About: Roentgenium Manipulation   Sponge Permalink

An Entity of Type : dbkwik:resource/xoykDFxJFBgF02W_HRnEzw==, within Data Space : 134.155.108.49:8890 associated with source dataset(s)

User can create, shape and manipulate Roentgenium, a chemical, extremely unstable and radioactive synthetic element (an element that can be created in a laboratory but is not found in nature); the most stable known isotope, has a half-life of 26 seconds. Roentgenium is predicted to be a very heavy noble metal, solid under normal conditions and to crystallize in the body-centered cubic structure, unlike its lighter congeners which crystallize in the face-centered cubic structure, due to its being expected to have different electron charge densities from them.

AttributesValues
rdf:type
rdfs:label
  • Roentgenium Manipulation
rdfs:comment
  • User can create, shape and manipulate Roentgenium, a chemical, extremely unstable and radioactive synthetic element (an element that can be created in a laboratory but is not found in nature); the most stable known isotope, has a half-life of 26 seconds. Roentgenium is predicted to be a very heavy noble metal, solid under normal conditions and to crystallize in the body-centered cubic structure, unlike its lighter congeners which crystallize in the face-centered cubic structure, due to its being expected to have different electron charge densities from them.
dcterms:subject
Row 1 info
  • control Roentgenium
Row 1 title
  • Power/Ability to:
Box Title
  • Roentgenium Manipulation
Caption
  • Joshua Phrygianos can control the element of Roentgenium.
dbkwik:powerlistin...iPageUsesTemplate
imagewidth
  • 200(xsd:integer)
BGCOLOR
  • Black
abstract
  • User can create, shape and manipulate Roentgenium, a chemical, extremely unstable and radioactive synthetic element (an element that can be created in a laboratory but is not found in nature); the most stable known isotope, has a half-life of 26 seconds. Roentgenium is predicted to be a very heavy noble metal, solid under normal conditions and to crystallize in the body-centered cubic structure, unlike its lighter congeners which crystallize in the face-centered cubic structure, due to its being expected to have different electron charge densities from them.
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