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| physics:materials [2016/12/13 06:55] – [Exotic 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. | ||
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| + | * No examples yet | ||
| ==== Meta-Materials ==== | ==== Meta-Materials ==== | ||
| Not technically matter at all, these ' | Not technically matter at all, these ' | ||
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| + | * Hard-light: An artificial atom with a nucleus made up of photons rather than protons and neutrons, hard-light is almost massless and can act as an electromagnetic circuit. It is often used to create shape-changing high-power antennae that would usually be crushed with their own sheer force exertion or programmable structures and is dependant on a projector to be maintained. Disconnected from a projector, hard-light decays relatively quickly. | ||
| ==== Exotic Materials ==== | ==== Exotic 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 |