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	<title>Translations:Potassium/19/en - Revision history</title>
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	<updated>2026-07-05T15:18:57Z</updated>
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		<title>FuzzyBot: Importing a new version from external source</title>
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		<updated>2024-04-22T01:13:20Z</updated>

		<summary type="html">&lt;p&gt;Importing a new version from external source&lt;/p&gt;
&lt;p&gt;&lt;b&gt;New page&lt;/b&gt;&lt;/p&gt;&lt;div&gt;There are 25 known [[isotope]]s of potassium, three of which occur naturally: {{chem|39|K}} (93.3%), {{chem|40|K}} (0.0117%), and {{chem|41|K}} (6.7%) (by mole fraction). Naturally occurring [[potassium-40|{{chem|40|K}}]] has a [[half-life]] of {{val|1.250e9}} years. It decays to stable [[Argon|{{chem|40|Ar}}]] by [[electron capture]] or [[positron emission]] (11.2%) or to stable [[Calcium|{{chem|40|Ca}}]] by [[beta decay]] (88.8%). The decay of {{chem|40|K}} to {{chem|40|Ar}} is the basis of a common method for dating rocks. The conventional [[Potassium-argon dating|K-Ar dating method]] depends on the assumption that the rocks contained no argon at the time of formation and that all the subsequent radiogenic argon ({{chem|40|Ar}}) was quantitatively retained. [[Mineral]]s are dated by measurement of the concentration of potassium and the amount of radiogenic {{chem|40|Ar}} that has accumulated. The minerals best suited for dating include [[biotite]], [[muscovite]], [[metamorphic]] [[hornblende]], and volcanic [[feldspar]]; [[Petrography|whole rock]] samples from volcanic flows and shallow [[Igneous rock|instrusives]] can also be dated if they are unaltered. Apart from dating, potassium isotopes have been used as [[radioactive tracer|tracers]] in studies of [[weathering]] and for [[nutrient cycling]] studies because potassium is a [[macronutrient (ecology)|macronutrient]] required for [[life]] on Earth.&lt;/div&gt;</summary>
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