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Color-Elements:
Light-Energy = Life-Energy:
The electron transport chain enzymes of
the Krebs Cycle work with their co-enzymes, the B complex vitamins,
which are yellow in color, which means they absorb high energy,
high frequency photons. Nearly all biological energy on earth
is sunlight (yellow is the peak-visibility color in the solar
spectrum) captured into carbon bonds by electrons in the photosynthetic
process in magnesium-based chlorophyll, the plant's reductive
homolog of iron-based hemoglobin that supports the dominant oxidative
catabolism of animals and humans. (As you see in the chart, magnesium
has a yellow resonance, while iron resonates with yellow-green,
a slightly higher vibration.)
Each enzyme in the chain is like a small
waterfall with a hydroelectric power plant, drawing off a photon
of energy, carried by an electron, to be stabilized for later
use in the high energy phosphate bonds of ATP, the cellular battery.
Oxygen removes the spent electrons at the end of the transport
chain, and when it is deficient, the pressure backs up into the
system, resulting in higher energy electrons leaking out of the
mitochondrial 'furnace' and burning down the house as free radicals.
Mineral-Resonance:
The color resonance of peak biologically
active absorption and emission for various elements of the periodic
table were studied by Dinshah. The table below presents the minerals
corresponding to each color range. Mineral-Resonance with the
Vision-Spectrum-Light:
Mineral-Resonance with the Vision-Spectrum-Light:
Color: Red
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Cadmium |
Cd |
48 |
5 |
IIB |
Zn |
Anabolic |
Nucleus |
| Hydrogen |
H |
1 |
1 |
IA+VIIA |
Na, K, Cl |
Anabolic |
Mileau |
| Krypton |
Kr |
36 |
4 |
VIIIA |
He |
Balance |
Cell |
| Neon |
Ne |
10 |
2 |
VIIIA |
He |
Balance |
Organism |
Color: Orange
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Aluminum |
Al |
13 |
3 |
IIIA |
B |
Anabolic |
Matrix |
| Antimony |
Sb |
51 |
5 |
VA |
N, P |
Anabolic |
Nucleus |
| Arsenic |
As |
33 |
4 |
VA |
N, P |
Anabolic |
Cell |
| Boron |
B |
5 |
2 |
IIIA |
B |
Anabolic |
Organism |
| Calcium |
Ca |
20 |
4 |
IIA |
Mg, Ca |
Catabolic |
Cell |
| Copper |
Cu |
29 |
4 |
IB |
Cu |
Catabolic |
Cell |
| Helium |
He |
2 |
1 |
VIIIA |
He |
Balance |
Mileau |
| Selenium |
Se |
34 |
4 |
VIA |
O, S, Se |
Catabolic |
Cell |
| Silicon |
Si |
14 |
3 |
IVA |
C |
Catabolic |
Cell |
| Xenon |
X |
54 |
5 |
VIIIA |
He |
Balance |
Nucleus |
Color: Yellow
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Beryllium |
Be |
4 |
2 |
IIA |
Mg, Ca |
Catabolic |
Organism |
| Carbon |
C |
6 |
2 |
IVA |
C |
Catabolic |
Organism |
| Iridium |
Ir |
77 |
6 |
VIIIB |
Fe, Co |
Catabolic |
Organelle |
| Magnesium |
Mg |
12 |
3 |
IIA |
Mg, Ca |
Catabolic |
Matrix |
| Molybdenum |
Mo |
42 |
5 |
VIB |
Cr, Mo |
Anabolic |
Nucleus |
| Osmium |
Os |
76 |
6 |
VIIIB |
Fe, Co |
Anabolic |
Organelle |
| Palladium |
Pd |
46 |
5 |
VIIIB |
Fe, Co |
Anabolic |
Nucleus |
| Platinum |
Pt |
78 |
6 |
VIIIB |
Fe, Co |
Anabolic |
Organelle |
| Rhenium |
Re |
75 |
6 |
VIIB |
Mn |
Catabolic |
Organelle |
| Rhodium |
Rh |
45 |
5 |
VIIIB |
Fe, Co |
Catabolic |
Nucleus |
| Ruthenium |
Ru |
44 |
5 |
VIIIB |
Fe, Co |
Anabolic |
Nucleus |
| Sodium |
Na |
11 |
3 |
IA |
Na, K |
Anabolic |
Matrix |
| Tin |
Sn |
50 |
5 |
IVA |
C |
Catabolic |
Nucleus |
| Tungsten |
W |
74 |
6 |
VIB |
Cr |
Anabolic |
Organelle |
Color: Lemon (Yellow-Green)
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Cerium |
Ce |
58 |
6 |
IIIB |
Nd |
Anabolic |
Organelle |
| Germanium |
Ge |
32 |
4 |
IVA |
C |
Catabolic |
Cell |
| Gold |
Au |
79 |
6 |
IB |
Cu |
Catabolic |
Organelle |
| Hafnium |
Hf |
72 |
6 |
IVB |
Ti |
Anabolic |
Organelle |
| Iodine |
I |
53 |
5 |
VIIA |
H, Cl, I |
Anabolic |
Nucleus |
| Iron |
Fe |
26 |
4 |
VmB |
Fe, Co |
Anabolic |
Cell |
| Lanthanum |
La |
57 |
6 |
IIIB |
Nd |
Catabolic |
Organelle |
| Neodymium |
Nd |
60 |
6 |
IIIB |
Nd |
Anabolic |
Organelle |
| Phosphorus |
P |
15 |
3 |
VA |
N, P |
Anabolic |
Matrix |
| Praseodymium |
Pr |
59 |
6 |
IIIB |
Nd |
Catabolic |
Organelle |
| Protactinium |
Pa |
91 |
7 |
IIIB |
U |
Catabolic |
DNA |
| Samarium |
Sm |
62 |
6 |
IIIB |
Nd |
Anabolic |
Organelle |
| Scandium |
Sc |
21 |
4 |
IIIB |
U |
Catabolic |
Cell |
| Silver |
Ag |
47 |
5 |
IB |
Cu |
Catabolic |
Nucleus |
| Sulfur |
S |
16 |
3 |
VIA |
O, S, Se |
Catabolic |
Matrix |
| Thorium |
Th |
90 |
7 |
IIIB |
U |
Anabolic |
DNA |
| Titanium |
Ti |
22 |
4 |
IVB |
Ti |
Anabolic |
Cell |
| Uranium |
U |
92 |
7 |
IIIB |
U |
Anabolic |
DNA |
| Vanadium |
V |
23 |
4 |
VB |
V |
Catabolic |
Cell |
| Yttrium |
Y |
39 |
5 |
IIIB |
U |
Catabolic |
Nucleus |
| Zirconium |
Zr |
40 |
5 |
IVB |
Ti |
Anabolic |
Nucleus |
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Barium |
Ba |
56 |
6 |
IIA |
Mg, Ca |
Catabolic |
Organelle |
| Chlorine |
Cl |
17 |
3 |
VIIA |
H, Cl , I |
Anabolic |
Matrix |
| Nitrogen |
N |
7 |
2 |
VA |
N, P |
Anabolic |
Organism |
| Radium |
Ra |
88 |
7 |
IIA |
Mg, Ca |
Catabolic |
DNA |
| Tellurium |
Te |
52 |
5 |
VIA |
O, S, Se |
Catabolic |
Nucleus |
| Thallium |
Tl |
81 |
6 |
IIIA |
B |
Anabolic |
Organelle |
Color: Turquoise (Blue-Green)
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Chromium |
Cr |
24 |
4 |
VIB |
Cr |
Anabolic |
Cell |
| Fluorine |
F |
9 |
2 |
VIIA |
H, Cl, I |
Anabolic |
Organism |
| Mercury |
Hg |
80 |
6 |
IIB |
Zn |
Anabolic |
Organelle |
| Nickel |
Ni |
28 |
4 |
VIIIB |
Fe, Co |
Anabolic |
Cell |
| Niobium |
Nb |
41 |
5 |
VB |
V |
Catabolic |
Nucleus |
| Tantalum |
Ta |
73 |
6 |
VB |
V |
Catabolic |
Organelle |
| Zinc |
Zn |
30 |
4 |
IIB |
Zn |
Anabolic |
Cell |
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Cesium |
Cs |
55 |
6 |
IA |
Na, K |
Anabolic |
Organelle |
| Indium |
In |
49 |
5 |
IIIA |
B |
Anabolic |
Nucleus |
| Oxygen |
O |
8 |
2 |
VIA |
O, S, Se |
Catabolic |
Organism |
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Bismuth |
Bi |
83 |
6 |
VA |
N, P |
Anabolic |
Organelle |
| Lead |
Pb |
82 |
6 |
IVA |
C |
Catabolic |
Organelle |
| Polonium |
Po |
84 |
6 |
VIA |
O, S, Se |
Catabolic |
Organelle |
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Actinium |
Ac |
89 |
7 |
IIIB |
U |
Catabolic |
DNA |
| Cobalt |
Co |
27 |
4 |
VIIIB |
Fe, Co |
Catabolic |
Cell |
| Gallium |
Ga |
31 |
4 |
IIIA |
B |
Anabolic |
Cell |
| Radon |
Rn |
86 |
6 |
VIIIA |
He |
Balance |
Organelle |
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Bromine |
Br |
35 |
4 |
VIIA |
H, Cl, I |
Anabolic |
Cell |
| Europium |
Eu |
63 |
6 |
IIIB |
U |
Catabolic |
Organelle |
| Gadolinium |
Gd |
64 |
6 |
IIIB |
U |
Anabolic |
Organelle |
| Terbium |
Tb |
65 |
6 |
IIIB |
U |
Catabolic |
Organelle |
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Lithium |
Li |
3 |
2 |
IA |
Na, K |
Anabolic |
Organism |
| Potassium |
K |
19 |
4 |
IA |
Na, K |
Anabolic |
Cell |
| Rubidium |
Rb |
37 |
5 |
IA |
Na, K |
Anabolic |
Nucleus |
| Strontium |
Sr |
38 |
5 |
IIA |
Mg, Ca |
Catabolic |
Nucleus |
| Mineral |
Code |
# |
Period |
Group |
Relations |
Action |
Layer |
| Argon |
Ar |
18 |
3 |
VIIIA |
He |
Balance |
Matrix |
| Dysprosium |
Dy |
66 |
6 |
IIIB |
Nd |
Anabolic |
Organelle |
| Erbium |
Er |
68 |
6 |
IIIB |
Nd |
Anabolic |
Organelle |
| Holmium |
Ho |
67 |
6 |
IIIB |
Nd |
Catabolic |
Organelle |
| Lutetium |
Lu |
71 |
6 |
IIIB |
Nd |
Catabolic |
Organelle |
| Manganese |
Mn |
25 |
4 |
VIIB |
Mn |
Catabolic |
Cell |
| Thulium |
Tm |
69 |
6 |
IIIB |
Nd |
Catabolic |
Organelle |
| Ytterbium |
Yb |
70 |
6 |
IIIB |
Nd |
Anabolic |
Organelle |
__________________________
Summary: Location and Potential
Health Effects of Mineral Photon Receptors in the Biofield
| Color |
Biofield
|
Organism
|
Matrix
|
Cell-Membrane |
Cytosol |
Organelle
|
DNA
|
| Red |
H |
Ne |
|
Kr |
Cd |
|
|
| Orange |
He |
B |
Si, Al |
Ca, Cu, Se, As |
X, Sb |
|
|
| Yellow |
|
C, Be |
Mg, Na |
|
Mo, Pd, Sn, Rh,
Ru |
Pt, Ir, Os, Re,
W |
U, Th, Pa |
| Lemon |
|
|
P, S |
Fe, V, Ge,Ti, Sc |
I, Ag, Y, Zr |
Au, Hf |
|
| Green |
|
N |
Cl |
|
Te |
Ba, Tl |
Ra |
| Turquoise |
|
F |
|
Zn, Cr, Ni |
Nb |
Hg, Ta |
|
| Blue |
|
O |
|
|
In |
Cs |
|
| Indigo |
|
|
|
|
|
Pb, Bi, Po |
|
| Violet |
|
|
|
Co, Ga |
|
Rn |
Ac |
| Purple |
|
|
|
Br |
|
Eu-Tb |
|
| Magenta |
|
Li |
|
K |
Sr, Rb |
|
|
| Scarlet |
|
|
Ar |
Mn |
|
Dy-Lu |
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Key: Beneficial nutrient
minerals in bold; important toxic minerals in italic; frequently
toxic nutrient minerals in bold/italic. Eu-Tb and
Dy-Lu represent all the rare earth minerals of group IIIB
located on the Periodic Table of the Elements between the two minerals
identified.
There are minerals, which can
function in either way . This may be due to mineral ratios being
out of balance, e.g. Calcium and Magnesium within the same group.
It may be due to an excess quantity of a needed nutrient, such as
the increased oxidative breakdown of body tissues common with Iron
or Copper excess. It can also be due to the presence of a nutrient
mineral with a different valence (electron) state such as metallic
Zinc or toxic forms of Chromium, or even a different isotope (nucleus)
state, such as radioactive Iodine.
See the next section to find
the color and other information for a given element.
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