Now the third chord of the tetrachord of Philolaus, that’s to say G (sol), is the fifth of the eighth, and with the process now seen to extend the tetrachord of the scale we obtained only seven chords from the top chord to the second tetrachord (which begins with G sol) which is the fifth respects to the new octave which begins with G (sol); and so continuing with the development of this law of fifth it will determine all the seven notes. From the first three chords of the tetrachord of Philolaus, whose lengths are determined by the numbers of Tetractys and the Babylon proportion, by the law of the fifth we will determine the seven chords. They are the odd prime numbers three, five, seven contained within the decade, corresponding to the age of initiation of Blue Masonry, and for the frequency range the seventh chord is also the latest and from that perfection of the number seven.

The seven chords, written in order so that each chord is followed by its successive fifth

C G D A E B F C (do sol re la mi si fa do)

and, if one divides a circle into seven equal parts and at the points of division are writing the seven notes in that order and then the three points are counted from three to three from G (do), one neatly gets the seven notes in the order of the musical scale; vice versa the seven notes written in the order of the musical scale in correspondence of the seven dividing points of the circumference and counting the points from five to five from C (do) , are neatly obtained the seven notes in the fifth order.

In the Pythagorean scale the intervals, or proportions of the notes of the fundamental octave unit are expressed by

and it is easy to recognize that the way in which it is proceeded to the extension of the tetrachord all these reports contain to the numerator and the denominator only powers of two and three. The maximum power of two is the 128 = 2 to seventh, and the maximum power of the three is 243 = 35. The same thing happens considering the relationship between any two notes of the octave. So while in the tetrachord appear only reports of the numbers 1, 2, 3, 4 of Tetractys, in the eptachord (five chords) displays only the ratios of the powers of the numbers of Tetractys, namely the first nine powers of two and the first six powers of the three, addition to the unit, that’s to say the numbers

1, 2, 4, 8, 16, 32, 64, 128, 256, 512

1, 3, 9, 27, 81, 243, 729

whose total sum is 2116 = 23 to the second.

Even in this way we obtain in the extension of the tetrachord the 5 and 7, because the two will appear at the seventh and not later and the three will appear at the fifth and no later. than. The natural scale differs from Pythagorean just because the length of the chords specified by the law of the fifth will replace the approximate values expressed by simple ratios and has:

C D E F G A B C (do re mi fa sol la si do)

In the Pythagorean scale the five “intervals” or tone between the G (do) and the D (re), and between the D (re) and the E (mi), between the F (fa) and G (sol), between G (sol) and the A (la) and between the A (la) and the B (si) are exactly equal, and in the natural scale are quite equal; and in both scales these intervals are greater than the two remaining intervals between the E (mi) and the F (fa) and between the B (si) and the C (do). To overcome this drawback the Pythagoreans inserted between the intervals other five chords (which correspond to the piano black keys) so as to obtain twelve chords each of which differs from the previous of an interval substantially constant and equal to a semitone. In the tempered scale, introduced by Bach, these intervals are all absolutely equal and the lengths of the twelve chords form a geometric progression, but intervals are no longer expressed by simple ratios of numbers, that’s to say rational numbers, but irrational. In the case of stringed instruments, in which the strings length is determined by the player’s fingers and ear, Blaserna the physicist says that the great violin virtuosos tend to prefer the Pythagorean scale to the natural one, but is a bit ‘difficult to establish the correctness of this statement since only a very sensitive ear can tell the difference. Meanwhile we note that the development for the fifth tetrachord has led us to number seven and, in connection, even to number twelve.

As a curiosity in the end we observe that, if at the seven points of the circle division, we write the names of the five planets known to the ancients and that of the Sun and the Moon in the order of their distance from earth that is: Moon, Mercury, Venus, Sun, Mars, Jupiter, Saturn, and we proceed as we did for the chords of the range going from the first point (Sun) to fifth (Moon), and from this to the fifth (Mars) and so on, we obtain the days of the week in their order: Sunday (Sun-day), Monday, Tuesday, Wednesday, Thursday, Friday, Saturday (Satur-day). Removed the name of Sunday, which is Christian, and the Jewish Sabbath, these are the ancient pagan names of the days of the week still in use in almost every language and replaced with some exceptions, such as Russian and Portuguese. Starting the week with Sunday the fifth day is sacred to Jupiter and the sixth is the day of Venus, and we find the consecration of six to Aphrodite.

We observe, however, that the greek calendar did not know the week and that only some later Pythagoreans and some Christians may have resorted to these considerations or considerations equivalent to establish the consecration of the week days and the correspondence between the planets and the days of the week. We note finally that the week of our calendar is a conventional division, and that the planets are not seven, so that we can not establish the correspondence between the seven notes, the seven planets, seven days of the week etc.. The only septenary which has a natural basis is the Pythagorean musical scale, and the distinction of the seven colors made by of Newton, apparently by analogy between optics and acoustics, is conventional, because from an iris color we change to another through some thousand shades and not through a net gap like a musical note to another. A septenary law instead appears in the table of chemical elements of Mendelejev.

We note in the end that the numbers three, five and seven can also be obtained very simply by the Tetractys numbers, considering the ratio of 1 : 2, 2: 3, 3 : 4 which express the lengths of the last three strings of the tetrachord of Philolaus, and summing numerator and denominator. It is obtained in this way: 1 + 2 = 3, 2 + 3 = 5, 3 + 4 = 7.

In the Pythagorean literature, at least in that little which has come down to us, one does not find anything that confirms or excludes the path we’ve set out to reach the number five and number seven, starting from the tetrachord, although this path present similarities with the one held by Pythagoreans in order to divide the circumference into five and ten equal parts.

Countinue at The Pythagorean Acoustic: Geometry & Music of Sirens .

- See A. Reghini, Per la restituzione della geometria pitagorica, Rome 1935;
- See G. LORIA, etc. Le scienze esatte, 36;

The lyre and harp (from which guitar) that differs slightly, were the instrument of Orpheus, of Amphion, Apollo. Amphion, with the sound of the lyre, is said to have built the walls of Thebes, with the sound of the lyre Orpheus exerted an action on animals and plants; - Tacchinardi, Acustica musicale, Milan, Hoepli, 1912, p. 175;

See A. Meillet, Aperçu d’une histoire de la langue grecque. Paris, 1912, p.. 22, see also page 296; - A. Reghini, Per la restituzione della geometria pitagorica;