Demonstration with radio waves and sheet of metal bars makes polarization much more understandable. Wish more people would explain it like this. Thanks!

@uploadJ

5 жыл бұрын

But, the presenter still errs in the final analysis of why/how this phenom works. I thought for a bit he was going to get it - but he swung and missed! As it turns out, the metal grate is re-radiating the microwave energy in the direction that the grate is positioned, having intercepted the RF from the transmitting end at 45 degrees, then, re-radiation of the RF takes place at the new 45 deg angle AND is picked up at the far end receiver.

@neonsashimidream1075

4 жыл бұрын

@@uploadJ This is definitely the Occam's Razor explanation. I felt the same way when I first stumbled upon the Quantum Physics explanations of this phenomenon. It seemed like they were going way out of their way to create an impossible to answer question. I would love to find an experiment that either presents evidence for or against the solution you just described. If the obvious explanation is the correct one, why do all of these physicists seem to miss it?

@FuburLuck

3 жыл бұрын

@@neonsashimidream1075 If that's your thought, why do you think it would be re-emmitted in the same direction as the original signal, rather than a random direction? Why would light continue in the same direction from the filter, rather than emitting fainter light in all directions?

@uploadJ

2 жыл бұрын

@@FuburLuck re: "why do you think it would be re-emmitted in the same direction as the original signal" It does not re-emit at the angle of the orig signal. It re-emits at the *angle* the grate is *now*. Each wire radiates at the NEW angle on to the destination.

@-danR

Жыл бұрын

@@uploadJ . I can't tell whether he missed it or that the presenter's explanatory style is so bad that it amounts to the same. What is depressing are the comments--the inevitable YT comments--praising the explanation with: "Wow, great explanation." "More than I learned in a year of high-school." "I wish my prof had put it this way." "Now I _finally_ get it!" No, you don't get it. Or else you're a genius at extracting the truth from a malformed explanation.

Badass final sentence. Someone should put sunglasses on him in the last frame.

@MajorMandyKitten

6 жыл бұрын

#DealWithIt

This one of the demonstrations that blew my mind in high school. Lead me into the wonderful science field of plumbertology

"now Brady, this is the bit that really is going to do your head in. Which I'm going to enjoy"

Brady, show us more about polarization. In particular circular polarization, the difference between electric and magnetic parts, and how these parts are each a complex number.

Wow! I am impressed by how informative this is. Thank you.

This came up in class last week. Especially the bit about slipping a polaroid sheet at 45* in between two sheets that are offset 90*. I thought the wave could be thought of as components but I wasn't sure. Now watching this I remember where that thought came from, I watched this video a long time ago. Excellent.

"...which I'm going to enjoy" xD Roger Bowley is my favorite! (and with the other utterly amazing professors on this program, I mean that as a big/personal praise.)

We used microscope with polarized lenses while studeing thin sections of rocks. The different rocks consists of different minerals or verious rations of minerals. Each have their own "look" in polarized light meaning that they could be identified, even if they appeard only white,gray or black to the naked eye.

you know what's interesting about that wire frame? put two together perpedendicular so you get a wire mesh that effectively block all possible polarisations of EM waves with wavelengths larger than the grid size. it's called a faraday cage and it's the same concept used on glass doors for microwave ovens...

Thanks for putting this together. Fascinating stuff.

this is mindblowing, id need a way more deeper lesson on this topic

@veso5863

2 жыл бұрын

SASSY

@DungorCee: Sorry about that... today is my last day on the project (for a short time, I hope) so getting everything finished. All done now!

sblackNY actually, you can't convert something into electric tension without also making current, as they are corelated. And no, not all radios need a power source. There is a "famous" model that they used to do in WWII or WWI (can't remember) that uses a crystal earphone. Just google for "crystal radio" and you will see. It's very intresting easy to build! Weel, at least as long as you can get hold of a crystal earpiece.

I can't stop watching these videos.

One of my favorite speakers on bradys channels

Fantastic, thanks for making!

Greatly explained about road and river reflation and polar glass activity which I was not aware of. I knew about polar glasses and how it works though but your explanation was awesome and made my brain clear like looking inside pond wearing polar glasses. Thank you.

I love sixtysymbols its my favorite channel now

Beautiful explanation. Loved it.

This is a very cool video, I really learned what polarization really is, and the professor is totally cool, I couldn't agree more.

That was very well explained. Thank you.

Look at you digital watch with your Polaroid sunglasses and then turn the watch 90 deg. Same thing.The LCD display of the watch also has a polarized film on it.

either me !

@harleyspeedthrust4013

3 жыл бұрын

Wat?

Great explanation video, that man can explain very well.

You may know a magicians secrets. But his tricks can still be impressive. So it is with physics. those polarization tricks on the overhead are wicked awesome even despite knowing exactly whats going on.

Best comment section I've seen in a long time. Btw, Sixty Symbols is awesome!!

This is amazing, fascinating......

Neat and Simple. Thank you.

Amazing ❤

But don't stop making videos! We all hope to see at least another sixty symbols!

If you wear polarised lenses, you also see another effect - tempered glass has translucent spots in it, and if you see any curved/bent class (like Starbucks uses to cover their display cases) you see translucent/foggy areas where the stress of bending is.

That is so cool!!

Great explanation

Excellent

This is so COOL! *_*

This is the only one of there video's that has literally made my brain hurt.

Here's a fun thing to do if you have two pieces of polarizing material. Align them so almost no light gets through. Place a clear CD case in between them. As you rotate the case you can see a moving rainbow of colors, especially at points of stress. I first saw this effect when entering an office building that had doors made out of some kind of tinted safety glass. I was surprised to see a wavy stripe of bright colors across the middle of the door that disappeared when I took off my sunglasses.

Thank you very much! This was very helpful

very good presentation, valuable info but easy to follow.

@uploadJ

2 жыл бұрын

But, he's wrong. Presenter presents wrong theory for why these things work the way they do ...

It is said that the guy who invented polarizing film was expelled from the college where he was studying chemistry...and for about 3-4 years he sneaked in to the lab during the night to work on it.

3:10 When the orientation of the conductor in the filter is in line with the transmitter, the wave will be mostly reflected, rather than being absorbed by the conductor.

Thank you. Could you also talk about how molecules (or dielectrics) interact with EM waves to produce Brewster's law?

Amazing physics... I think I'm getting more and more interested in it now xD

I think phisics made a mistake in its classic explanation: when the signal reach the metallic grid, in the spaces among the bars we could considera individual sources oscillating based on Hyugens' Principle, but their spherical wave will be distorted since the electric field will be stopped by the metallic bars in its perpendicular direction, making in this way a boundary condition for these point sources, leaving sources that can only oscillate on the parallel direction to the bars which explain why you got power in this direction... like in scattering processes you cannot just said that only absorption has ocurred, you should consider the participation of the electric field from all the molecules in the path of transmission

yep agree , although I have been on the beer ,so maybe i'll try again tommorow ,but most of that was wooooosh over my head

Very very informative... Thank you

WOW simply WOW!!

That microwave thing is awesome. I have kept two polaroid filters in my wallet for the last year because they're so awesome.

It be really cool if you showed an experiment how to combine two separate laser beams into one, or spit one beam into two with a polarised cube.

Q. What happens if light passes through a white mint? A. It gets polo-ised

I think some satellites do it like that to send about twice the amount of data in the same frequency range. Also, that is how passive polarized 3d (actually, just stereo) projectors work, two rolls of film, two lenses each polarized 90 degrees to the other, and the people watching the movie wear glasses with the lenses also polarized 90 degrees from each other (there are also some that use circular polarization, the lenses are polarized the opposite of each other)

I like all the profs, but this guy is my fave for some reason lol

you may not wear sunglasses, but I think you're really cool for talking about such interesting stuff! :D

this is so cool :O

Great video! Where can we buy the polarized film you're using?

They explain that vertical wires serve as the secondary transmitter: the waves induce since oscillations of electrons in the wire effectively absorbing the wave. Ok, let's believe that wave is absorbed when it forces the electrons. But, the other theory says that reflections work because secondary source produces the wave. Yes, oscillating electors must emit the waves in the same direction as the inducing wave. So, probably, we should speak about scattering rather than absorption?

This experiment also works for magnetic field. Microwave in the video is a transverse electromagnetic wave, which is composed of e-field and b-field orthogonal to each other. Only detector should be magnetic field detector.

Witchcraft!

@azeer1988

8 жыл бұрын

+The Kaiser i was watching this and i was like: SORCERY!!! lets scroll down and see if i'm the only one who thinks that ;)

@uploadJ

5 жыл бұрын

There is no need for QM or choices or magic though ... this is just pure classical physics involving radio frequency energy (or light energy) being re-radiated by a structure set at 45 degrees from BOTH horns (in the second demo.)

Exceptional

gonna miss the new vids everyday

I think you're cool.

The antenna collects the signal, and computer chip deciphers the signal into audio, but needs an additional power source to amplify the signal sent to the speakers.

this IS magic.

There are many glasses used in and around the house that become opaque by the hit of a switch. Do they use the same polarization principle?

I did this in my Physics lesson yesterday! We got it pretty right, though we didn't get the bit with the heat we didn't notice ^.^

after passing the 45 degree filter, the microwave's orientation is actually rotated by 45 degree. that's why when the receiver is at 90 degree to the transmitter it still gets signal. no magic is involved.

That guy is smart and cool, AND he wears by far the coolest Shirts!

2:30 onwards. I had always thought that the conducting bars had to be parallel to the wave, so that the wave could get through. That's how all the physics book diagrams work, some show a rope and a fence, and the wave in the rope only passes if it's parallel to the fence bars. Clearly they seem to be wrong, because this man just explained it in more detail than the simple fence-rope intuitively nice diagrams. Thanks.

@valtih1978

8 жыл бұрын

+Maple Syrup I think that he is still wrong. He told that wave is absorbed and energy is converted into the heat of the fence. However, oscillating electrons must re-emit the wave at the incending frequency. The wave must be "scattered" rather than absorbed, therefore, IMO. The fence emits it in all directions instead of focused into one direction. It is like clouds scatter the sun light rather than absorb it completely, like black cover would. The question is why does polarizer prefers to absorb rather than reflect or scatter the light at the current wavelength?

@valtih1978

8 жыл бұрын

Open Feinman lectures and start reading. You do not need PhD degree in physics to understand a bit of common sense as you do not need any to say that induced current = heat.

@maplesyrup2944

8 жыл бұрын

+Valentin Tihomirov I have watched a lot of Feynman. And it's not common sense. You have even translated his videos, nice :)

@rThorWenzel

8 жыл бұрын

+Valentin Tihomirov The wave is in fact absorbed as it induces a current on the metal pole, which by ohmic conduction generates heat. The polarization of the poles turns them into dipoles, which in turn radiate waves in every direction. If the frequency was high enough, this would be the main source of heat dissipation, but it's shadowed next to conduction at the microwave range. It's called dielectric heating. Why the metal absorbs most of the energy rather than refracting or reflecting is due to the conductive properties of metal, the frequency of the waves, the geometry (parallel bars) and the position of the grid. It's like any other optical surface which transmits and reflects in only one direction. You can reflect the wave by angling the metallic polariser or refract it with some paraffin prism.

@uploadJ

2 жыл бұрын

@@rThorWenzel re: "Why the metal absorbs most of the energy rather than refracting or reflecting is due to the conductive properties of metal," Wrong wrong - completely WRONG. JUST because you "say it" does NOT make it true. RE-RADIATION from the wires occurs!!! This was EASILY shown BUT the presenter does NOT know it!

So an electromagnetic wave can be split into its component vectors? Hopefully I've interpreted his analogy with the square correctly

@ExCoSeH

8 жыл бұрын

Yeah that's how I interpreted it as well.

@stensoft

7 жыл бұрын

They are actually not component vectors of the original wave. You would have 25 % signal even without the filter if they were. But when you measure the wave (with the filter), it is forced to turn either parallel or perpendicular because it cannot interact with the filter in any other orientation. It's basically magic.

:D "oh, I'm just really fascinated that this actually worked". Basically how philosophy-lecturing works as well - you hope, beyond hopefulness, that when you teach someone they will manage to use the tools and the theory. And follow the reasoning, to the point of actually understanding it, and making the terms their own. And then manage to use these terms and meaningfully argue towards conclusions without help, in a different context. It's still the same principles, and it should hold true, it has before, etc. So you expect it to work. But it's still almost like magic every time it actually succeeds anyway.

He should have his own channel! :D

Fundamental mathematical expression of phase and polarity. Chirality ,the left or right handed ness of atoms is important .

The photon is in both states but must be recorded in one, which one is based upon a probability. So its still not deterministic. Consider a perfect dice, it can roll 1 to 6. That doesnt make the roll any more determined even though you have a mathematical framework for assigning probabilities. It will ultimately have a 1 in 6 chance of landing on any of those values and that renders it non-deterministic. Its the same with the state of the photon and how it is ultimately observed.

What's radial polarization? (the kind that mantis shrimp can see)

This wave this way, that wave that way. My head!

I've had to give up my Polaroid sunglasses because of LCD displays, which also use polarized light. The angle never lines up correctly with my sunglasses and I end up seeing a black display.

Highly informative; yet funny

I don't think so because sound is a longitudinal wave. The waves have the same direction of vibration as their direction of travel. Light and other electromagnetic radiation are transverse waves. Their waves are at right angles to their direction.

can we do a polarization of sound waves? and if so, how does it work?

What is the number of polarisation states inside a blackbody cavity?

My name is also Brady, so it feels like he's talking to me!

I imagine the antenna just collects the EM (radio)wave, then a transformer makes it into a current for the speakers. I don't actually know, but that's what makes sense.

What interests me is that when you changed polarity the detector had a peak higher than the steady state. One explanation could be an AGC (auto Gain Control) in the detector. Can you verify this point for me please. Garret

@siggyincr7447

9 жыл бұрын

I was curious about that too. Especially since he says that it's all about probabilities of the individual microwave photons getting through, he says 25% likelihood. Then why is the signal not 25% of the aligned signal? I wonder if the polarizer isn't converting the polarity instead of filtering it, and possibly focusing the beam.

@AndyPayne42

9 жыл бұрын

Siegfried Gust Why would it be filtering if he's getting the same steady state signal (~4ma) with the receiver/transmitter and aligned?

@parthpandya7077

9 жыл бұрын

I was also amazed by the same the grid of polarization acts as a focusing channel and not as a diffusive channel it does not obeys the law of conservation of energy Either there could be a fault in the receiving side

@abramthiessen8749

7 жыл бұрын

Or he could have increased the power of the emitter between cuts.

@LAnonHubbard

7 жыл бұрын

They did the first part of filming in the morning and the second part in the afternoon. In-between they used the microwave apparatus to cook their lunch on max power.

The beauty of quantum mechanics at work right there...

nice example of everyday quantum physics

am I right in thinking this is similar to the double split experiment? as the photon is taking two states (the 2 diagonal stated) at the same time?

Is there a way to see the whole uncut video (or videos, not only for this one, but the whole sixtysymbols videos)? Thanks

hey guys if you take the lenses off of the 3D glasses at the movie theatre then you can actually get the same effect as the very first demonstration

Would you guys mind updating this to include circular polarization? Thx.

Exactly, although I should point out that according to quantum physics even Protons and Electrons are just more complex waves.

OK, thanks prof, been trying to understand why you guys say vectors literally have two components that are really in operation at the same time.

If you're interested in learning more about the polarization of reflected light I suggest the Wikipedia article on Brewster's angle.

Amen

you can test this by using your ipad (or any similar screen) while wearing polarized sunglasses.

We can, it's called a solar panel...radio waves are not converted into current, all radios need a power source (batteries, outlet, etc)

Soooo.... is it possible to have a system where waves are traveling together so their peaks and valleys are exactly lined up, but oscillating in different planes?

are there plorizers that work on the magnetic field instead of the electric field

How about extending this topic further to cover circular polarisation.

Yes! The polarized wave is made of a vector sum of its constituents. What we observe as polarized light in the up and down direction, is actually the wave moving in both the left and right directions. Those average out to give us the observation. Great explanation using the Triangle :)