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{{Infobox element}}; labels & notes: (Image) GENERAL PROPERTIES Name Symbol Pronunciation (data central) Alternative name(s) Allotropes Appearance <element> IN THE PERIODIC TABLE Periodic table Atomic number Standard atomic weight (data central) Element category (also header bg color) (sets header bg color, over 'series='-color) Group Period ...
Download QR code; Print/export Download as PDF; ... Radon 86 Rn [222] 7: Francium 87 Fr ... This periodic table is the prime form presented at this English wikipedia.
The template shows a periodic table with small cells. Each cell is wikilinked to the element's article, and the background color is the category as used (commonly) on this wiki. Each cell is wikilinked to the element's article, and the background color is the category as used (commonly) on this wiki.
Download QR code; Print/export Download as PDF; ... Radon 86 Rn [222] 7: ... This periodic table is the prime form presented at this English wikipedia.
No description. Template parameters [Edit template data] Parameter Description Type Status child child no description Unknown optional style style no description Unknown optional caption caption no description Unknown optional text text no description Unknown optional theme theme no description Unknown optional unknown unknown no description Unknown optional theme1 theme1 no description ...
When this number is >118, the template expands with periods 8 and above, adding the (predicted) elements with atomic number >119. Apart from this 118/119 switching, the parameter is not used as an atomic number. {{Periodic table (32 columns, micro) | number = 119}}
Radon compounds are chemical compounds formed by the element radon (Rn). Radon is a noble gas, i.e. a zero-valence element, and is chemically not very reactive. The 3.8-day half-life of radon-222 makes it useful in physical sciences as a natural tracer. Because radon is a gas under normal circumstances, and its decay-chain parents are not, it ...
The instability of 222 Rn, its most stable isotope, makes radon one of the rarest elements. Radon will be present on Earth for several billion more years despite its short half-life, because it is constantly being produced as a step in the decay chains of 238 U and 232 Th, both of which are abundant radioactive nuclides with half-lives of at ...