FIG. 97. TYPES OF CUBES

  THE members of this group are all cubes. They occur on the right hand swing of the pendulum. Their characteristic valence is three but they often show higher valencies. They all have six funnels, as in Cube Group A, but they show quite a different design in the arrangement of the Anu.

ATOMIC ANU ELEMENT CENTRE b FUNNELS
NO.

13 486 Aluminium - 6[AL9'+8AL9]
15 558 Phosphorus -- 6 [ (B5+3N6+ 3P9)+ (Li4+3Be4+3P9)]
31 1,260 Gallium - 6[(Ga7+3Ga15+3Ga20)+(B5+3Ga13
+3Ga18) ]
33 1,350 Arsenic - 6 [A1.9'+8(2N9+A1.9) ]
49 2,052 Indium - 3 [2 (In16+3Ga15+3Ga20)+(In14+
3Ga13 + 3Ga18) ]
3 [ (In16+3Ga15+3Ga20)+2(In14+
3Ga13+3Ga18) ]
51 2,169 Antimony - 3 [2Sb128+Sb113]
3 [Sb128+2Sb1131
64 2,880 Gadolinium Nel20 3 [2Sb128+ Sb113+ (Ca45+2N24) ]
3 [Sb128+2Sb113+(Ca45+Moll+
2N24) ]
66 2.979 Dysprosium Ne120 3 (256128+Sb113+(Ca45+2Mo11+
2N24) ]
3 [Sb128+2Sb113+(Ca45+2Mo11+
2N24) ]
81 3,678 Thallium 71.687 3 [2Sb128+Sb113+(Ca45+T1.44+
2N24) ]
3 [Sb128+2Sb1i3+(Ca45+T1.44+
2N24) ]
83 3,753 Bismuth T1.687 3 [2Sb128+Sb113+(Ca45+Mo46+
2N24) ]
3 [Sb128+256113+ ['Ti+88+(Ga20
+ 4Zr13) ~ ]
 


178 OCCULT CHEMISTRY


FIG. 98. ALUMINIUM. PHOSPHORUS

ATOMIC NO. is. ALUMINIUM

As the head of the group this element is, as usual, simple. There is no central globe. Fig. 98.
Funnels. The six funnels each contain eight similar ovoids, AL9, of three spheres of three Anu. Below these is an ovoid A1.9', again of three spheres, these being two duads and a pentad.

Aluminium = 6 (A1.9'+8 AL9)


  ATOMIC NO. is. PHOSPHORUS
 


Segment A contains at the bottom a group 135, then three N6, and then three spheres, P9, of nine Anu, making 50 Anu in all. Segment B also contains seven spheres, first a tetrad Li4, with its Anu at the corners of a tetrahedron, then three spheres of four Anu, Be4, and then the three spheres, P9, of nine Anu found in segment A. Segment B contains 43 Anu.

Phosphorus = 6 ( (B5-f-3N6-I-3P9) + (Li4-t-3Be4+3P9)]
6 funnels of 93 Anu = 558 Anu
 


 


180 OCCULT CHEMISTRY


FIG. 99. GALLIUM. ARSENIC

ATOMIC N0.31. GALLIUM
  Segment A. There is first a cone of 7 Anu, then three rather curiously formed groups of fifteen Anu, containing a P9 group and an N6. The three upper spheres, Ga20, in segment A are made up of two Be4 and two H3 in the form of a cross with an Ad6 in the centre. Segment B is somewhat similar to segment A. It contains first a B5 instead of the cone, then three groups Ga13, made up of P9 and $e4, and then a row of three spheres Ga18, each with four H3 in the form of a cross with N6 in the centre. Segment B contains 98 Anu.

Gallium --- 6 [( Ga7-1-3Ga15+3Ga20)-t-(B5+3Ga13-f-3Ga18)]
6 funnels of 210 Anu -- 1260 Anu
 


  ATOMIC NO. 33. ARSENIC
  Funnels. All six funnels are alike, and there are not two separate segments. Arsenic resembles Aluminium in having eight internal sub-divisions in the funnels. and the ovoids which form the top ring are identical with those in Aluminium save for the minute difference that in Aluminium the ovoids stand the reverse way from those in Arsenic. In Arsenic the top and bottom triplets in the top ovoids point downwards and the middle one upwards, in Aluminium the opposite is true. Arsenic inserts sixteen spheres, in two rows of eight, between the ovoids and the bottom globe AL9', which is similar to that in Aluminium. Each of these 16 spheres contain nine Anu, N9, so that Arsenic adds no less than 144 Anu to each funnel of Aluminium. The total in one Arsenic funnel is 225 Anu.

Arsenic --- 6 [A1.9'+8 (2N9-1-AL9)]
6 funnels of 225 Anu 1350 Anu
 


 


182 OCCULT CHEMISTRY


FIG. 100. INDIUM, ANTIMONY

ATOMIC NO 49. INDIUM
  Funnels. Each of the six funnels has three segments instead of two, and the segments are of two types. Three funnels contain two segments of type A and one of type B : the other three funnels contain two segments of type B and one of type A. Segment A is similar to segment A of Gallium, save in the substitution of a body of 16 Anu for the cone of 7 Anu, making a total of 121 Anu. Segment B is similar to the B segment of Gallium save that a body of 14 Anu. In14, is substituted for the B5 group, making a total of 107 Anu.


Indium = 3 [2 (In16+3Ga15+3Ga20)+(In14+3Ga13+3Ga18)]
+3 [ (In16+3Ga15+3Ga20) +2 (In14+3Ga13+3Ga18)]
3 funnels 2A+B = 1047 Anu
3 funnels A+ 2B = 1005 .,
Total = 2052 Anu
Number weight ~82 = 114.0

ATOMIC NO 51 ANTIMONY
 

Funnels. As in Indium there are two types of funnels and each funnel contains three segments, of types A and B.

Segment A consists of seven bodies. Nearest the centre we find a group containing two quintets and a septet L7. This group may be identified as Sb1T. Then comes a ring of three spheres containing 17 Anu, Sb17. In this sphere we find that the unit in the centre of the P9 group has been replaced by a triplet. Finally there is another ring of three globes each containing two triplets, two quartets and an Ad6. This is Ga20. This whole segment is Sb128. Segment B also contains seven bodies, first a group of three small spheres which is identical with In14, then a ring of three Sb15, and finally three Ga18, the whole making Sb113.

So in Antimony we find three funnels of Type A containing 2A + B segments and three funnels of Type B containing A+2B.

Antimony = 3 (2Sb128+Sb113)+3 (Sb128+2Sb113)
 


 
 

186 OCCULT CHEMISTRY

ATOMIC NO. 64. GADOLINIUM
 

This globe is made up of five interpenetrating tetrahedrons, each with an Ad6 at its apices. This group occurs first in Neon and is identified as Ne120.

Funnels. Gadolinium has two types of funnels, each of which contains four segments. Figs. 101, 102.

In three of the funnels we find that segments A, Sb128, and B, Sb113, are identical with those of Antimony. Segment C contains one Ca45 and two N24 spheres making up 93 Anu, Gd93. In this first set of funnels there are 2A+B+C segments.


containing Ca45, 2N24 and an additional group Moll, making up Gd104. Thus these
tunnels are made up of A+2B+D.

Gadolinium - Nel20+3[2Sbl28+Sbll3+Gd931
+3[Sb128-f-2Sb113+Gd104]
Central globe = I2(T Anu
3 funnels (2A+B+C) = 1386 _
3 funnels (A+2B-f-D) = 1374 _
Total = 2880 Anu
 


FIG. 103. GADOLINIUM CENTRE, Ne120
ATOMIC NO. 66 DYSPROSIUM
 


Central globe. The central globe is formed of the five interpenetrating tetrahedrons as in Gadolinium, Ne120. Fig. 104.
Funnels. The six funnels each contain four segments and these are of three types. Segment A is Sb128, Segment B is 56113, Segment C is Gd93 with the addition of two Moll groups, making Ds115. Figs. 105, 106.

Dysprosium =- Ne120+3[2Sb128+Sb113+Ds115]
+ 3[Sb128+ 2Sb113+ Ds115]
 
 
 

FIG. 104. .DYSPROSIUM CENTRE. Ne120


192 OCCULT CHEMISTRY

ATOMIC No. 81. THALLIUM
 

Central globe. There is here a central globe very similar to that in Cerium. It consists of a central group, Ce27, surrounded by 20 ovoids of 33 Anu, making 687 Anu in all. Fig. 109.

Funnels. Here again we find two types of funnels. Each funnel contains four segments made up of types A, B and C. Segment A is Sb128, segment B is Sb113, and Segment C contains Ca45, plus a sphere containing four Moll, T1.44, and then two N24, making 71.137. Figs. 107, 108.

Thallium - T1.687+3 [2Sb128-f-Sb113+T1.137]
+3 [Sb128+2Sb113+T1.137J
  ATOMIC NO. 83. BISMUTH
 

Central globe. The central globe is similar to that of Thallium, T1.687. Fig. 109. Funnels. Here again there are two types of funnels, each containing four segments, made up of types A, B, C and D. Segment A is Sb128, segment B is Sb113. Segment C is composed of Ca45, Mo46 and two N24 groups making 139 Anu. Segment D is part of the arm of Zirconium and contains 160 Anu. Three of the funnels contain 2A-f-B+C and three A+2B-f-D. Figs. 110, 111.

Bismuth == T1.687-f-3(256128-i-Sb113-f-(Ca45+Mo46-E-2N2f1)
-f-3[Sb128+2Sb113-f-_Ti88-f-(Ga20+4Zr13)1]
 


 
 



FIG. 109. THALLIUM AND BISMUTH CENTRE, TL687


 

196 OCCULT CHEMISTRY


  The funnels separate and the contents are liberated. The eight ovoids remain together in a sphere, so two bodies from each funnel are set free on the E4 level. Fig. 112.

On the E3 level the eight ovoids are set free and become spherical. forming bodies containing 9 Anu as shown in Fig. 112.

The globe from the funnel becomes a cross at the E3 stage, with one Anu from the duads in each arm in addition to its own. On the EZ level these form four duads and a unit. On the E4 level segment A sets free three P9 groups, three sestets, N6, and a quintet, B5. The P9 groups form a cube with one Anu at each corner and one in the centre attached to all the others. Fig. 112.

Similarly segment B, on the E4 level, liberates three P9, three quartets, Be4, and one quartet, LA.

On the E3 level the P9 groups each form two bodies. Five of the nine Anu hold together and place themselves on the angles of a square-based pyramid; the remaining four set themselves on the angles of a tetrahedron. The other groups form three sextets, and a quintet and three ring quartets and a pyramid as shown.

On the E2 level each P9 yields 4 duads and a unit, while the other groups form triads and duads as shown.


 
 

In Gallium the funnels are liberated and then set free their two containing segments, each of which forms a cylinder. Thus each funnel yields two bodies at the first stage of the E4 level. This is not shown in Fig. 113. At the second stage the segments liberate their contents, each giving seven groups. Fig. 113.

Segment A. On the E4 level this gives the three Ga20, three Ga15 and the small group of 7 Anu, Gal.

On the E3 level each Ga20 forms a sextet and two septets, the quartet and triad uniting. Each Ga15 forms a sextet and a cross with nine Anu having a duad in each arm and one Anu in the centre. The Gal forms a ring of six Anu with one in the centre.

Segment B. On the E4 level we find three Ga18, three Ga13 and a B5. On the E3 level each Ga18 gives three sextets, each Ga13 gives the cross of nine Anu as before and a ring quartet, and the B5 gives a quintet.
 
 

Arsenic resembles Aluminium in having eight ovoids in its funnel. These are set free as spheres on the E4 level, as is the globe of nine Anu, A1.9'. Thus we have nine spheres on this E4 level. Fig. 113.

On the E3 level the three groups of nine Anu from the ovoids are liberated and form groups having the same design as those in Aluminium. The globe AL9' gives a cross of nine Anu. On the E2 level triads, duads and units are formed at shown in Fig. 113.
200 OCCULT CHEMISTRY


  After the funnels of Indium separate they set free their segments and these in turn liberate their contents. Each segment gives seven bodies.


On the E3 level each Ga20 gives a sextet and two septets as before. The Ga15 also acts as in Gallium giving a sextet and a cross of nine Anu. The In16 gives a sextet and two quintets formed of a ring of four Anu with one in the centre (a squarebased pyramid).


On the E3 level each Ga18 gives three sextets and the Ga13 gives the cross of nine Anu and a ring quartet as in Gallium. The In14 gives a tetrahedron quartet and two quintets (square-based pyramids).


202 OCCULT CHF.IMSTRY


 
 

This element follows Gallium and Indium in its disintegration. There are three segments in each funnel and these segments are of two types. Each liberates seven bodies on the E4 level. Fig. 115.

Type A. On the E4 level we find three Ga20, three Sb17 and one Sb1T. On the E3 level each Ga20 gives a sextet and two septets. The Sb17 is like the Ga15 except that a triplet is substituted for the unit in the centre of the P9 group. This apparently throws the cross out of gear for we have a new figure of eleven Amu containing two quartets and a triplet. In addition to the body of eleven Anu each Sb17 liberates a sextet on the E3 level. The Sb1T gives a septet and two quintets of the square-based pyramid type.

On the E3 level each Ga18 gives three sextets, the Sb15 is similar to Ga13 except for the substitution of a triplet for the unit in the centre. Each Sb15 gives the group of eleven Anu as in the A type segment and a ring of four Anu. The In14 gives a tetrahedron and two quintets of the square-based pyramid form.


204 OCCULT CHEMISTRY

Fig. 116 shows the Cube Group B in a condensed form, from which the relationships in the group can be studied.