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physics:materials [2016/12/13 07:02] – [Meta-Materials] osakanone | physics:materials [2017/01/30 13:20] (current) – [Artificial materials] osakanone | ||
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==== Natural Materials ==== | ==== Natural Materials ==== | ||
Materials which are common or uncommon in natural amounts as created by natural processes of the universe itself. Natural materials are identical to those found in the periodic table normally. | Materials which are common or uncommon in natural amounts as created by natural processes of the universe itself. Natural materials are identical to those found in the periodic table normally. | ||
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+ | * Structol: A living metal, structol is cultured and modified to perform a wide variety of tasks on the molecular level. It is usually modified so it cannot reproduce ' | ||
==== Artificial materials ==== | ==== Artificial materials ==== | ||
Materials with properties not found naturally in nature, meta-materials must be especially engineered to achieve their function. | Materials with properties not found naturally in nature, meta-materials must be especially engineered to achieve their function. | ||
- | * Aeon infused glass: bonded to radioactive glass, aeon force-carrier particles can form circuitry able to carry out simple instructions and act similar to electrical circuits for entropy. In this sense, entropy-events caused by entropic-personhood can be refined though they cannot be created. | + | * No examples yet |
- | * Aeon infused metalloids: Similar to glass, aeon infused metals are also a circuit of sorts, though they change the behavior of the metal relating to its structure, hardness and atomic bonding energy limitations. In this way, materials which are highly resilient can be created - though like aeon-glass, they are dependant on a entropic-personhood to function. | + | |
==== Meta-Materials ==== | ==== Meta-Materials ==== | ||
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Some exotic materials are known to violate //known laws of physics// (requiring other models thus to predict their behavior for them to be useful). Others are theorized and have not yet been encountered, | Some exotic materials are known to violate //known laws of physics// (requiring other models thus to predict their behavior for them to be useful). Others are theorized and have not yet been encountered, | ||
- | * Sheoul: A form of Unbiseptium-128 isotope, sheoul is bonded in a hexakaidecagon 16-pair-bond with other Unbiseptium-128 in the same position across higher dimensional space to become a stable form of matter. Incredibly dense, its monopole induced isomorhic decay triggers unusual space-time behavior caused by the presence of weyl fermions. These fermions also allow for the function of an ultra-efficient type of computer that does not use electrons. | + | * Sheoul: A form of Unbiseptium-128 isotope, sheoul is bonded in a hexakaidecagon 16-pair-bond with other Unbiseptium-128 in the same position across higher dimensional space to become a stable form of matter. Incredibly dense, its monopole induced isomorhic decay triggers unusual space-time behavior caused by the presence of weyl fermions |