Rubidium-83

Isotopes of rubidium (₃₇Rb)
γ	–
β+	84Kr
γ	–
β−	84Sr
γ	–
Standard atomic weight Ar°(Rb)
	85.4678±0.0003; 85.468±0.001 (abridged);
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Rubidium (₃₇Rb) has 36 isotopes, with naturally occurring rubidium being composed of just two isotopes; ⁸⁵Rb (72.2%) and the radioactive ⁸⁷Rb (27.8%).

⁸⁷Rb has a half-life of 4.92×10¹⁰ years. It readily substitutes for potassium in minerals, and is therefore fairly widespread. ⁸⁷Rb has been used extensively in dating rocks; ⁸⁷Rb decays to stable strontium-87 by emission of a beta particle (an electron ejected from the nucleus). During fractional crystallization, Sr tends to become concentrated in plagioclase, leaving Rb in the liquid phase. Hence, the Rb/Sr ratio in residual magma may increase over time, resulting in rocks with increasing Rb/Sr ratios with increasing differentiation. The highest ratios (10 or higher) occur in pegmatites. If the initial amount of Sr is known or can be extrapolated, the age can be determined by measurement of the Rb and Sr concentrations and the ⁸⁷Sr/⁸⁶Sr ratio. The dates indicate the true age of the minerals only if the rocks have not been subsequently altered. See rubidium–strontium dating for a more detailed discussion.

Other than ⁸⁷Rb, the longest-lived radioisotopes are ⁸³Rb with a half-life of 86.2 days, ⁸⁴Rb with a half-life of 33.1 days, and ⁸⁶Rb with a half-life of 18.642 days. All other radioisotopes have half-lives less than a day.

⁸²Rb is used in some cardiac positron emission tomography scans to assess myocardial perfusion. It has a half-life of 1.273 minutes. It does not exist naturally, but can be made from the decay of ⁸²Sr.

List of isotopes

Nuclide ^{[n 1]}	Z	N	Isotopic mass (Da) ^{[n 2]}^{[n 3]}	Half-life ^{[n 4]}^{[n 5]}	Decay mode ^{[n 6]}	Daughter isotope ^{[n 7]}^{[n 8]}	Spin and parity ^{[n 9]}^{[n 5]}	Natural abundance (mole fraction)
Nuclide ^{[n 1]}	Excitation energy^{[n 5]}			Half-life ^{[n 4]}^{[n 5]}	Decay mode ^{[n 6]}	Daughter isotope ^{[n 7]}^{[n 8]}	Spin and parity ^{[n 9]}^{[n 5]}	Normal proportion	Range of variation
⁷¹Rb	37	34	70.96532(54)#		p	⁷⁰Kr	5/2−#
⁷²Rb	37	35	71.95908(54)#	<1.5 μs	p	⁷¹Kr	3+#
^72mRb	100(100)# keV			1# μs	p	⁷¹Kr	1−#
⁷³Rb	37	36	72.95056(16)#	<30 ns	p	⁷²Kr	3/2−#
⁷⁴Rb	37	37	73.944265(4)	64.76(3) ms	β⁺	⁷⁴Kr	(0+)
⁷⁵Rb	37	38	74.938570(8)	19.0(12) s	β⁺	⁷⁵Kr	(3/2−)
⁷⁶Rb	37	39	75.9350722(20)	36.5(6) s	β⁺	⁷⁶Kr	1(−)
⁷⁶Rb	37	39	75.9350722(20)	36.5(6) s	β⁺, α (3.8×10⁻⁷%)	⁷²Se	1(−)
^76mRb	316.93(8) keV			3.050(7) μs			(4+)
⁷⁷Rb	37	40	76.930408(8)	3.77(4) min	β⁺	⁷⁷Kr	3/2−
⁷⁸Rb	37	41	77.928141(8)	17.66(8) min	β⁺	⁷⁸Kr	0(+)
^78mRb	111.20(10) keV			5.74(5) min	β⁺ (90%)	⁷⁸Kr	4(−)
^78mRb	111.20(10) keV			5.74(5) min	IT (10%)	⁷⁸Rb	4(−)
⁷⁹Rb	37	42	78.923989(6)	22.9(5) min	β⁺	⁷⁹Kr	5/2+
⁸⁰Rb	37	43	79.922519(7)	33.4(7) s	β⁺	⁸⁰Kr	1+
^80mRb	494.4(5) keV			1.6(2) μs			6+
⁸¹Rb	37	44	80.918996(6)	4.570(4) h	β⁺	⁸¹Kr	3/2−
^81mRb	86.31(7) keV			30.5(3) min	IT (97.6%)	⁸¹Rb	9/2+
^81mRb	86.31(7) keV			30.5(3) min	β⁺ (2.4%)	⁸¹Kr	9/2+
⁸²Rb	37	45	81.9182086(30)	1.273(2) min	β⁺	⁸²Kr	1+
^82mRb	69.0(15) keV			6.472(5) h	β⁺ (99.67%)	⁸²Kr	5−
^82mRb	69.0(15) keV			6.472(5) h	IT (.33%)	⁸²Rb	5−
⁸³Rb	37	46	82.915110(6)	86.2(1) d	EC	⁸³Kr	5/2−
^83mRb	42.11(4) keV			7.8(7) ms	IT	⁸³Rb	9/2+
⁸⁴Rb	37	47	83.914385(3)	33.1(1) d	β⁺ (96.2%)	⁸⁴Kr	2−
⁸⁴Rb	37	47	83.914385(3)	33.1(1) d	β⁻ (3.8%)	⁸⁴Sr	2−
^84mRb	463.62(9) keV			20.26(4) min	IT (>99.9%)	⁸⁴Rb	6−
^84mRb	463.62(9) keV			20.26(4) min	β⁺ (<.1%)	⁸⁴Kr	6−
⁸⁵Rb^{[n 10]}	37	48	84.911789738(12)	Stable			5/2−	0.7217(2)
⁸⁶Rb	37	49	85.91116742(21)	18.642(18) d	β⁻ (99.9948%)	⁸⁶Sr	2−
⁸⁶Rb	37	49	85.91116742(21)	18.642(18) d	EC (.0052%)	⁸⁶Kr	2−
^86mRb	556.05(18) keV			1.017(3) min	IT	⁸⁶Rb	6−
⁸⁷Rb^{[n 11]}^{[n 12]}^{[n 10]}	37	50	86.909180527(13)	4.923(22)×10¹⁰ y	β⁻	⁸⁷Sr	3/2−	0.2783(2)
⁸⁸Rb	37	51	87.91131559(17)	17.773(11) min	β⁻	⁸⁸Sr	2−
⁸⁹Rb	37	52	88.912278(6)	15.15(12) min	β⁻	⁸⁹Sr	3/2−
⁹⁰Rb	37	53	89.914802(7)	158(5) s	β⁻	⁹⁰Sr	0−
^90mRb	106.90(3) keV			258(4) s	β⁻ (97.4%)	⁹⁰Sr	3−
^90mRb	106.90(3) keV			258(4) s	IT (2.6%)	⁹⁰ Rb	3−
⁹¹Rb	37	54	90.916537(9)	58.4(4) s	β⁻	⁹¹Sr	3/2(−)
⁹²Rb	37	55	91.919729(7)	4.492(20) s	β⁻ (99.98%)	⁹²Sr	0−
⁹²Rb	37	55	91.919729(7)	4.492(20) s	β⁻, n (.0107%)	⁹¹Sr	0−
⁹³Rb	37	56	92.922042(8)	5.84(2) s	β⁻ (98.65%)	⁹³Sr	5/2−
⁹³Rb	37	56	92.922042(8)	5.84(2) s	β⁻, n (1.35%)	⁹²Sr	5/2−
^93mRb	253.38(3) keV			57(15) μs			(3/2−,5/2−)
⁹⁴Rb	37	57	93.926405(9)	2.702(5) s	β⁻ (89.99%)	⁹⁴Sr Zdroj:https://en.wikipedia.org?pojem=Rubidium-83 Text je dostupný za podmienok Creative Commons Attribution/Share-Alike License 3.0 Unported; prípadne za ďalších podmienok. Podrobnejšie informácie nájdete na stránke Podmienky použitia. Navigácia: Veda > Analytika Antropológia Aplikované vedy Bibliometria Dejiny vedy Encyklopédie Filozofia vedy Forenzné vedy Humanitné vedy Knižničná veda Kryogenika Kryptológia Kulturológia Literárna veda Medzidisciplinárne oblasti Metódy kvantitatívnej analýzy Metavedy Metodika Metodológia vedy Náboženstvo a veda Náučná literatúra Podvody vo vede Popularizácia vedy Potravinárstvo Prírodné vedy Pseudoveda Scientometria Spoločenské vedy Teórie Teatrológia Technické vedy Technika Terminológia Umenie Výskum Veda Veda a technika podľa štátu Veda a technika podľa kontinentu Veda a technika podľa roka Veda v kozme Vedci Vedecká literatúra Vedecké databázy Vedecké experimenty Vedecké konferencie Vedecké metódy Vedecké ocenenia Vedecké organizácie Vedecké parky Vedeckí spisovatelia Vzdelávanie Záhady Príbuzné výrazy: Text je dostupný za podmienok Creative Commons Attribution/Share-Alike License 3.0 Unported; prípadne za ďalších podmienok. Podrobnejšie informácie nájdete na stránke Podmienky použitia. www.astronomia.sk \| www.biologia.sk \| www.botanika.sk \| www.dejiny.sk \| www.economy.sk \| www.elektrotechnika.sk \| www.estetika.sk \| www.farmakologia.sk \| www.filozofia.sk \| Fyzika \| www.futurologia.sk \| www.genetika.sk \| www.chemia.sk \| www.lingvistika.sk \| www.politologia.sk \| www.psychologia.sk \| www.sexuologia.sk \| www.sociologia.sk \| www.veda.sk I www.zoologia.sk

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