Fig. 24
a quite definite meaning, namely, a 'point' represents a certain combination of hydrogens which is organized in a definite place and fulfills a definite function in one or another system. The concept 'point' cannot be replaced by the concept 'hydrogen' because 'hydrogen' means simply matter not limited in space. A point is always limited in space. At the same time, a 'point of the universe' can be designated by the
'If we now examine the first of these three octaves of radiations, that is, the octave Absolute-Sun, from the point of view of the law of three, we shall see that the note do will be the conductor of the active force, designated by the number 1, while the matter in which this force acts will be 'carbon' (C). The 'active' force which creates the note do in the Absolute represents the maximum frequency of vibrations or the greatest density of vibrations.
'The expression 'density of vibrations' corresponds to 'frequency of vibrations' and is used as the opposite to 'density of matter,' that is to say, the higher the 'density of matter' the lower the 'density 'of vibrations,' and, vice versa, the higher the 'density of vibrations' the lower the 'density of matter.' The greatest 'density of vibrations' is to be found in the finest, the most rarefied, matter. And in the densest matter possible vibrations slow down and come almost to a stop. Therefore the finest matter corresponds to the greatest 'density of vibrations.'
'The active force in the Absolute represents the maximum 'density of vibrations,' while the matter in which these vibrations proceed, that is, the first 'carbon,' represents the minimum density of matter.
'The note si in the Absolute will be the conductor of the passive force designated by the number 2. And the matter in which this passive force acts or in which sounds the note si will be 'oxygen' (0).
'The note la will be the conductor of the neutralizing force designated by the number 3, and the matter in which sounds the note la will be 'nitrogen' (N).
'In the order of the action of the forces they will stand in the succession 1, 2, 3, that is, corresponding to the matters 'carbon,' 'oxygen,' 'nitrogen.' But by density of matter they will stand in the order: 'carbon,' 'nitrogen,' 'oxygen,' that is, 1, 3, 2, because 'nitrogen' by retaining the number 3, that is to say, by being the conductor of the neutralizing force, stands by its density of matter between 'carbon' and 'oxygen,' and 'oxygen' appears as the densest of the three.
| H6 |
''Carbon,' 'oxygen,' and 'nitrogen' together will give matter of the fourth order, or 'hydrogen' (H), whose density we will designate by the number 6 (as the sum of 1, 2, 3), that is, H6:
do С 1 1 1 si О 2 3 2 la N 3 2 3
'C, O, N retain their numbers 1, 2, 3. 'Carbon' is always 1, 'oxygen' is always 2, and 'nitrogen' is always 3.
'But being more active than 'oxygen' 'nitrogen' enters as the active principle in the next triad and enters with the density of 2. In other words 'nitrogen' has a density of 2 and 'oxygen' a density of 3.
'So that the note la of the first triad is the conductor of the active force in the next triad which it enters with the density of 2. If 'carbon' enters with the density of 2, then 'oxygen' and 'nitrogen' must correspond to it in densities, repeating the ratio of densities of the first triad. In the first triad the ratio of densities was 1, 2, 3; in the second triad it should be 2, 4, 6, that is, 'carbon' of the second triad will possess the density of 2, 'nitrogen' a density of 4, 'oxygen' a density of 6. Taken together they will give 'hydrogen' 12 (H12):
'According to the same plan and order the following triad will be constructed: fa, 'shock,' mi. 'Carbon' which was 'nitrogen' in the second triad enters with a density of 4; the 'nitrogen' and 'oxygen' corresponding to it must have a density of 8 and 12; together they will give 'hydrogen' 24 (H24):
'The next triad mi, re, do, by the same plan and order will give 'hydrogen' 48 (H48):
'The triad do, si, la will give 'hydrogen' 96 (H96):
the triad la, sol, fa—'hydrogen' 192 (H192):
la С 32 32 32
sol О 64 96 64 H192
fa N 96 64 96
fa, 'shock,' mi-'hydrogen' 384 (H384):
64 64
192 128 H384
192 128 192
| H768 |
mi С 128 128 128 те О 256 384 256 do N 384 256 384
do С 256 256 256
si О 512 768 512 H1536
la N 768 512 768
| fa С 64 — О 128 mi N |
la, sol, fa—'hydrogen' 3072 (H3072):
| H3072 |
| 5x2 |
| 1536 1024 |
