Holy 🦆 I've wondered why that is thank you!

I'm not sure that's *completely* true. It *is* true that adjusting the phase of the different harmonics would make a signal that looks really different on a scope... However, humans are *really* bad at hearing phase of different pitches in a sound. (I'm pretty sure it has to do with the way the cochlea breaks up sound into different frequencies, but I'm not a doctor). So if you have two signals which have the same frequencies but slid around in phase, they'll sound the same to a human. Then again, humans are really good at picking up different phases *between the two ears* so there might be some funky psychoacoustic stuff going on if you tried that. (Also, apparently there are some animals whose ears work differently so they might actually be able to directly hear phase.)

And that's why the fourier transformation has to be calculated in the complex space. Every frequency also has a phase. But analyzers usually do not show them.

@@scorinth They will sound the same to a human, but when played together, it's not about the brain, its about the vibrations and the physics of the real world. The waves literally cancel each other out in the air and thus those frequencies are lost or reduced in amplitude.

They wouldn't technically harmonic if they were out of phase. The phases should line up with the fundamental.

With FM you get a really wobbli boi to the point a sine wave can sound like a walrus

@@christiantaylor1495 ...I'm going to hunt for walruses now

Exactly why simply re-pitching even the nicest real-world instrument in a sampler sounds synthetic

@@HORNGEN4 On the topic of wobbles I have found a video with additive synthesis imitating a Leslie speaker on a organ kzbin.info/www/bejne/hHrIaXtueZpnf7s

Rob!! That's actualy realy cool.

Hello scob rallon, how are you doing this fine afternoon?

@Rob Scallon I watched this despite learning the harmonic series years ago because I knew he would come up with *something* I didn’t know. That same part was new to me and makes total sense.

It’s the first of October

Yeah

And my mouth talking ass still can't figure out how to EQ shit, i'll be damned That's pretty rad though

What the fuck

WHAT

" terribly, grossly out of date for students today." I really worry about that attitude. Someone just one generation older seems 'out of date', superannuated. As though a haircut or accent or costume alters what a person is saying! Trivial, superficial people. Not necessarily a generational thing, just whether one has a sense of history.

@@smkh2890 I understand your dismay, 100%. And I agree with your sentiment. I dearly love Bernstein and I have watched his entire Harvard lectures series numerous times. But Bernstein explaining something is long-form poetry. It could take 20 minutes to an hour for him to make the point. Bernstein is too brilliant and too aesthetically minded to simply give the bare facts of something - he will weave the point into a tapestry of interconnected concepts and supporting metaphors. But here’s the thing - I first found those lectures as an undergraduate music student and I devoured them on my own time. They aren’t well suited to be a supporting material for classroom teaching at all, and that’s what I need for my HS theory class. In the past, even when I showed my HS classes preselected 10-15 minute excerpts of his lectures, they didn’t quite get it. Look at Andrew’s style by comparison. Utterly different pacing, among many other things. Style is a language, and modern students speak the language of his style.

@@brianmessemer2973 of course you are right. I don’t want to repeat cliches about attention span because my own attention span is not what it used to be. But how many now listen to a piece of music 40 minutes long or more in one sitting? How many read 1000 page novels? Even full length albums are gone . people listen to one track and buy single tracks . the 70s ‘concept’ album with a story development over an hour or more, Tommy by the Who would be a good example, seems to have disappeared.

@@brianmessemer2973 as for teaching I taught English language mostly to students who are paying so they were attentive. I’ve also taught English literature at college level but I am not yet at the point where I dare to teach music. Anyway talking about style of teaching, Andrew is very very good . I think he is sponsored by Reverb, so he has resources. I did some electronics in the ‘60s so the components he showed in a bag were not a mystery!

@@smkh2890 yeah absolutely sir. Your points about music and literature are well taken. There certainly seems to be less time for, less emphasis on, and less cultural value/appreciation placed on the study of large works. Funny coincidence - I also taught English language in Japan for several years before teaching music back here in the US. Thank you for sharing your thoughts and background a bit - what a pleasant conversation with a likeminded individual. Cheers to us 🍻 and cheers to art, literature and music that takes time 🍻

Maltalented Creator I didn’t notice lol

Ge also starts by saying this is one of the most fundamental aspects of music

Same but Andrew does it cooler

@@ethanyoung4629 yeh😂😂, my physics teacher could never be as cool as Andrew😂😂

If you haven't studied quantum yet you're in for a fantastic surprise when you get to the harmonic oscillator. Wave theory is ubiquitous throughout all of physics!

@@denglish5 we just started quantum, I finished the photoelectric effect yesterday and my head still hurts😂

maybe feed them directly into the brain somehow hehe

overtones are all around us we cant escape them not sure if that puts me in awe of the universe and its sheer beauty or puts me in fear of it

Maybe the closest possibility is a tuning fork on ones forehead..?

Then you don't hear a sine wave. Once the tone is colored by your amp, speaker, cable, W/E it's no longer a pure sine. It has gotten harmonics injected in the wave. So in a way you're right that it can only exist in theory. But with decently tuned and chosen gear you can approximate that sine wave to a point where the overtones you speak of have no real world influence on what we're hearing.

I was just thinking of that The limitations of the world are amazingly weird

What I really love is when I mute one string after playing it, and I hear the exact same harmonic vibrating from a different string that I didn't touch.

🙀 too genius

And then there's that violinist who somehow got the violin to produce tones *under* the violin's range and we still don't know what the physics are exactly.

@@woofelator That's sympathetic vibration, which is what makes sitars sound so goddamn cool. My high school music teacher demonstrated this to the class by taking the front off a piano and using his clarinet to play a note directly at the corresponding piano wire. We could then hear multiple piano wires sympathetically vibrate relevant to the harmonic series of the fundamental being played on the clarinet.

No man, you'll get an entirely new fundamental that has a wave length starting from the fret you pressed the string at.

🥰🥰🥰

Exactly... Lol

Synthesis Music absolutely relatable

yes!

What if I already knew about it, *and* I'm still impressed? I knew theoretically if you EQ'd away the harmonics, it'd sound the same, but I never thought to try it out. It felt different to hear it actually work.

Omg same! (not a scientist but a physics student)

@@harmitchhabra989 and me as a JEE student is visualising these things. and its mindblowing.

@@thehealingguy1503 same mai bhi jee21 ka hu

@@harmitchhabra989 isn't physics a branch of science?

Many folks out here are well familiar with this and many other concepts that are not scientists or engineers or anything like that themselves. Interestingly enough, these concepts in physics and other focused scientific fields are the shared connection between any other concept or endeavor. And funny enough you could be coming to understanding and awareness of technical concepts by actually practicing "science" and not even know it just by doing other work, craft or study. Now, a scientist may scoff at that bc the practice itself has a set of rigid formalities and standards to be consciously followed or its not credible as new theory, law or fact, but the process of discovery can be very similar and just as genuine to one's learning and comprehension of reality. I think its healthy, interesting and helpful to share such analogies.

But I hate math 😂

@@hannahboesen1647 then I hate u

Math haters = 🤢

I’ll change my statement, I don’t really like math lol

I was listening to Andrew and all I could think of was he's like a doctor but with music.

tambre b like

​@@MsStevieFernandez*timbre

And that's why fifth chords sound so damn good on a distorted electric guitar

@@XenoghostTV it's also why distorted triads sound nasty if you don't fudge the intonation. The difference tone from an equal tempered major third is a very out of tune minor second, two octaves down. Gnarly on it's own, nightmaremish in a mix

@@gonzoengineering4894 That's quite some nerdy stuff there. ;)

@@benjaminschallwig43 it gets headspinningly more nerdy when you realize that, unlike overtones, difference tones DO make more difference tones

Wut

Now you got me reading about DCT lol. Things get kinda wacky with compressive sensing/ whatever field it falls under in that context.

My fairly basic understanding is that there are other bases/kernels that would be able to do better with square waves, no?

There are definitely more compact ways to store data representing square waves... but they tend not to be as good at storing smooth contours. The compression is basically optimized for what the creators expect the input data to look like... so it'll be less optimal for unusual data. Although jpeg was a big step up from what came before it, there are definitely some corner cases (pun intended) where it's not so great.

And when one end of the sound waves in the spectrum ends- light waves begin. They're all connected.

Sound and light aren't part of the same spectrum. They're different types of waves. Sound is a compression wave of particles transferring kinetic energy by bumping into each other, like how ripples travel across a lake after throwing in a rock. The water itself isn't travelling outward; it's mostly just vibrating in place. The ripples don't exist without the lake. Light, however, is actually pure energy travelling from one place to another. It's not cascading vibrations of some other material... it's photons moving across space. Light exists as individual particles, while sound is a side effect of the movement of many many particles. Sound is a domino effect and only exists if there are dominos to move through, while light is more like throwing a ball.

Mind blown

Bro...

Andrew is actually right when he says the overtones don't generate their own overtones. It's a standing waves problem--if your original C sounds off a string of length L, then the G would sound off a string of length 2L/3. Strings of these lengths may share a few harmonics coincidentally but for the most part will not mach up.

The Fundamental generates all partials, period.

this man waves

it's physics ;)

@@marek2031 And math is the language of physics ;)

@@einprozent3738 nice checkmate lol

@@marek2031 Fun fact: I've never met a Physicist that didn't play some kind of stringed instrument.

@@CyclesAreSingularities I mean if you want to seperate such a complex subject like maths in "highschool" and "physics" maths go ahead but that still doesn't undermine the fact that physics can only be applied to the real world by the application of mathematics

It took me a while to find it but like a year or so ago I found a really good paper on this and how to reproduce the voice you hear aka about what eq you need to get it. Sadly I didn't save the link and haven't been able to find it since.

Cover your ears with your hands, fingers pointing up, then fold your hands forward, keep the sides of your hands tight to your head, shielding your ears from what comes from front. Tadaa, your sound! 🧸💕🦠🔨

Perrin Silveira I studied a bit of this and have a few papers written up on my old hard drive, super interesting topic

@@Stiddo Can you put it on a google drive and send the link, please? I'd love to read up about this. Seems like it could be a very creative way to make use of vocals. I've been having some trouble with vocals so experimenting and finding the best way to do it seems smart to me.

@@Stiddo bro i need this whats your email?

Even crazier, because a sine wave is basically a rhythm, every chord is a basically a giant polyrhythm

​@@lemonsyswtf

​@@lemonsys Yuuup.... and the polyrhythm with odd intervals are why they sound dissonant

​​@@ericchin739there is no note. it's due to the mind's evaluation that creates notes. every perceived note is a combination of every other note, but every other note is also made of every other other note. It only appears to be a wave due to the integration of the evaluation process of the mind. There are no waves in reality, only in the mind due to conceptualization/evaluation/interpolation due to linear approximation/assumption.

I felt the same. It confirmed to me why music by default is therefore so powerful in terms of provoking emotion etc as it is so intrinsically linked with the universe as a whole and all living structures. Basically the universe is a construct formed by numbers and mathematical equations both biologically as well as physically and on every quantifiable level, in this case audibly too. Everything we both comprehend and don’t, consists of vibration and frequencies. If you are able to master the rate of this vibrations you are able to master life. Raise your vibrations and you raise your synchronicities. Raise your synchronicities and you create the ability to manifest.

I think it's more of a thougth to apply to science and math in general rather than just music, the fact that science and math are so accurate to describe our world despite being made by humans it's mind blowing

@@MRtecno98 kzbin.info/www/bejne/fIqaZXR8htFlp7M

@delt That gets more into philosophy than math and science. There's a lot to be said for the question of was math invented or discovered?

@delt Wow, I somehow said that Google was the keepers of the mathematical constants we use to describe the universe 🙄 No. You said that those constants would exist without someone to discover them, and I countered that the assertion is based in philosophy (specifically, epistemology) rather than the hard sciences. Thanks for strawmanning something that is only really debatable in philosophy, the field I mentioned, because 2 is how we describe that quantity of items, not an actual physical substance. You can hold two apples, but you can't hold 2. That's my whole point 🤦‍♂️

Where is this video? 10 yrs ago I wanted to be able to do an FFT fromwaveform|drawn_notes

like they said, look up 3 blue 1 brown. you wont miss it.

@@midinerd kzbin.info/www/bejne/qaG4f6Ove5preLs 3blue1brown is incredible.

You DIG IT. Cool to have someone who actually watches 3b1b and Andrew. Bet You watch Adam N and Anton P...as well?

Yes, as a someone with physics background harmonic series in music was very quickly digestible and intuitive.

I strongly agree

Yes man! I need to like this twice 😅

Yeah, I always noticed that I can only tune this string using a chord, unlike all other strings that I can tune separately. I only did not know why. Great video, thanks for sharing the knowledge! (yes, I did know everything except this out-of-tune-equal-division-stuff).

Totally - makes more sense now (as a keyboard player who occasionally tunes a guitar and feels ... weird on that string)!

This is truly the First time I’ve heard someone else say that tuning the B string is AWFUL!!! I’ve been saying this for Years, and people think I’m nuts!!! I’ll have to try tuning the string in a chord...that’s a great idea. I use a tuner and either adjust it by ear, or I just suck it up I’m actually a drummer for 40 years that is self-taught guitar.....so I’m not very good...but bro....that B string kills me!!! 😂😂😂

If you can get the harmonic pluck just right you can gently touch (not press) just above the B string on the 5th fret and the G string on the 4th fret. When you tune the B string with the G string this way and you don't hear any beading it should be in tune, at least with itself. I didn't learn this until I had been playing for 5 years. Worst 5 years of my life. B is now my favorite string.

As a physicist, do you know where the harmonic series came from, its origin? It's a question that I have thought about a bunch and have some ideas but I hope somebody who studied the subject has their ideas as well.

@@TiqueO6 This notion of the harmonic series essentially comes from the notion of a Fourier series or a Fourier Transform. The fundamental idea is essentially exactly what this guy is talking about in the musical context, but the idea has consequences that much wider reaching than that. For example, the same technique can be used to study how heat in some distribution will diffuse over time. Basically, it is possible to represent a surprisingly large amount of functions as a sum of sine and/or cosine waves. In fact, any continuous function on a finite region can be represented this way. Now I would explain how this works, but I think 3blue1brown explained it better than I ever could in this video here. kzbin.info/www/bejne/qaG4f6Ove5preLs&vl=en

Comments like this are why I look into the comment section. Thank you CZ 👍🏻

Do you have synesthesia?

In a way math and music are the same language

@@IntrepidInfinity 🤯

Was his favorite band Dream Theater? lol. also, math is a tool but also language that can describe anything. spoken and written languages can be related this way. Software languages are no different, they just have their own systems and application where it makes sense. Your genetic code is kinda like firmware in a way, your personality and own awareness is like an algorithm. Brains are not computers though, well kinda like a router I would say and your consciousness resides in hyperspace, a bit like cloud computing. Electricity is pretty important lol and also needs math to be explained studied and manipulated. Everything is math, its the root. Not everything is music... We like music because of patterned harmony of sound waves and patterns in arrangement of events over a formatted time parameter. Our brains really only do one thing, notice patterns. Aesthetics are patterns pleasing our purpose.

:D

The way waveshapes are built would've been a good addition to the segment in ableton with the additive synth, I thought he was leading there. Well presented video anyway though.

Can you explain how the only difference between vowel sounds is their timbre? Sorry its kinda making sense based on what I heard in this video but not fully

Sure, basically the way our bodies make different vowel sounds is by making shapes with the tongue and lips which dampen or amplify certain overtones. “EE” shapes highlight higher overtones, while “OOH” shapes highlight lower overtones.

Any ideas on the origin of our harmonic series? I have my theories but would love to hear others'!

I also noticed it and came to the comments to see if anyone else had noticed it too xD glad to find out I'm not the only one

Lol I thought the exact same thing

@You're fake and gay The regulatory TV censorship sound in the US is a 1000hz sine wave

You're so smart. I didn't get that!😂

I'm also pretty sure that sine wave is an 'F'

And Early Music Sources have just released a new video on temperaments. It's been a good week to explore pitch!

And probably also the reason why Power Chords sound better still.

I think Paul Davids went deeper into this once. I think it was about chord progressions in classic rock.

I've actually tried tuning my guitar's distorted major and minor chords to their just intonated intervals (tune the major third 14-ish cents flat, minor third 14-ish cents sharp, perfect fifth just a hair sharp) and found they often sound marginally better. Of course then I have to re-tune for each chord I play.

Adam Neely blew my mind when he talked about why power chords have a major flavor somehow.... I should find that video.

​@@not-on-pizza Power chords are actually just major chords. The 3rd is produced by the overtones and is easily audible, your brain just convinces you not to notice it out of habit.

Same happened to me when talking about this. People generally get into ''new age'' chatting without getting into the real talk, and start to lead the conversation into ''energies''..and you try to redirect saying ''no no, not energies like spiritual and good & evil, but real energy, the one that happens every moment in daily life'', and they look at you as if you were high or psycho or just trying to look smart 🙄

Have a Google of electron orbitals. It's like this in 3(+)D

It's funny because "I don’t mean any of this in some new age stoner way" sounds exactly like a harmless version of "I'm not racist, but..." 😉

I instantly thought about a 3D sound wave oscillating in a medium.

@@VeronicaGorositoMusic Go to Santa Fe, New Mexico. I met a woman from the Pleides star system. She told me all about chakra energies at a party. And numerology. It was a great sociological observation until it got boring.

I used to say "wooow" really slowly and notice how the harmonics of my voice would appear and disappear in "units." You can hear a distinct quantization of the harmonics. I thought it was really interesting and now I know why that happens.

If you have multiple harmonics, you will end up with something that looks like that animation. Standing waves only occur when a single harmonic is present. kzbin.info/www/bejne/gn-xgql9Zc-Kqtk

I believe it's like Jimmymcjimthejim says, and on guitar, the standing wave with fixed nodes is more specific to what is called (somewhat confusingly in this context) playing a "harmonic", where you intentionally quiet all but one of the harmonics by lightly touching the string at a particular spot, to kind of force a standing node. kzbin.info/www/bejne/a5uVcqt9fNKHY8k

@@Jimmymcjimthejim Yes but Andrew was clearly talking about each vibrational mode. The standing wave picture would agree more with the context.

I laughed so hard

This is so true tough, alot of newer producers always think you need expensive gear to make good music while really all you need is a computer and a headset. Sure, the expensive gear could theoreticaly help, but only if you know the fundamentals of how it actualy works aswell as how to use it in general. Expensive gear is not a nececity

Which also gets expensive time- and learning curve-wise. Wendy Carlos has a lot to say about additive synthesis. A LOT.

And then I put an 0TT on it

@@Scyriate While this is true, making music only by overlapping sine waves manually would take a *ridiculously* long time.

It’s unequivocally good 😊

Don't worry, I've done this for every single video he's posted for the last 4 years (except the ones where there is no high five of course)

I DO TOO!!!! LMAO!!

think of it like the musical fluffy unicorn version of the brofist

It is good and fitting

What about the G string tho?

@@boazcohen7992 ;)

Music is basically relations of frequencies

Just remove the B string 🎸 You're welcome 🤣

your profile pic is one of my favorite videos of all time

Wow! I am an awful an singer, it is hard enough for me to even sing the right notes on key. Having to also pay attention to the shape and position of your physical mouth in order to regulate which overtones you are singing is a layer of skill I didn't even know existed!

This was knews to me too, buddy.

Same what i wanted to write

To be fair, Fourier may seem like a mathematical god, but he too was merely a human.

well thats what he said in the video

For example, when I bend the B string relative to the E string I hear what sounds like a groaning old man. The closer to the “target” pitch the lower that ghost note goes.

i'm a piano tuner... they are most commonly called difference tones ... so called because the frequency of the tone your brain creates is literally the difference between the frequencies of the other two tones.

What you're hearing is a "beat frequency" - a pitch that is the difference between the two frequencies. The closer the two tones are, the lower the beat frequency.

Or Sideways video "How to evoke the voice of god"

If this becomes the new trend in electronic music... I wont be bothered at all. :D More Xen stuff please.

Ade WE WANT XENHARMONICS

Andram Hueely

@@alderankorym everyones gonna get into fm synthesis, then proceed to slowly rip their hair out while screaming in frustration.

💖

Yeah!!

@@andrewhuang woah you replied 😱 But seriously your content is amazing

Is that why my cat is never impressed by my music?

Non-repeating wave can be deemed as repeating wave with infinite periodicity.

Disagree 100%.......you're confusing properties of math & physics with auditory perception. Math is rigorously defined and maps perfectly onto physics, so my brain doesn't "choose" for a complex waveform to be mathematically equivalent to a sum of sine waves. So yes, the resonant body's vibration indeed necessarily includes overtones, because that's how the math is defined and how the physics works. Neither does my brain decide the properties of a resonant object...even allowing that human hearing is subjective, that doesn't mean the vibrational qualities of that object would seem random, because they aren't random, they are quite clearly patterned. (Unless it's actual noise, which does sound like random noise because that's what noise is.) And "alien species" is just a proxy for saying "what if you remove a key aspect of perception?" which is saying the equivalent of "Wow, imagine if we didn't have eyes, everything would be black!" When you remove the meaning from something, it's not a surprise when it becomes meaningless.

​@@j3ffn4v4rr0​ Okay maybe you're right that saying the vibration must "include overtones" is correct. But it's like saying that the number 91 "must include 7 groups of 13". Like sure, it's a fact of the universe that 91=7*13, but there's lots of other very valid ways to interpret the number 91. When I look at a crowd of 91 people, my brain doesn't immediately analyze it as 7 groups of 13 people each. The only calculation it does is "wow that's a lot of people, maybe about 100". That's how my brain *chooses to interpret* the crowd of 91 people. My point is that overtones, while obviously a consequence of math/physics, aren't some universal concept. Some alien species might perceive pitch in a more naive way that doesn't account for overtones (e.g. just averaging the frequency every X ms). And if you told those aliens that they could represent a guitar pluck as a sum of sine waves they'd be like "ok cool, why tho". Which is the same reaction you would have if I told you "hey that crowd of 91 people is divisible into 7 groups of 13". It's true, but you don't perceive any difference. So yeah, I _am_ pretty much saying "if we didn't have eyes then we couldn't see", but I'm only saying this because andrew said something analogous to "the laws of the universe determined that all stars must be visible, since before humans even existed". Like, it might be true that stars have always emitted light, but _visibility_ is a uniquely human concept/perception that only existed once we existed.

@@NadavKoller if we didn't have eyes, we might not be able to see, but that doesn't mean color doesn't exist

Other instruments effect stringed instruments the similarly, if you play a just note from lets say like a trumpet and it's note is tuned that to the same of the piano, the piano string should start vibrating. It is this reason why certain notes can make certain objects vibrate. Most objects have something called a natural frequency, the frequency is extremely specific to the object but it that frequency is played at the object, the object should start vibrating. This is what resonance is. If any of you have seen a live video taken by a camera on a stand and that camera vibrates for this one certain bass note, that was because the objects natural frequency was that note. A good example of this is kzbin.info/www/bejne/jqjPi3WAftVkd6M at 1:46 and a real scenario, this case a beatboxing tournament kzbin.info/www/bejne/enfOZ5SMiLyibdU at 9:28 - In this case the camera wasn't on a stand but the camera's natural frequency caused it to vibrate (Better example at 10:12)

Entire instruments are built around this concept too! The Sitar for example, has sympathetic strings that resonate with the strings you play, creating droning harmonics and that classic sound!

Yea you would think that removing the fundamental would make the note sound an octave higher, but it doesn't. That's because the combined cycle lengths of the overtones are all relative to the fundamental. I.e- the 1st harmonic (2:1) and the 2nd harmonic (3:1) won't "meet up" (for lack of a better term) until they cover the same length in time as one cycle length of (missing) fundamental. Like an eight note and triplet played together... they meet up at every quarter note and we can hear that whether or not the quarter note is being played.

The note told me she was single

HBERRGCCH

This deserves more likes seriously

Music teacher here. Can confirm everything you said. Seconded ✅

Honestly you don’t need most of it to make good music. Music is more about the emotion.

Action true, but if you have emotion, and can combine that with intelligence in a meaningful way, damm, then maybe you got something?

@@Action2me Absolutely, I agree with you there. But that was not my point. What I meant was that I think it's strange that even if you're not interested in the physics behind music I would have thought that after a rew years you would inevitable pick up some knowledge.

@@electronicgarden3259 I think most musicians do even if they don't realize it. Every good musician knows their instrument (yes that includes DAWs), how it plays, what makes it sing, scream, bite, whatever. Every instrument has its own quirks and it's up to the musician to figure them out. Say for instance you handed Jimi Hendrix one of Steve Albini's guitars and told him to play Hey Joe it just wouldn't be right, y'know? Also most guitarists know about harmonics and that's just straight up physics.

Don’t need to. Just need to know what sounds good.

this music thing is a journey

Persevere no matter how many challenges you are faced with and that dream will become a reality. Beleive you can and you will!

@@camt3787 Thank you, I won't give up

he should have done overtone singing hold a steady pitch and transition between "oo" and "ee" with a little practice you will get a resonant filter sweep and be able to pick out specific partials audio should start with sine wave but commercial products don't need erudition or educators

hahahahahahahaha

I understood and I'm just mind blown !!!

🙌 I understand you

accept it. it is fine. use a tuner! this is the reason why all these wannabe "my ears are so good i can tune without a tuner" dudes are wrong. if your ears are good, you struggle hard with tuning. you can actually detune the b string slightly to make major chords that have their root on the a string get a perfect major 3rd interval. paul davids did a video for that, you should watch it "why didn't frusciante tune his guitar" is the name.

Another solution is to add frets to your guitar... kzbin.info/www/bejne/n4PWhJ2earmHp6s

The B-string is fine. The G-string on the other hand...

@@KramerPacer2 you had me at frusciante

@@lgp6344 The G string is the best. The Vibrato when using the neck pick up is so creamy and warm.

It goes deeper than that. If string theory is to be believed, then all subatomic particles are on a fundamental level 'strings' vibrating at different frequencies. Mean literally everything can be broken down to nothing but sine waves.

@@JonasHamill Leaving aside string theory for a moment, just pointing out that not all *vibrations* are sine waves. A sine wave is a smooth periodic oscillation. Vibrations can be way more complex than that: www.testandmeasurementtips.com/basics-non-sinusoidal-waveforms/#:~:text=A%20non%2Dsinusoidal%20waveform%20is,sinusoidal%20(sine%2Dlike).&text=A%20cosine%20wave%20is%20sinusoidal,but%20is%20neither%20of%20these.

@@llaith2 All frequencies can be broken down to sine waves. More complex wave forms are just multiple sine waves. You don't have to take my word for it but I have a degree in Electronic Engineering and work with signal processing on the regular. If you wish to look into it more look up Fourier Analysis. You can even look at the following quote from the link you provided "A non-sinusoidal waveform can be constructed by adding two or more sine waves"

Fourier intensifies

@@JonasHamill Dude its cool. I did electronics engineering in uni before having a career in software. I get you but I thought your comment was simplifying the matter, given the context of the video where he didn't go into detail about recreating the timbre of instruments with pure sine harmonics. He did mention about other aspects of the waveforms a bit later, but it didn't seem connected for people who don't know this subject. I thought you were saying that any timbre could be recreated with simple sine waves at different amplitudes on the harmonics. Mainly it came across that way because of the way he was clicking in the software to add those harmonics in. So no offense meant. Btw, I suck at math, so those kinds of problems nearly killed me at uni! I decided to focus in on digital circuits and the micro-architure of chips instead. The switch to software was inevitable as I enjoyed coding in machine language for the chips we used. I'd rather not read any more on the subject in case my brain starts melting again! :D