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Dean View Drop Down
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Direct Link To This Post Posted: September 21 2014 at 09:46
Originally posted by Toaster Mantis Toaster Mantis wrote:

It would be interesting here to look into the classical music traditions of cultures that aren't of Indo-European origin at all, Japan or Korea for instance, and compare their underlying systems of modes/scales/phrases.
As I said, most music traditions are centred around a pentatonic scale even if those five notes come from a scale that has more than 12 notes or has an uneven temperament or are not tuned to Western concert pitch (A=440Hz). Along with Indian (raga), Japanese and Korean music is based upon pentatonics (both are related to Chinese pentatonic scales).

I'll never tire of showing this video by Howard Goodall, so here it is again for those who haven't seen it:


The pentatonic is something that when any two of the notes played together produces harmonics that are sympathetic to notes in the scale or mode, this is a universal constant that can be described mathematically¹. 

Scales were not chosen at random, each note was carefully selected to be harmonious with its neighbour based on the "beat note" principle. Y will only be harmonious with X if the resulting beat note is also harmonious. Before Music Theory analysed how this worked musicians figured all this out empirically - they played two notes then tuned the second so it sounded harmonious. It was only later when smart people analysed the scale they discovered the mathematical relationship between the notes². This relationship is a power of 2, and is related to the octave and the harmonic series.

Because two notes can be played together and sound harmonious we get chords. Chords can also be described mathematically³ even though they were originally derived empirically.

In the dark annuls of history ancient cultures did not start with a many-note (chromatic) scale and pick 5 sympathetic notes from that to form a pentatonic - they all started with one (root) note and selected notes that were harmonic with it, this resulted in pentatonic scales and they derived the many-note scales from them - the reason for this is that when you transpose a pentatonic you need new notes that are harmonic to the new root-note to produce the new scale - in the Western music you needed a total of 7 more "new" notes to complete a full-octave scale, which results in the 12-note chromatic scale. In other cultures the actual derivation of their "chromatic" scales (even those that are non-chromatic) were also produced from simple harmonic scales of 5 or more notes - where they differ is in tuning and temperament.

I started with a video, so I'll end with one that hammers home the inherent and natural universality of the pentatonic:

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

¹These harmonic beat notes can be heard when tuning a guitar - for example when we play an in-tune "E" on one string together with an "E" on the string we want to tune we will hear a low frequency beat note, this (theory tells us) is a third note that is produced when one note is mathematically added to (or subtracted from) another. We learnt this in school as a trigonometric identity:

sin(X) + sin (Y) = 2(sin((X+Y)÷2) × cos((X-Y)÷2))

When the two notes are identical the beat disappears ((X+Y)÷2=X and X-Y=0) but if the gap between them is sufficiently large then this third note could be a audible note that is on the same scale as the two notes that produced it. If this does occur then the third note is harmonious with the other two. 

²These smart buggers analysed what sounds harmonious and discovered that the new "harmonious" note can be divided by a multiple of two (i.e., 2, 4, 8, etc) and multiplied by another whole number. So if we play a note that is 5/4ths of C then the beat note will be 9/8ths of C [(1+5/4)/2=(9/4)/2=9/8)] - since all three notes can be expressed as fractions of C we can say that 5/4ths is a 5th harmonic of C and 9/8ths is a 9th harmonic of C - in the convention of the Western scale these three notes are C E and D respectively.

³ Chords are any pairing of notes that are harmonic, when more than two notes form the chord the relationship between them all relates back to the root-note. In the above example of C and E we can add a G to produce a C-major chord. This G is a 3rd harmonic of C and results in a beat note that is a 7th harmonic of C.


Edited by Dean - October 03 2014 at 03:09
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Direct Link To This Post Posted: September 21 2014 at 10:03
That McFerrin video was amazing.  And to confirm what he said, what all the audience vocalised is pretty much like the basic Carnatic scales we used to sing in high school music class...except, that is, for the part where he started harmonizing.

Edited by rogerthat - September 21 2014 at 10:04
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Direct Link To This Post Posted: September 27 2014 at 17:56
That's very interesting. Sorry I didn't get around to watching the videos until now, I've had an incredibly busy week.

I guess there's just something to the way the human brain is wired that means there's this certainty to what people across different cultures will find pleasing to the senses. Perhaps that might even be the reasons that it's possible to establish commonly accepted standards for art on any kind of shared scale, there's this .

There's actually quite a bit of theory written on how similar patterns go again in the visual arts, like the "golden ratio" which goes again in several artistic traditions independent from each other, or the Joseph Campbell/Christopher Brooker model of how the vast majority of literary narratives follow the same basic structures in quite the specific. Of course, those seem to be based on bigger generalizations than the universality of pentatonic scales.
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Direct Link To This Post Posted: September 27 2014 at 20:03
Originally posted by Toaster Mantis Toaster Mantis wrote:

That's very interesting. Sorry I didn't get around to watching the videos until now, I've had an incredibly busy week.

I guess there's just something to the way the human brain is wired that means there's this certainty to what people across different cultures will find pleasing to the senses. Perhaps that might even be the reasons that it's possible to establish commonly accepted standards for art on any kind of shared scale, there's this .
It's not cultural. Nor is it limited to species. 

Quote In his book Why Birds Sing, David Rothernberg claims that birds vocalize traditional scales used in human music, such as the pentatonic scale (e.g., Hermit Thrush) and diatonic scale (e.g., Wood Thrush), providing evidence that birdsong not only sounds like music, but is music in the human sense. This claim has been refuted by Sotorrio (Tone Spectra), who has shown that birds are not selecting scale tones from a myriad of tonal possibilities, but are filtering out and reinforcing the available set of overtones from the fundamental tones of their vocal cords.

Regardless of whether either or neither of them are right, the observation that some birds sing in harmonic intervals that are the same as those in human singing reinforces the mathematical analysis/explanation of harmony.
Originally posted by Toaster Mantis Toaster Mantis wrote:


There's actually quite a bit of theory written on how similar patterns go again in the visual arts, like the "golden ratio" which goes again in several artistic traditions independent from each other, or the Joseph Campbell/Christopher Brooker model of how the vast majority of literary narratives follow the same basic structures in quite the specific. Of course, those seem to be based on bigger generalizations than the universality of pentatonic scales.
The "golden ratio" is a consequence of binocular vision and is related to the aspect ratio of our central field of vision, which is that part of the scene that both eyes can see simultaneously. A person who is blind in one eye tends to prefer proportions that are squarer. There is no psychobabble magic to this, it is simply mathematics and human physiology.

Plot narratives follow a series of predictable "what do you think will happen next?" stages, given that the beginning and the end stages are fixed and a solution-stage can never come before the problem-stage, then there are a limited number of permutations of intermediate stages available. 
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Direct Link To This Post Posted: September 28 2014 at 01:55
There's actually an article about this biological/psychological basis of aesthetics in the latest issue of a Danish-language journal of philosophy I picked up earlier this week. It's published at the college I attend, and I've contributed several articles to it in the past. (the master's thesis I'm writing right now is kind of about the same subject, just from a more idealistic/metaphysical angle)

I haven't finished reading that article, but I could perhaps post a summary of it in this thread when I'm done. Is anyone interested?


Edited by Toaster Mantis - September 28 2014 at 02:49
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Direct Link To This Post Posted: September 28 2014 at 04:36
Originally posted by Dean Dean wrote:

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

¹These harmonic beat notes can be heard when tuning a guitar - for example when we play an in-tune "E" on one string together with an "E" on the string we want to tune we will hear a low frequency beat note, this (theory tells us) is a third note that is produced when one note is mathematically added to (or subtracted from) another. We learnt this in school as a trigonometric identity:

sin(X) + sin (Y) = 2(sin((X+Y)÷2) × cos((X-Y)÷2))

When the two notes are identical the beat disappears ((X+Y)÷2=X and X-Y=0) but if the gap between them is sufficiently large then this third note could be a audible note that is on the same scale as the two notes that produced it. If this does occur then the third note is harmonious with the other two. 

²These smart buggers analysed what sounds harmonious and discovered that the new "harmonious" note can be divided by a multiple of two (i.e., 2, 4, 8, etc) and multiplied by another whole number. So if we play a note that is 5/4ths of C then the beat note will be 9/8ths of C [(1+5/4)/2=(9/4)/2=9/8)] - since all three notes can be expressed as fractions of C we can say that 5/4ths is a 5th harmonic of C and 9/8ths is a 9th harmonic of C - in the convention of the Western scale these three notes are C E and D respectively.

³ Chords are any pairing of notes that are harmonic, when more than two notes form the chord the relationship between them all relates back to the root-note. In the above example of C and E we can add a G to produce a C-major chord. This G is a 3rd harmonic of C and results in a beat note that is a 7th harmonic of C.

Another interesting thing about harmonics and the pentatonic:

As can be seen in my "footnote" above, the Cmaj chord is constructed from three notes of the C major pentatonic scale, C E and G. 

The second and third notes are harmonically related to C. E is a 5th harmonic and G is a 3rd harmonic. The beat notes produced are also harmonic, being the 9th and the 7th harmonic of C respectively. What is immediately obvious here is that all these numbers are odd numbers, we have "C" the fundamental or 1st, then the 3rd, 5th, 7th and 9th harmonic. 

If we apply inverse-Fourier transform to these 5 tones (i.e., add them together) we get a single waveform whose fundamental frequency (i.e., the lowest tone you can hear) is "C", which is why the chord is a C chord and not an "E" or a "G". If we sum all the odd harmonics of a tone together in the right proportions the resulting waveform is a square wave, if we change the proportions we get a triangle wave.

This is not a coincidence and it goes way beyond being just a cool observation. 

The summation of odd harmonics sound good: all woodwind instruments produce tones that are rich in odd harmonics, all brass instruments produce tones that are rich in odd harmonics; and the pipe in a pipe organ resonates at odd harmonic intervals. An overdriven guitar, though it is distortion, sounds pleasing in its purest form is also rich in odd harmonics and even the plucked string of a guitar that isn't overdriven has stronger odd harmonics than even ones. Each piano note is made from the sound of three strings all tuned to the same pitch, these three strings are different gauges so the tension in each is different for the same pitch, this change in tension creates the overall tone of the piano note, and is rich in odd harmonics.

In electronic instruments we exploit this odd-harmonic relationship when creating new sounds: the fundamental tone generators (square and triangular) that the notes are synthesised from are all rich in odd harmonics and we apply filtering to subtract some of those harmonics to produce tones that sound good but are still rich in odd harmonics.

One characteristic of all these sounds is that they are symmetrical, that is they vibrate back and forth equally in both directions. We hear these vibrations because our ear converts the back and forth motion in the air as it hits our ear-drum into a back and forth motion of the fluid in the cochlea, which is then detected by the movement of hairs in the cell walls and converted to electrical signals that are sent to the brain. Sounds that move these hairs smoothly (i.e., symmetrically) sound good, those that jerk them around (i.e., asymetrically) do not.

Our physiology determines what sounds good, not psychology. 


Edited by Dean - October 03 2014 at 03:11
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Direct Link To This Post Posted: September 30 2014 at 12:09
Originally posted by Dean Dean wrote:

...
Our physiology determines what sounds good, not psychology. 
 
Ths whole thing ... excellent. Sometimes I wish I knew music better, since I probably would have a lot of fun doing/talking/playing stuff like this. My mind is a bit like that at times.
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Direct Link To This Post Posted: October 03 2014 at 05:10
Originally posted by Dean Dean wrote:

The summation of odd harmonics sound good: all woodwind instruments produce tones that are rich in odd harmonics, all brass instruments produce tones that are rich in odd harmonics; and the pipe in a pipe organ resonates at odd harmonic intervals.

Another cool observation: the common thing about the pipe organ and woodwind and brass instruments is that the sound is produced in a tube. To this list we can add whistles, recorders, pan pipes, didgeridoos, the Japanese shō and wind chimes.

Plus tu-bu-lar-bells... 

In each how the sound is generated is different, organs and woodwinds use a reed, brass uses the players lips and whistle use a fipple, but it is the tube turns them into a musical instrument. It does this because the sound resonates in the tube and the length and bore of the tube determines the fundamental resonant frequency, which we call the pitch of the note. In a wind-chime or tubular bell the sound is the resonance itself.

A simple tube can be made to resonate at different frequencies, for example in a Natural Horn (i.e., one without valves or slides) the player can produce different notes by changing their lip-tension, but they cannot produce just any frequency, they can only produce a certain number of notes, and those notes are all related to each other harmonically. This is because the tube can only resonate at whole multiples of the fundamental tone (1, 2, 3, 4, 5, 6, 7 etc.) and this is therefore a harmonic series. As we have seen, a pentatonic scale is also part of that same harmonic series so a simple tube can play notes that are pentatonic. The earliest known musical instrument is a tube with five holes in it... 


In effect the tube is a filter that only allows the tones in that harmonic series to be heard, another way of thinking of this is that the tube amplifies the harmonic tones and suppresses the non-harmonic ones. The raw sound produced in the mouth-piece by the players lips is full of different frequencies, both harmonic and non-harmonic, the tube filters out the non-harmonic ones and amplifies the harmonic ones. By changing lip-tension the player changes the range of raw frequencies they generate and the tube does the rest.

When a horn-player plays the fundamental (i.e. lowest) note their lips are also creating some higher tones, the tube filters off all those that are not harmonic and some of them that are harmonic, so the resulting sound you hear is the basic fundamental with lots of harmonics, this is called the timbre of the note. 

The timbre is determined by how well the tube can amplify each of the harmonics, this is called the formant. We can measure the timber of a note using spectral analysis (Fourier Transforms), this gives us the relative proportions (i.e., heights) of the peaks in the spectrum and by observing that these proportions remain more-or-less the same for every note produced and we call this "shape" of spectral peaks the formant.

The formant of a tube can be changed by altering its shape (cross section) and its diameter - simple circular cross-sections for example are better at amplifying odd harmonics whereas other shapes suppress some of these harmonics and/or allow more of the even-harmonics to be heard. The tube in a saxophone has a flattened cross-section and that boosts the even-harmonics... which is why a soprano sax does not sound the same (i.e. does not have the same timbre) as a clarinet - its formant is different.

Formant is key to how an instrument sounds, it is what produces the timbre of the note played. This affects all instruments and determine why all instruments playing the same note sound different. The shape of a violin body affects its formant, the material it is made from also affects its formant, this carries through into the body shape of a guitar and explains why a Les Paul has a different "tone" to a Telecaster.



Edited by Dean - October 03 2014 at 05:14
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Direct Link To This Post Posted: October 04 2014 at 13:02
Originally posted by HolyMoly HolyMoly wrote:

Originally posted by The-Bullet The-Bullet wrote:


          Rick Wakeman has said (paraphrasing)that you need to know the rules, before you can break them.
I remember Robert Fripp said something similar - that he spent half his life learning to play the guitar, and the other half unlearning everything he knew.  Something like that.
 
But that's like saying that you can not "find" new things, just because you don't know the scales! And that is not true, at all.
 
Even theater, showed that better than otherwise, with the new styles and writers, with different things, many of which were direct results of very advanced rehearsals and such. I'm not sure that musicians take that kind of exercise as seriously, but I know that many of them "practice" their parts quite a bit into the night away from the limelight. And that could/should have just as much "input" and "influence" as a rehearsal can with a director. Albeit the musician is not really in a position to be in the outside and inside at the same time. And I think this is the biggest issue with musicians!
 
You can't be in two places at once and nowhere at all at the same time. With thanks to the Firesign Theater
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Direct Link To This Post Posted: October 04 2014 at 13:08
Well SW admits he is not really educated, still, everyone worships him like there is no tomorrow. So I guess it doesn't matter to do a successful - even progressive styled - music.
As for me, music theory is a very useful thing as long as you employ it when necessary and forget it when the art demands.
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