving in a circular trajectory around the atomic nucleus, whereas in quantum mechanics it is described by a static, spherically symmetric wavefunction surrounding the nucleus.

In the mathematically rigorous formulation of quantum mechanics, developed by Paul Dirac and John von Neumann, the possible states of a quantum mechanical system are represented by unit vectors (called "state vectors") residing in a complex separable Hilbert space (variously called the "state space" or the "associated Hilbert space" of the system) well defined upto a complex number of norm 1 (the phase factor). In other words, the possible states are points in the projectivization of a Hilbert space. The exact nature of this Hilbert space is dependent on the system; for example, the state space for position and momentum states is the space of square-integrable functions, while the state space for the spin of a single proton is just the product of two complex planes. Each observable is represented by a densely defined Hermitian (or self-adjoint) linear operator acting on the state space. Each eigenstate of an observable corresponds to an eigenvector of the operator, and the associated eigenvalue corresponds t

I learn more on YTMND than I did at school. Well done, Tex! :-) jorrar, I'd like to read your comments but I'm tired so I'll read them later. I don't know if I'll understand them but I'll try.

Quantum Physics are the way to go man, and quantum physics isnt even new.. Researchers were studying it back in the 60s.. And NOW people are starting to think that maybe theyre right.. Anyways 5'd and FAV for explaining some cool stuff!

4 thumbs up :)

If you can convince me that if you fire one photon, it travels BOTH paths for sure, but if you use the detector, it only travels one, then you win. But what you SEEM to be saying is that you put a steady beam without observation, and half go each way. And then, you observe, and half go each way. I dont see how your observations changes this!!! Probability != positiion.

FTL. Quantum Physics has done nothing for the science community. We need another great scientist to throw these quantum people in the garbage.

I've studied quantum physics myself and still think it's quite mind boggling. For the rest of everyone else: instead of calling the author a liar, how about you do some research yourself. This stuff is obviously too much for the simple minds of most YTMNDers. But then again, most of them are about 13 years old. Look up the information yourselves...read this to start off: http://www.fortunecity.com/emachines/e11/86/qphil.html

Your mom is Quantum Physics

HE'S A WITCH!! BURN HIM!!!!!!!!!11!1

It's teh funneh. The more of these I post, the more ignorant the comments get.

make sure you make 4th too. and 5th. and 6th.

Existence is nothing more than a sea of mathematical quantum probabilities. We exist by chance.

Physics rules, we need more of these sites.

The thing is that this isn't shocking. Most people think of photons as infinitessimal THINGS being flung about through space, like microscoping tennis balls or atomic nuclei. They are not. Photons are "packets" with no mass; they're not physical things. They're a way of visualizing a subatomic force. We think of them as tiny dots being shot out of a laser and find is mind-boggling that they could be in two places at once, but the reality of the situation is they're NOT tennis balls, they don't have any mass

of them that way. Likewise, it helps us to think of photons as particles moving in predictable patterns, but this is not what they actually are. On another note, the idea that OBSERVING a photon's location forces it to act like a particle is not accurately represented. It is the MEASUREMENT of their location which causes it, because in measuring a photon its potential path has changed. If a photon has a series of infinite paths between the laser and the paper, it is considered to be in all of those

Go away.

@GDroxor (from Wikipedia, which is the first source I found): "The photon is massless,[6] has no electric charge[7] and does not decay spontaneously in empty space." http://en.wikipedia.org/wiki/Photons

It's really sad when the ignorance of people gets in the way of actual scientific data. How many of these any-sayers have actually been in a quantum physics class? How many of them would argue the same arguments with the professor? The answer is ZERO. Because they would be wrong. Just as they are wrong now. ----- If anything, the whiny nay-sayers are just looking to refute something using their own perception of logic...morons.

@thegoat: You don't argue with professors because in lower-level physics courses (not Masters Thesis stuff, just the basic prereqs) you'd rather pass that pick a fight. I've had too many foolish professors in too many subjects to take their word as golden. I'm not trying to refute any experiments here. I know full well what the double-slit experiment is and says. I'm simply trying to put it in a different perspective, void of all the stoner psychological implications. We're NOT talking about one thing

being in two places at once because it's not a conventional "THING". And we're not talking about the very act of observing the photon, we're talking about how "observation" in the world of quantum particles means "measurement", and placing any object in the potential path of a photon is going to alter its behaviour. Heisenberg isn't a principle only for subatomic particles: If you go into the wild and study primitive tribes, don't you think that the fact that you are there is going to change the way they

boring

I don't understand this 'science'.... it must be... what do those science folk call it... CIRCULAR REASONING ARRRGGHHH

Toxikator does a much better job explaining the experiment, in my opinion. You two should collaborate. Also, F=ma, the velocity of a photon = c, c is constant, a=0. That solves that problem (gdroxor). F=ma is for mechanics.

What the f*ck, get this boring sh*t off YTMND now.

Excllent series of sites. Though if you want my advice (which you probably don't), I'd leave off with attempting to convince skeptics. People who're 1-ing you are going to continue to 1 you, and those of us who can grasp the simplified concepts expressed here are going to continue to learn and be amused.

Its like saying "There is a ball in one of two boxes... at any given time, half is in each box. But when you put scales under them, the ball is only in one box! OMGWTF!" Probability is NOT reality - Pettitman On the contrary, it is. FTL. Quantum Physics has done nothing for the science community. We need another great scientist to throw these quantum people in the garbage. - w1ngzer0 It's been proven. It's helped us understand the universe on the most basic scales.

slideshows are cool and interesting

Legendary Win

in b4 preload

I'm freakin curious here. I can't seem to find any information about this or not, but, were these experiments (the lazer one and the double slit experiment) performed in a vacuum enviroment? If not, then the molecules of air floating around should theoretically cause some sort of interference, correct? or am i on some sort of wrong track, here?

mmk, thanks! Fascinating stuff, though.

WTF IS THIS! HUMAN EYE EFFECTS PARTICLES! Holy sh*t they are like Shy Guy...

your broccoli is in danger.

don't keep your hopes up about educating YTMND. The fads and constant use of "^_^" here tells me that it would be easier to explain it to a donkey. YTMND is retard central.

I like Dr-L337's part 4 better.

Magic is in the air!

Pick a f*cking font and stick with it.

lol, edutainment

you forgot poland.....and humor.

Intelligent people DO visit YTMND. Wow.

We know where the particle is, because the particle knows where it isn't.

make another one pleeeeease D=

I'm considering making another. But 2 things give me pause. 1st, each one of these I do drops in numbers of views from the last one by about half. 2nd, I'm trying to think of another cool fact in Quantum Physics/Mechanics that wouldn't take me a 2 hour long gif to describe in a way that everyone could get it.

These rock, screw the retards.

rocks!

Texa, keep it up! These sites are awesome! science ymtnds, has always been one my favourites! nice work!

This isawesome! But -1 because some of the slides pass too quickly and I read slow.

god is smart.

What? Way too fast.

Wow, i didn't know what a true retard was until I read some of the 1 star comments. good job

There's detection, and there's measurement.

I r smarter four having whatch'd dis!

Your skeptics are stupid. All electronics work on this principle. That's why they're called ELECTRONics.

man, I will find the answers.

I was waiting for the funny. Still waiting...