Sound, music, light and the universe.

John Sayers

through the wonders of Amazon I've managed to get a copy of "The Third Ear" by Joachim-Ernst Berendt. ( I lent my original version and as usual it never came back ) It's an amazing book and discusses the perception of the ear. It also discusses sound and it's influences. The foreword is written by Yehudi Menuhin.

Here are some figures for you to contemplate.

*The Day tone is the note of a day of 24 hours, or more precicely 23hrs, 56mins, 4secs or 86,164 seconds. Frequency = 1/Time….. therefore the day tone = 0.000,001,160,576hz..

Octavised upwards by 24 octaves produces a note of 194.71Hz. (G)

Octavising upwards another 40 octaves we reach a frequency of 427 billion Hz. Or 702 nanometers, the luminous orange/red worn by Sanyassins.

If we pass through one more octave we reach the 66th octave and the precise resonance frequency of DNA.

The Earth or Sun Tone can be calculated on the basis of the tropic year that lasts 365.2422 days, 525,948 minutes and 46 sec. Or 31,556,926 seconds.

Octavised upwards by 32 octaves produces a frequency of 136.102Hz. This corresponds to the Indian Sa or Sadja note which the Indian master teaches his pupil as the pitch note and has not changed for thousands of years.

Hans Cousto in Munich induced geraniums to bloom in winter by holding a tuning fork producing the sun tone near the flower pots for just a few minutes per day.

The moon tone is the period between two equivalent lunar phases i.e. full moon to full moon and lasts 29days, 12hours, 44 mins, 2.8secs. or 2,551,442.8 secs. Transposed upwards by 30 octaves produces a note of 420.837Hz. (G#) In the Baroque era Mozart’s tuning fork vibrated at 421.6hz, Handels’ 422.5hz and Bach’s 415.5hz while concert pitch was 422hz in Berlin at mid-eighteenth century and 423hz at Paris in 1810. Only after 1820 did the rise in concert pitch get underway.*

Here's an article on pitch and tuning from the Schiller Institute who have been campaigning for a universal drop in pitch.

*A Brief History of Musical Tuning
by Jonathan Tennenbaum
Reprinted from FIDELIO Magazine,
Volume I, No. 1, Winter 1991-92

The first explicit reference to the tuning of middle C at 256 oscillations per second was probably made by a contemporary of J.S. Bach. It was at that time that precise technical methods developed making it possible to determine the exact pitch of a given note in cycles per second. The first person said to have accomplished this was Joseph Sauveur (1653-1716), called the father of musical acoustics. He measured the pitches of organ pipes and vibrating strings, and defined the ut'' (nowadays known as do'') of the musical scale at 256 cycles per second.

J.S. Bach, as is well known, was an expert in organ construction and master of acoustics, and was in constant contact with instrument builders, scientists, and musicians all over Europe. So we can safely assume that he was familiar with Sauveur's work. In Beethoven's time, the leading acoustician was Ernst Chladni (1756-1827), whose textbook on the theory of music explicitly defined C=256 as the scientific tuning.Up through the middle of the present century, C=256 was widely recognized as the standard scientific'' or physical'' pitch (see Figures 13 and 14).

In fact, A=440 has never been the international standard pitch, and the first international conference to impose A=440, which failed, was organized by Nazi Propaganda Minister Joseph Goebbels in 1939. Throughout the seventeeth, eighteenth, and nineteenth centuries, and in fact into the 1940s, all standard U.S. and European text books on physics, sound, and music took as a given the physical pitch'' or scientific pitch'' of C=256, including Helmholtz's own texts themselves. Figures 13 and 14 show pages from two standard modern American textbooks, a 1931 standard phonetics text, and the official 1944 physics manual of the U.S. War Department, which begin with the standard definition of musical pitch as C=256.[1]

Regarding composers, all ``early music'' scholars agree that Mozart tuned at precisely at C=256, as his A was in the range of A=427-430. Christopher Hogwood, Roger Norrington, and dozens of other directors of orginal-instrument orchestras' established the practice during the 1980's of recording all Mozart works at precisely A=430, as well as most of Beethoven's symphonies and piano concertos. Hogwood, Norrington, and others have stated in dozens of interviews and record jackets, the pragmatic reason: German instruments of the period 1780-1827, and even replicas of those instruments, can only be tuned at A=430.

The demand by Czar Alexander, at the 1815 Congress of Vienna, for a ``brighter'' sound, began the demand for a higher pitch from all the crowned heads of Europe. While Cclassical musicians resisted, the Romantic school, led by Friedrich Liszt and his son-in law Richard Wagner, championed the higher pitch during the 1830's and 1840's. Wagner even had the bassoon and many other instruments redesigned so as to be able to play only at A=440 and above. By 1850, chaos reigned, with major European theatres at pitches varying from A=420 to A=460, and even higher at Venice.

In the late 1850's, the French government, under the influence of a committee of composers led by bel canto proponent Giacomo Rossini, called for the first standardization of the pitch in modern times. France consequently passed a law in 1859 establishing A at 435, the lowest of the ranges of pitches (from A=434 to A=456) then in common use in France, and the highest possible pitch at which the soprano register shifts may be maintained close to their disposition at C=256. It was this French A to which Verdi later referred, in objecting to higher tunings then prevalent in Italy, under which circumstance ``we call A in Rome, what is B-flat in Paris.''

Following Verdi's 1884 efforts to insitutitionalize A=432 in Italy, a British-dominated conference in Vienna in 1885 ruled that no such pitch could be standardized. The French, the New York Metropolitan Opera, and many theatres in Europe and the U.S., continued to maintain their A at 432-435, until World War II.

The first effort to institutionalize A=440 in fact was a conference organized by Joseph Goebbels in 1939, who had standardized A=440 as the official German pitch. Professor Robert Dussaut of the National Conservatory of Paris told the French press that: ``By September 1938, the Accoustic Committee of Radio Berlin requested the British Standard Association to organize a congress in London to adopt internationally the German Radio tuning of 440 periods. This congress did in fact occur in London, a very short time before the war, in May-June 1939. No French composer was invited. The decision to raise the pitch was thus taken without consulting French musicians, and against their will.'' The Anglo-Nazi agreement, given the outbreak of war, did not last, so that still A=440 did not stick as a standard pitch.

A second congress in London of the International Standardizing Organization met in October 1953, to again attempt to impose A=440 internationally. This conference passed such a resolution; again no Continental musicians who opposed the rise in pitch were invited, and the resolution was widely ignored. Professor Dussaut of the Paris Conservatory wrote that British instrument makers catering to the U.S. jazz trade, which played at A=440 and above, had demanded the higher pitch, ``and it is shocking to me that our orchestra members and singers should thus be dependent upon jazz players.'' A referendum by Professor Dussaut of 23,000 French musicians voted overwhelmingly for A=432.

As recently as 1971, the European Community passed a recommendation calling for the still non-existent international pitch standard. The action was reported in The Pitch Game,'' Time magazine, Aug. 9, 1971. The article states that A=440, this supposedly international standard, is widely ignored.'' Lower tuning is common, including in Moscow, Time reported, where orchestras revel in a plushy, warm tone achieved by a larynx-relaxing A=435 cycles,'' and at a performance in London a few years ago,'' British church organs were still tuned a half-tone lower, about A=425, than the visiting Vienna Philharmonic, at A=450.

1. Charles E. Dull, {Physics Course 2: Heat, Sound, and Light: Education Manual 402} (New York: Henry Holt, April 1944).*

cheers
john