Difference between revisions of "Nanometallurgy"
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| − | {{TechInfoBox|desc=Manipulate metals at the molecular level|military=1|tech=1|infra=0|colonize=3|preq=ProbMec|preq2=DocInit|enables=MatComp|enables2=QuanMac|ability=[[Deep Pressure Hull]], [[Carrier Deck]], [[Repair Bay]]|quote=Our scientists now use fractal theory to | + | {{TechInfoBox|desc=Manipulate metals at the molecular level|military=1|tech=1|infra=0|colonize=3|preq=ProbMec|preq2=DocInit|enables=MatComp|enables2=QuanMac|ability=[[Deep Pressure Hull]], [[Carrier Deck]], [[Repair Bay]]|quote=Our scientists now use fractal theory to “teach” the molecules to<br /> |
| − | ::: | + | assume, or resume, a particular form. Substances of amazing<br /> |
| − | ::: | + | strength become simple once the formulae are properly computed.<br /> |
| + | <br /> | ||
| + | :::—Col. Corazon Santiago,<br /> | ||
| + | ::: “The Council of War”}} | ||
Driven by the requirements of [[Doctrine: Initiative]] and the mathematical models behind [[Probability Mechanics]], [[Nanometallurgy]] techniques allow engineers to manipulate metals at the molecular level. | Driven by the requirements of [[Doctrine: Initiative]] and the mathematical models behind [[Probability Mechanics]], [[Nanometallurgy]] techniques allow engineers to manipulate metals at the molecular level. | ||
Revision as of 06:51, 13 March 2013
| Nanometallurgy | |
|---|---|
| Requires | Probability Mechanics, Doctrine: Initiative |
| Leads to | Matter Compression, Quantum Machinery |
| Ability | Deep Pressure Hull, Carrier Deck, Repair Bay |
Our scientists now use fractal theory to “teach” the molecules to
assume, or resume, a particular form. Substances of amazing
strength become simple once the formulae are properly computed.
- —Col. Corazon Santiago,
- “The Council of War”
- —Col. Corazon Santiago,
Driven by the requirements of Doctrine: Initiative and the mathematical models behind Probability Mechanics, Nanometallurgy techniques allow engineers to manipulate metals at the molecular level.
