Prime harmonic series: Difference between revisions
Wikispaces>guest **Imported revision 193778538 - Original comment: ** |
Wikispaces>xenwolf **Imported revision 239298801 - Original comment: ** |
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<h2>IMPORTED REVISION FROM WIKISPACES</h2> | <h2>IMPORTED REVISION FROM WIKISPACES</h2> | ||
This is an imported revision from Wikispaces. The revision metadata is included below for reference:<br> | This is an imported revision from Wikispaces. The revision metadata is included below for reference:<br> | ||
: This revision was by author [[User: | : This revision was by author [[User:xenwolf|xenwolf]] and made on <tt>2011-06-29 07:34:21 UTC</tt>.<br> | ||
: The original revision id was <tt> | : The original revision id was <tt>239298801</tt>.<br> | ||
: The revision comment was: <tt></tt><br> | : The revision comment was: <tt></tt><br> | ||
The revision contents are below, presented both in the original Wikispaces Wikitext format, and in HTML exactly as Wikispaces rendered it.<br> | The revision contents are below, presented both in the original Wikispaces Wikitext format, and in HTML exactly as Wikispaces rendered it.<br> | ||
<h4>Original Wikitext content:</h4> | <h4>Original Wikitext content:</h4> | ||
<div style="width:100%; max-height:400pt; overflow:auto; background-color:#f8f9fa; border: 1px solid #eaecf0; padding:0em"><pre style="margin:0px;border:none;background:none;word-wrap:break-word;white-space: pre-wrap ! important" class="old-revision-html">The **acoustic prime harmonic series** is similar to the set of prime numbers, except that it begins with 1, and skips 2 because of octave equivalence : 1,3,5,7,11, | <div style="width:100%; max-height:400pt; overflow:auto; background-color:#f8f9fa; border: 1px solid #eaecf0; padding:0em"><pre style="margin:0px;border:none;background:none;word-wrap:break-word;white-space: pre-wrap ! important" class="old-revision-html">The **acoustic prime harmonic series** is similar to the set of [[prime numbers]], except that it begins with 1, and skips 2 because of [[octave equivalence]] : 1, 3, 5, 7, 11, 13 etc. | ||
If “new” pitch classes in the harmonic series are always odd numbers (even numbers are always octave duplications), the question is whether there is a useful acoustic/musical distinction between odd composites and primes. The test case is 9, which is the first odd numbered partial that is composite. | If “new” pitch classes in the harmonic series are always odd numbers (even numbers are always octave duplications), the question is whether there is a useful acoustic/musical distinction between odd composites and primes. The test case is 9, which is the first odd numbered partial that is composite. | ||
Suppose one is producing notes with harmonic spectra whose fundamentals are members of an harmonic series. Each note that is played also exhibits its own series of partials as its timbre. Some of these partials may coincide with member of the original harmonic series. For example, a note whose fundamental is the 3rd member of an harmonic series will have its own third partial coincident with the 9th partial of the original series. (9 = 3 | Suppose one is producing notes with harmonic spectra whose fundamentals are members of an harmonic series. Each note that is played also exhibits its own series of partials as its timbre. Some of these partials may coincide with member of the original harmonic series. For example, a note whose fundamental is the 3rd member of an harmonic series will have its own third partial coincident with the 9th partial of the original series. (9 = 3 × 3). It can be shown that all further odd composite members of the original series will show up in the spectra of notes built on lower partials (e.g. 15 = 5 × 3 = 3 × 5). On the other hand, prime numbered partials of the original series do not occur in notes built on lower partials. So, do composites exhibit a kind of redundancy? Does this result in some kind of qualitative/musical difference between primes and composites, and the notes built upon them? Is the derivative nature of the composite members audible? These are questions which may lie in the realm of subjectivity, but one thing is certain: 7 and 11 sound more unusual to our ears than 9 does. If odd limit as a measure of consonance was all that mattered, wouldn’t there be a continuum of some kind from 7 to 9 to 11? Instead, 9 sounds like it belongs with its 3-limit brothers 3/2 and 4/3 far more than it does with 7 or 11. | ||
Fortunately, it is not necessary to wait upon the answers to these admittedly very interesting questions before finding interesting uses for the prime harmonic series as material for scale generation. For example, through the magic of octave reduction, the first n members of the prime harmonic series can produce an n-atonic scale: | Fortunately, it is not necessary to wait upon the answers to these admittedly very interesting questions before finding interesting uses for the prime harmonic series as material for scale generation. For example, through the magic of octave reduction, the first n members of the prime harmonic series can produce an n-atonic scale: | ||
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<span style="font-size: 90%;">[[http://www.youtube.com/watch?v=tP9iafbjlOw|"Tarkovsky's Mirror" for prime guitar by Dante Rosati]]</span></pre></div> | <span style="font-size: 90%;">[[http://www.youtube.com/watch?v=tP9iafbjlOw|"Tarkovsky's Mirror" for prime guitar by Dante Rosati]]</span></pre></div> | ||
<h4>Original HTML content:</h4> | <h4>Original HTML content:</h4> | ||
<div style="width:100%; max-height:400pt; overflow:auto; background-color:#f8f9fa; border: 1px solid #eaecf0; padding:0em"><pre style="margin:0px;border:none;background:none;word-wrap:break-word;width:200%;white-space: pre-wrap ! important" class="old-revision-html"><html><head><title>The Prime Harmonic Series</title></head><body>The <strong>acoustic prime harmonic series</strong> is similar to the set of prime numbers, except that it begins with 1, and skips 2 because of octave equivalence : 1,3,5,7,11, | <div style="width:100%; max-height:400pt; overflow:auto; background-color:#f8f9fa; border: 1px solid #eaecf0; padding:0em"><pre style="margin:0px;border:none;background:none;word-wrap:break-word;width:200%;white-space: pre-wrap ! important" class="old-revision-html"><html><head><title>The Prime Harmonic Series</title></head><body>The <strong>acoustic prime harmonic series</strong> is similar to the set of <a class="wiki_link" href="/prime%20numbers">prime numbers</a>, except that it begins with 1, and skips 2 because of <a class="wiki_link" href="/octave%20equivalence">octave equivalence</a> : 1, 3, 5, 7, 11, 13 etc.<br /> | ||
If “new” pitch classes in the harmonic series are always odd numbers (even numbers are always octave duplications), the question is whether there is a useful acoustic/musical distinction between odd composites and primes. The test case is 9, which is the first odd numbered partial that is composite.<br /> | If “new” pitch classes in the harmonic series are always odd numbers (even numbers are always octave duplications), the question is whether there is a useful acoustic/musical distinction between odd composites and primes. The test case is 9, which is the first odd numbered partial that is composite.<br /> | ||
<br /> | <br /> | ||
Suppose one is producing notes with harmonic spectra whose fundamentals are members of an harmonic series. Each note that is played also exhibits its own series of partials as its timbre. Some of these partials may coincide with member of the original harmonic series. For example, a note whose fundamental is the 3rd member of an harmonic series will have its own third partial coincident with the 9th partial of the original series. (9 = 3 | Suppose one is producing notes with harmonic spectra whose fundamentals are members of an harmonic series. Each note that is played also exhibits its own series of partials as its timbre. Some of these partials may coincide with member of the original harmonic series. For example, a note whose fundamental is the 3rd member of an harmonic series will have its own third partial coincident with the 9th partial of the original series. (9 = 3 × 3). It can be shown that all further odd composite members of the original series will show up in the spectra of notes built on lower partials (e.g. 15 = 5 × 3 = 3 × 5). On the other hand, prime numbered partials of the original series do not occur in notes built on lower partials. So, do composites exhibit a kind of redundancy? Does this result in some kind of qualitative/musical difference between primes and composites, and the notes built upon them? Is the derivative nature of the composite members audible? These are questions which may lie in the realm of subjectivity, but one thing is certain: 7 and 11 sound more unusual to our ears than 9 does. If odd limit as a measure of consonance was all that mattered, wouldn’t there be a continuum of some kind from 7 to 9 to 11? Instead, 9 sounds like it belongs with its 3-limit brothers 3/2 and 4/3 far more than it does with 7 or 11.<br /> | ||
<br /> | <br /> | ||
Fortunately, it is not necessary to wait upon the answers to these admittedly very interesting questions before finding interesting uses for the prime harmonic series as material for scale generation. For example, through the magic of octave reduction, the first n members of the prime harmonic series can produce an n-atonic scale:<br /> | Fortunately, it is not necessary to wait upon the answers to these admittedly very interesting questions before finding interesting uses for the prime harmonic series as material for scale generation. For example, through the magic of octave reduction, the first n members of the prime harmonic series can produce an n-atonic scale:<br /> | ||