Isotope van seaborgium
Die chemiese element seaborgium (Sg), met ’n atoommassa van ongeveer 263,1182 u, het geen stabiele isotope nie en word dus as ’n radioaktiewe element geklassifiseer. Die 12 isotope is onstabiel en het ’n relatief kort halfleeftyd (die meeste minder as ’n sekonde).
In die natuur kom geen seaborgium voor nie; alle isotope is sinteties in ’n laboratorium berei. Die eerste sintetiese isotoop was 263Sg, in 1974.
Die kortslewende isotoop van seaborgium is 258Sg, met ’n halfleeftyd van ongeveer 3,3 millisekondes. Die langslewende een is 271Sg, met ’n halfleeftyd van 2,4 minute.
Oorsig
wysigNuklied | Z (p) | N (n) | Isotopiese massa (u) | Halfleeftyd | Radioaktiewe verval | VP | Kernspin |
---|---|---|---|---|---|---|---|
Opwekkingsenergie | |||||||
258Sg | 106 | 152 | 258,11317(45) | 3,3(10) ms | SS | 0+ | |
259Sg | 106 | 153 | 259,11450(19) | 580(210) ms | α | 255Rf | 1/2+ |
260Sg | 106 | 154 | 260,11442(4) | 3,8(8) ms | SS (74%) | 0+ | |
α (26%) | 256Rf | ||||||
261Sg | 106 | 155 | 261,11612(14) | 230(60) ms | α (98,1%) | 257Rf | 7/2+ |
EV (1,3%) | 261Db | ||||||
SS (0,6%) | |||||||
261mSg | 9 µs | IO | 261Sg | ||||
262Sg | 106 | 156 | 262,1164(3) | 8(3) ms | SS | 0+ | |
263Sg | 106 | 157 | 263,11832(13) | 1,0(2) s | α | 259Rf | 9/2+ |
263mSg | 100(70) keV | 120 ms | α (87%) | 259Rf | 3/2+ | ||
SS (13%) | |||||||
264Sg | 106 | 158 | 264,11893(30) | 0,4 s | SS | 0+ | |
265aSg | 106 | 159 | 265,12111(6) | 8(3) s | α | 261Rf | |
265bSg | 16,2 s | α | 261Rf | ||||
266Sg | 106 | 160 | 266,12207(31) | 21(6) s | SS | 0+ | |
267Sg | 106 | 161 | 267,12443(29) | 19 ms | SS (83%) | ||
α (17%) | 263Rf | ||||||
269Sg | 106 | 163 | 269,12876(70) | 35(23) s | α | 265Rf | |
271Sg | 106 | 165 | 271,13347(70) | 2,4 min | α (67%) | 267Rf | |
SS (33%) |
Isotope per element
wysig1H | 2He | 3Li | 4Be | 5B | 6C | 7N | 8O | 9F | 10Ne | 11Na | 12Mg | 13Al | 14Si | 15P | 16S | 17Cl | 18Ar | 19K | |
20Ca | 21Sc | 22Ti | 23V | 24Cr | 25Mn | 26Fe | 27Co | 28Ni | 29Cu | 30Zn | 31Ga | 32Ge | 33As | 34Se | 35Br | 36Kr | 37Rb | 38Sr | 39Y |
40Zr | 41Nb | 42Mo | 43Tc | 44Ru | 45Rh | 46Pd | 47Ag | 48Cd | 49In | 50Sn | 51Sb | 52Te | 53I | 54Xe | 55Cs | 56Ba | 57La | 58Ce | 59Pr |
60Nd | 61Pm | 62Sm | 63Eu | 64Gd | 65Tb | 66Dy | 67Ho | 68Er | 69Tm | 70Yb | 71Lu | 72Hf | 73Ta | 74W | 75Re | 76Os | 77Ir | 78Pt | 79Au |
80Hg | 81Tl | 82Pb | 83Bi | 84Po | 85At | 86Rn | 87Fr | 88Ra | 89Ac | 90Th | 91Pa | 92U | 93Np | 94Pu | 95Am | 96Cm | 97Bk | 98Cf | 99Es |
100Fm | 101Md | 102No | 103Lr | 104Rf | 105Db | 106Sg | 107Bh | 108Hs | 109Mt | 110Ds | 111Rg | 112Cn | 113Nh | 114Fl | 115Mc | 116Lv | 117Ts | 118Og |
Bronne
wysig- R.B. Firestone, S.Y. Frank Chu & C.M. Baglin (1999) - Table of Isotopes (aanlyn weergawe van die CD-ROM)
- G. Audi, A.H. Wapstra, C. Thibault, J. Blachot & O. Bersillon (2003) - The NUBASE evaluation of nuclear and decay properties, Nuclear Physics A, 729, pp. 3-128
- J.R. de Laeter, J.K. Böhlke, P. De Bièvre, H. Hidaka, H.S. Peiser, K.J.R. Rosman & P.D.P. Taylor (2003) - Atomic weights of the elements. Review 2000 (IUPAC Technical Report), Pure and Applied Chemistry, 75 (6), pp. 683–800
- M.E. Wieser (2006) - Atomic weights of the elements 2005 (IUPAC Technical Report), Pure and Applied Chemistry, 78 (11), pp. 2051–2066
- David R. Lide (2004) - CRC Handbook of Chemistry and Physics (85ste uitg.), hoofstuk 11, CRC Press - ISBN 978-0849304859
- Hierdie artikel is vertaal uit die Nederlandse Wikipedia