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Size: 4576
Comment:
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Size: 5172
Comment:
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| Deletions are marked like this. | Additions are marked like this. |
| Line 6: | Line 6: |
| || || Lunar || Lunar || Earth || Semi || || || Highlnd || Lowlnd || Average || Use || || Oxygen || 446000 || 417000 || 466000 || || || Silicon || 210000 || 212000 || 277000 || + || || Aluminum || 133000 || 69700 || 81300 || + || |
The Lunar abundances roughly track Earth abundance. However, in many cases elements on Earth are concentrated by water chemistry, plate tectonics, the oxygen in the atmosphere, and weathering, over billions of years. In some cases, lunar element extraction will need mass spectrographic separation from undifferentiated rock, rather than ore location and refining. Bad news for some of the rarer materials. Beneficiated ore deposits are easy to locate on the moon, you find them under palm trees. :-( (Semi Use == Valence. Typical semiconductor materials are 4 elements, or 3/5, 2/6 compounds) || <<BR>>element || Lunar<<BR>>Highlands || Lunar<<BR>>Lowlands || Earth <<BR>>Average || Semi <<BR>> Use || || Oxygen || 446000 || 417000 || 466000 || + || || Silicon || 210000 || 212000 || 277000 || 4 || || Aluminum || 133000 || 69700 || 81300 || 3 || |
| Line 18: | Line 23: |
| || Phosphorus || 500 || 660 || 1050 || + || | || Phosphorus || 500 || 660 || 1050 || 5 || |
| Line 21: | Line 26: |
| || Boron || - || - || 950 || + || | || Boron || - || - || 950 || 3 || |
| Line 24: | Line 29: |
| || Sulfur || - || - || 350 || + || || Carbon || 100 || 100 || 200 || + || |
|| Sulfur || - || - || 350 || 6 || || Carbon || 100 || 100 || 200 || 4 || |
| Line 27: | Line 32: |
| || Tungsten || - || - || 160 || || | || Tungsten || - || - || 160 || + || |
| Line 33: | Line 38: |
| || Zinc || - || - || 75 || + || | || Zinc || - || - || 75 || 2 || |
| Line 39: | Line 44: |
| || Nitrogen || - || - || 25 || + || | || Nitrogen || - || - || 25 || 5 || |
| Line 43: | Line 48: |
| || Gallium || - || - || 18 || + || | || Gallium || - || - || 18 || 3 || |
| Line 57: | Line 62: |
| || Tin || - || - || 2.2 || + || | || Tin || - || - || 2.2 || - || |
| Line 60: | Line 65: |
| || Germanium || - || - || 1.8 || + || | || Germanium || - || - || 1.8 || 4 || |
| Line 62: | Line 67: |
| || Arsenic || - || - || 1.5 || + || | || Arsenic || - || - || 1.5 || 5 || |
| Line 65: | Line 70: |
| || Thallium || - || - || 0.6 || || | || Thallium || - || - || 0.6 || 3 || |
| Line 68: | Line 73: |
| || Antimony || - || - || 0.2 || + || | || Antimony || - || - || 0.2 || 5 || |
| Line 70: | Line 75: |
| || Cadmium || - || - || 0.11 || + || | || Cadmium || - || - || 0.11 || 2 || |
| Line 72: | Line 77: |
| || Mercury || - || - || 0.05 || || || Selenium || - || - || 0.05 || + || || Indium || - || - || 0.05 || + || || Bismuth || - || - || 0.05 || + || || Tellurium || - || - || 0.005 || + || |
|| Mercury || - || - || 0.05 || 2 || || Selenium || - || - || 0.05 || 6 || || Indium || - || - || 0.05 || 3 || || Bismuth || - || - || 0.05 || 6 || || Tellurium || - || - || 0.005 || 5 || |
Elemental Composition of Lunar Crust
(and Earth Crust)
various sources, not especially accurate
The Lunar abundances roughly track Earth abundance. However, in many cases elements on Earth are concentrated by water chemistry, plate tectonics, the oxygen in the atmosphere, and weathering, over billions of years. In some cases, lunar element extraction will need mass spectrographic separation from undifferentiated rock, rather than ore location and refining. Bad news for some of the rarer materials.
Beneficiated ore deposits are easy to locate on the moon, you find them under palm trees. 
(Semi Use == Valence. Typical semiconductor materials are 4 elements, or 3/5, 2/6 compounds)
|
Lunar |
Lunar |
Earth |
Semi |
Oxygen |
446000 |
417000 |
466000 |
+ |
Silicon |
210000 |
212000 |
277000 |
4 |
Aluminum |
133000 |
69700 |
81300 |
3 |
Iron |
48700 |
132000 |
50000 |
|
Calcium |
106800 |
78800 |
36300 |
|
Sodium |
3100 |
2900 |
28300 |
|
Potassium |
800 |
1100 |
25900 |
|
Magnesium |
45500 |
57600 |
20900 |
|
Titanium |
3100 |
31000 |
4400 |
|
Hydrogen |
56 |
54 |
1400 |
|
Phosphorus |
500 |
660 |
1050 |
5 |
Manganese |
675 |
1700 |
950 |
|
Fluorine |
- |
- |
950 |
|
Boron |
- |
- |
950 |
3 |
Barium |
- |
- |
500 |
|
Strontium |
- |
- |
370 |
|
Sulfur |
- |
- |
350 |
6 |
Carbon |
100 |
100 |
200 |
4 |
Zirconium |
- |
- |
190 |
|
Tungsten |
- |
- |
160 |
+ |
Vanadium |
- |
- |
160 |
|
Chlorine |
17 |
26 |
130 |
|
Chromium |
850 |
2600 |
100 |
|
Rubidium |
- |
- |
90 |
|
Nickel |
- |
- |
80 |
|
Zinc |
- |
- |
75 |
2 |
Cerium |
- |
- |
68 |
|
Copper |
- |
- |
50 |
+ |
Neodymium |
- |
- |
38 |
|
Lanthanum |
- |
- |
32 |
|
Yttrium |
- |
- |
30 |
|
Nitrogen |
- |
- |
25 |
5 |
Cobalt |
- |
- |
20 |
|
Lithium |
- |
- |
20 |
+ |
Niobium |
- |
- |
20 |
|
Gallium |
- |
- |
18 |
3 |
Scandium |
- |
- |
16 |
|
Lead |
- |
- |
14 |
|
Thorium |
- |
- |
12 |
|
Praseodymium |
- |
- |
9.5 |
|
Samarium |
- |
- |
7.9 |
|
Gadolinium |
- |
- |
7.7 |
|
Dysprosium |
- |
- |
6.0 |
|
Hafnium |
- |
- |
5.3 |
- |
Erbium |
- |
- |
3.8 |
|
Ytterbium |
- |
- |
3.3 |
|
Caesium |
- |
- |
3.0 |
|
Uranium |
- |
- |
2.7 |
|
Beryllium |
- |
- |
2.6 |
|
Tin |
- |
- |
2.2 |
- |
Europium |
- |
- |
2.1 |
|
Tantalum |
- |
- |
2.0 |
|
Germanium |
- |
- |
1.8 |
4 |
Molybdenum |
- |
- |
1.5 |
|
Arsenic |
- |
- |
1.5 |
5 |
Holmium |
- |
- |
1.4 |
|
Terbium |
- |
- |
1.1 |
|
Thallium |
- |
- |
0.6 |
3 |
Thulium |
- |
- |
0.5 |
|
Bromine |
- |
- |
0.4 |
|
Antimony |
- |
- |
0.2 |
5 |
Iodine |
- |
- |
0.14 |
|
Cadmium |
- |
- |
0.11 |
2 |
Silver |
- |
- |
0.07 |
|
Mercury |
- |
- |
0.05 |
2 |
Selenium |
- |
- |
0.05 |
6 |
Indium |
- |
- |
0.05 |
3 |
Bismuth |
- |
- |
0.05 |
6 |
Tellurium |
- |
- |
0.005 |
5 |
Gold |
- |
- |
0.001 |
|
Platinum |
- |
- |
0.001 |
|