Table of Isotopes 45-60

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Z=45-60 Part 1 of 3 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 2 8 18 16 1 2 8 18 18 0 2 8 18 18 1 2 8 18 18 2 2 8 18 18 3 2 8 18 18 4 2 8 18 18 5 2 8 18 18 6 2 8 18 18 7 2 8 18 18 8 2 8 18 18 8 1 2 8 18 18 8 2 2 8 18 18 9 2 2 8 18 19 9 2 2 8 18 21 8 2 2 8 18 22 8 2 Nd +3 1021° 3074° Nd126 Nd127 1.8 s ECp Nd128 4s 0+ ECp Nd129 7s (5/2+) ECp Nd130 28 s 0+ EC Nd131 27 s (5/2) ECp Nd132 1.75 m 0+ EC Nd133 70 s (7/2+) EC Nd134 8.5 m 0+ EC Nd135 12.4 m 9/2(-) EC Nd136 50.65 m 0+ EC Nd137 38.5 m 1/2+ EC Nd138 5.04 h 0+ EC Nd139 29.7 m 3/2+ EC Nd140 3.37 d 0+ EC Nd141 2.49 h 3/2+ EC Nd142 0+ 27.13 Nd143 7/212.18 144.24 2.70×10 -9% * * * * * * α 2.29E+15 y 0+ 23.80 Nd144 Nd145 7/28.30 Nd146 0+ 17.19 Nd147 10.98 d 5/2β- Nd148 0+ 5.76 Nd149 1.728 h 5/2β- Nd150 β- 1.1E19 y 0+ 5.64 Nd151 12.44 m 3/2+ β- Nd152 11.4 m 0+ β- Nd153 31.6 s (3/2)β- Nd154 25.9 s 0+ β- Nd155 8.9 s β- Nd156 5.47 s 0+ β- Nd157 Nd158 0+ Nd159 Nd160 0+ Nd161 Pr +3 931° 3520° Pr121 1.4 s Pr122 Pr123 Pr124 1.2 s ECp Pr125 3.3 s EC Pr126 3.14 s (3,4,5) ECp Pr127 4.2 s (11/2-) EC Pr128 3.1 s 4,5,6 ECp Pr129 30 s (3/2+) EC Pr130 40.0 s EC Pr131 1.53 m (3/2+) EC Pr132 1.6 m EC Pr133 6.5 m (3/2+) EC Pr134 17 m 2EC Pr135 24 m 3/2(+) EC Pr136 13.1 m 2+ EC Pr137 1.28 h 5/2+ EC Pr138 1.45 m 1+ EC Pr139 4.41 h 5/2+ EC Pr140 3.39 m 1+ EC Pr141 5/2+ 100 Pr142 19.12 h 2EC,β- Pr143 13.57 d 7/2+ β- Pr144 17.28 m 0β- Pr145 5.984 h 7/2+ β- Pr146 24.15 m (2)β- Pr147 13.4 m (3/2+) β- Pr148 2.27 m 1β- Pr149 2.26 m (5/2+) β- Pr150 6.19 s (1)β- Pr151 18.90 s (3/2-) β- Pr152 3.63 s (4-) β- Pr153 4.28 s β- Pr154 2.3 s (3+,2+) β- Pr155 Pr156 Pr157 Pr158 Pr159 140.90765 5.44×10-10% ECp * * * * * * Ce +3+4 798° 3443° Ce119 Ce120 0+ Ce121 Ce122 Ce123 3.2 s (5/2) ECp Ce124 6s 0+ EC Ce125 9.0 s (5/2+) ECp Ce126 50 s 0+ EC Ce127 31 s (5/2+) EC Ce128 4.1 s 0+ EC Ce129 3.5 m 5/2+ EC Ce130 25 m 0+ EC Ce131 10.2 m (7/2+) EC Ce132 3.51 h 0+ EC Ce133 97 m 1/2+ EC Ce134 3.16 d 0+ EC Ce135 17.7 h 1/2(+) EC Ce136 0+ 0.19 Ce137 9.0 h 3/2+ EC Ce138 0+ 0.25 6E4 y 7/2+ 140.116 -9 3.70×10 % * * * * * * 137.640 d 3/2+ EC Ce139 Ce140 0+ 88.48 Ce141 32.501 d 7/2β- Ce142 5E+16 y 0+ 11.08 Ce143 33.039 h 3/2β- * 284.893 d 0+ β- Ce144 Ce145 3.01 m (3/2)β- Ce146 13.52 m 0+ β- Ce147 56.4 s (5/2-) β- Ce148 56 s 0+ β- Ce149 5.3 s (3/2-) β- Ce150 4.0 s 0+ β- Ce151 1.02 s β- Ce152 1.4 s 0+ β- Ce153 Ce154 0+ Ce155 Ce156 0+ Ce157 100 La +3 918° 3464° La117 La118 La119 La120 2.8 s EC La121 5.3 s ECp La122 8.7 s ECp La123 17 s EC La124 29 s EC La125 76 s (11/2-) EC La126 54 s EC La127 5.1 m (11/2-) EC La128 5.0 m (5+) EC La129 11.6 m 3/2+ EC La130 8.7 m 3(+) EC La131 59 m 3/2+ EC La132 4.8 h 2EC La133 3.912 h 5/2+ EC La134 6.45 m 1+ EC La135 19.5 h 5/2+ EC La136 9.87 m 1+ EC La137 EC 138.9055 -9 1.45×10 % * * * * * * 1.05E+11 y 5+ EC,β0.0902 La138 La139 7/2+ 99.9098 La140 1.6781 d 3β- La141 3.92 h (7/2+) β- La142 91.1 m 2β- La143 14.2 m (7/2)+ β- La144 40.8 s (3-) β- La145 24.8 s (5/2+) β- La146 6.27 s 2β- La147 4.015 s (5/2+) β-n La148 1.05 s (2-) β-n La149 1.05 s β-n La150 0.86 s β-n La151 La152 La153 La154 La155 * Ba 0.43 s +2 0+ 137.327 -8 1.46×10 % EC,α 727° 1897° Ba114 Ba115 0.4 s EC Ba116 0.3 s 0+ EC Ba117 1.75 s (3/2) Ba118 5.5 s 0+ Ba119 5.4 s (5/2+) ECp Ba120 32 s 0+ EC Ba121 29.7 s 5/2(+) ECp Ba122 1.95 m 0+ EC Ba123 2.7 m 5/2+ EC Ba124 11.0 m 0+ EC Ba125 3.5 m 1/2(+) EC Ba126 100 m 0+ EC Ba127 12.7 m 1/2+ EC Ba128 2.43 d 0+ EC Ba129 2.23 h 1/2+ EC Ba130 0+ 0.106 32.06 h 1/2+ Ba131 11.50 d 1/2+ EC Ba132 0+ 0.101 Ba133 10.51 y 1/2+ EC Ba134 0+ 2.417 Ba135 3/2+ 6.592 Ba136 0+ 7.854 Ba137 3/2+ 11.23 13.16 d 5+ Ba138 0+ 71.70 Ba139 83.06 m 7/2β- Ba140 12.752 d 0+ β- Ba141 18.27 m 3/2β- Ba142 10.6 m 0+ β- Ba143 14.33 s 5/2β- Ba144 11.5 s 0+ β-n Ba145 4.31 s 5/2β- Ba146 2.22 s 0+ β- Ba147 0.893 s (3/2+) β-n Ba148 0.607 s 0+ β-n Ba149 0.344 s β-n Ba150 0.3 s 0+ β-n Ba151 Ba152 0+ Ba153 ECp,ECα,... EC * * * * * * * * * 98 Cs +1 28.44° 671° Cs112 500 Us Cs113 17 Us (5/2+) EC,p Cs114 0.57 s (1+) α,ECp,... Cs115 1.4 s ECp Cs116 3.84 s >4+ Cs117 8.4 s (9/2+) Cs118 14 s 2 Cs119 43.0 s 9/2+ Cs120 64 s 2 EC Cs121 155 s 3/2(+) EC Cs122 21.0 s 1+ EC Cs123 5.94 m 1/2+ EC Cs124 30.8 s 1+ EC Cs125 45 m (1/2+) EC Cs126 1.64 m 1+ EC Cs127 6.25 h 1/2+ EC Cs128 3.66 m 1+ EC Cs129 EC Cs130 29.21 m 1+ EC,β- Cs131 9.689 d 5/2+ EC Cs132 6.479 d 2+ EC,β- Cs133 7/2+ 100 Cs134 2.0648 y 4+ EC,β- 132.90545 1.21×10 -9% p ECp,ECα,... EC * * ECp,ECα,... EC * * * * * * * * * 2.3E+6 y 7/2+ β- Cs135 Cs136 β- Cs137 30.07 y 7/2+ β- Cs138 33.41 m 3β- Cs139 9.27 m 7/2+ β- Cs140 63.7 s 1β- Cs141 24.94 s 7/2+ β-n Cs142 1.70 s 0β-n Cs143 1.78 s 3/2+ β-n Cs144 1.01 s 1 β-n Cs145 0.594 s 3/2+ β-n Cs146 0.321 s 1β-n Cs147 0.225 s (3/2+) β-n Cs148 158 ms β-n Cs149 Cs150 Cs151 * * * * Xe 0.60 Us 16.58° 0 0+ 131.29 1.5×10 -8% EC,α -111.75° -108.04° Xe110 Xe111 0.74 s EC,α Xe112 2.7 s 0+ EC,α Xe113 2.74 s α,ECp,... Xe114 10.0 s 0+ EC Xe115 18 s (5/2+) Xe116 59 s 0+ Xe117 61 s 5/2(+) ECp Xe118 3.8 m 0+ EC Xe119 5.8 m (5/2+) EC Xe120 40 m 0+ EC Xe121 40.1 m 5/2(+) EC Xe122 20.1 h 0+ EC Xe123 2.08 h (1/2)+ EC ECp,ECα,... EC 1.6E+14 y 16.9 h 0+ (1/2)+ ECEC EC 0.10 13.27 h 5/2+ EC Xe124 Xe125 * Xe126 0+ 0.09 59.408 d 5/2+ EC Xe127 36.4 d 1/2+ EC Xe128 0+ 1.91 Xe129 1/2+ 26.4 Xe130 0+ 4.1 1.57E7 y 7/2+ β- Xe131 3/2+ 21.2 12.36 h 5+ β- Xe132 0+ 26.9 Xe133 5.243 d 3/2+ β- Xe134 0+ 10.4 Xe135 9.14 h 3/2+ β- * * * * * * * 2.36E21 y 0+ 8.9 Xe136 Xe137 3.818 m 7/2β- Xe138 14.08 m 0+ β- Xe139 39.68 s 3/2β- Xe140 13.60 s 0+ β- Xe141 1.73 s 5/2(-) β-n Xe142 1.22 s 0+ β-n Xe143 0.30 s 5/2β- Xe144 1.15 s 0+ β- Xe145 0.9 s β-n Xe146 0+ β- Xe147 94 96 I 113.7° 184.4° 546° +1+5+7-1 I108 36 ms (1) p 100 Us I109 I110 0.65 s α,ECp,... I111 2.5 s (5/2+) EC,α I112 3.42 s EC,α I113 6.6 s (5/2+) α,ECα,... I114 2.1 s 1+ ECp I115 * 1.3 m (5/2+) EC I116 2.91 s 1+ EC 126.90447 -9 2.9×10 % α,p * 2.22 m (5/2)+ EC I117 13.7 m 2EC I118 * 19.1 m 5/2+ EC I119 81.0 m 2EC I120 I121 * 2.12 h 5/2+ EC 3.63 m 1+ EC I122 I123 * 4.1760 d 2EC I124 I125 13.11 d 2EC,β- I126 I127 5/2+ 100 24.99 m 1+ EC,β- I128 I129 I130 * 8.02070 d 7/2+ ββ- I131 2.295 h 4+ I132 I133 * 20.8 h 7/2+ β- * 52.5 m (4)+ β- I134 I135 * 6.57 h 7/2+ ββ- I136 83.4 s (1-) I137 * 24.5 s (7/2+) β-n I138 6.49 s (2-) β-n I139 2.29 s (7/2+) β-n I140 0.86 s (4) β-n I141 0.43 s β-n I142 I143 I144 92 Te 449.51° 988° Te106 60 Us 0+ Te107 3.1 ms EC,α Te108 2.1 s 0+ α,ECp,... Te109 4.6 s α,ECp,... Te110 18.6 s 0+ EC,α Te111 19.3 s (5/2+) ECp Te112 2.0 m 0+ EC Te113 1.7 m (7/2+) EC Te114 15.2 m 0+ EC Te115 5.8 m 7/2+ EC Te116 2.49 h 0+ EC Te117 62 m 1/2+ EC Te118 6.00 d 0+ EC Te119 16.03 h 1/2+ EC Te120 0+ 0.096 Te121 16.78 d 1/2+ EC Te122 0+ 2.603 Te123 1E+13 y 1/2+ 0.908 EC Te124 0+ 4.816 Te125 1/2+ 7.139 60.20 d 3- Te126 0+ 18.95 Te127 9.35 h 3/2+ β- +4+6-2 127.60 -8 1.57×10 % α * * * * * * * β-β- 2.2E24 y 0+ 31.69 Te128 Te129 69.6 m 3/2+ β- * β- 7.9E20 y 0+ 33.80 Te130 Te131 25.0 m 3/2+ β- Te132 3.204 d 0+ β- Te133 12.5 m (3/2+) β- Te134 41.8 m 0+ β- Te135 19.0 s (7/2-) β- Te136 17.5 s 0+ β-n Te137 2.49 s (7/2-) β-n Te138 1.4 s 0+ β-n Te139 Te140 0+ Te141 Te142 0+ * * Sb 630.63° 1587° Sb103 Sb104 0.44 s p,ECp,... Sb105 1.12 s EC,p Sb106 (4+) Sb107 (5/2+) Sb108 7.4 s (4+) ECp Sb109 17.0 s (5/2+) EC Sb110 23.0 s 3+ EC Sb111 75 s (5/2+) EC Sb112 51.4 s 3+ EC Sb113 6.67 m 5/2+ EC Sb114 3.49 m 3+ EC Sb115 32.1 m 5/2+ EC Sb116 15.8 m 3+ EC Sb117 2.80 h 5/2+ EC Sb118 3.6 m 1+ EC Sb119 38.19 h 5/2+ EC Sb120 15.89 m 1+ EC Sb121 5/2+ 57.36 Sb122 2.7238 d 2EC,β- Sb123 7/2+ 42.64 Sb124 β- Sb125 2.7582 y 7/2+ β- Sb126 12.46 d (8)β- Sb127 3.85 d 7/2+ β- Sb128 9.01 h 8β- Sb129 4.40 h 7/2+ β- Sb130 39.5 m (8-) β- Sb131 23.03 m (7/2+) β- Sb132 2.79 m (4+) β- Sb133 2.5 m (7/2+) β- Sb134 0.78 s (0-) β- Sb135 1.71 s (7/2+) β-n Sb136 0.82 s β-n,β-2n,... Sb137 Sb138 Sb139 +3+5-3 121.760 -9 1.01×10 % * * * * * * * * * * * * 90 Sn +2+4 231.93° 2602° Sn100 0.94 s 0+ Sn101 3s ECp Sn102 4.5 s 0+ EC Sn103 7s EC Sn104 20.8 s 0+ EC Sn105 31 s ECp Sn106 115 s 0+ EC Sn107 2.90 m (5/2+) EC Sn108 10.30 m 0+ EC Sn109 18.0 m 5/2(+) EC Sn110 4.11 h 0+ EC Sn111 35.3 m 7/2+ EC Sn112 0+ 0.97 Sn113 115.09 d 1/2+ EC Sn114 0+ 0.65 Sn115 1/2+ 0.34 Sn116 0+ 14.53 4.41E+14 y 9/2+ Sn117 1/2+ 7.68 14.10 s 1+ Sn118 0+ 24.23 Sn119 1/2+ 8.59 5.0 s 1+ Sn120 0+ 32.59 Sn121 27.06 h 3/2+ β- Sn122 0+ 4.63 Sn123 129.2 d 11/2β- Sn124 0+ 5.79 Sn125 9.64 d 11/2β- Sn126 1E+5 y 0+ β- Sn127 2.10 h (11/2-) β- Sn128 59.07 m 0+ β- Sn129 2.23 m (3/2+) β- Sn130 3.72 m 0+ β- Sn131 56.0 s (3/2+) β- Sn132 39.7 s 0+ β- Sn133 1.45 s (7/2-) β-n Sn134 1.12 s 0+ β-n Sn135 Sn136 0+ Sn137 118.710 1.25×10 -8% ECp * * * * * * * * * * * 88 In +3 156.60° 2072° In98 In99 In100 7.0 s ECp In101 15.1 s ECp In102 22 s (6+) ECp In103 65 s (9/2)+ EC In104 1.80 m (6+) EC In105 5.07 m (9/2)+ EC In106 6.2 m 7+ EC In107 32.4 m 9/2+ EC In108 58.0 m 7+ EC In109 4.2 h 9/2+ EC In110 4.9 h 7+ EC 114.818 6.0×10-10% * * * * * * * * 2.8047 d 9/2+ EC In111 In112 14.97 m 1+ EC,β- In113 9/2+ 4.3 In114 71.9 s 1+ EC,β- In115 95.7 In116 EC,β- In117 43.2 m 9/2+ β- In118 β- In119 2.4 m 9/2+ β- In120 3.08 s 1+ β- In121 23.1 s 9/2+ β- In122 1.5 s 1+ β- In123 5.98 s 9/2+ β- In124 3.11 s 3+ β- In125 2.36 s 9/2(+) β- In126 1.60 s 3(+) β- In127 1.09 s (9/2+) β-n In128 0.84 s (3+) β-n In129 0.61 s (9/2+) β-n In130 0.32 s 1(-) β-n In131 0.282 s (9/2+) β-n In132 0.201 s (7-) β-n In133 180 ms (9/2+) β-n In134 138 ms β-n * * * * β- * * * * * * * * * * * * * * * * * 86 Decay Q-value Range Q(??) Q(β−)>0 Q(β−)-SN>0 Q(β−)>0 + Q(EC)>0 Stable to Beta Decay Q(EC)>0 Q(EC)-SP>0 Q(P)>0 Naturally Abundant Cd +2 321.07° 767° Cd96 0+ Cd97 3s ECp Cd98 9.2 s 0+ EC Cd99 16 s (5/2+) Cd100 49.1 s 0+ Cd101 1.36 m (5/2+) EC Cd102 5.5 m 0+ EC Cd103 7.3 m (5/2+) EC Cd104 57.7 m 0+ EC Cd105 55.5 m 5/2+ EC Cd106 0+ 1.25 Cd107 6.50 h 5/2+ EC Cd108 0+ 0.89 Cd109 462.6 d 5/2+ EC Cd110 0+ 12.49 Cd111 1/2+ 12.80 24.6 s 1+ Cd112 0+ 24.13 112.411 -9 5.3×10 % ECp,ECα,... EC * 7.7E+15 y 1/2+ β* 12.22 Cd113 Cd114 0+ 28.73 Cd115 53.46 h 1/2+ β- Cd116 0+ 7.49 Cd117 2.49 h 1/2+ β- Cd118 50.3 m 0+ β- Cd119 2.69 m 3/2+ β- Cd120 50.80 s 0+ β- Cd121 13.5 s (3/2+) β- Cd122 5.24 s 0+ β- Cd123 2.10 s (3/2)+ β- Cd124 1.25 s 0+ β- Cd125 0.65 s (3/2+) β- Cd126 0.506 s 0+ β- Cd127 0.37 s (3/2+) β- Cd128 0.34 s 0+ β- Cd129 0.27 s (3/2+) β- Cd130 0.20 s 0+ β-n * * * * * * 84 Ag +1 961.78° 2162° Ag93 Ag94 10 ms 0+ EC Ag95 2.0 s 107.8682 -9 1.58×10 % * 5.1 s (8+,9+) ECp Ag96 Ag97 19 s (9/2+) EC Ag98 46.7 s (5+) EC Ag99 124 s (9/2)+ EC Ag100 * 2.01 m (5)+ EC Ag101 11.1 m 9/2+ EC Ag102 12.9 m 5+ EC Ag103 65.7 m 7/2+ EC Ag104 69.2 m 5+ Ag105 41.29 d 1/2EC Ag106 23.96 m 1+ EC,β- Ag107 1/251.839 Ag108 2.37 m 1+ EC,β- Ag109 1/248.161 Ag110 EC,β- Ag111 7.45 d 1/2β- Ag112 3.130 h 2(-) β- Ag113 5.37 h 1/2β- Ag114 4.6 s 1+ β- Ag115 20.0 m 1/2β- Ag116 2.68 m (2)β- Ag117 72.8 s (1/2-) β- Ag118 3.76 s (1)β- Ag119 2.1 s (7/2+) β- Ag120 1.23 s (3+) β- Ag121 0.78 s (7/2+) β-n Ag122 0.48 s (3+) β-n Ag123 0.309 s (7/2+) β-n Ag124 0.172 s β-n Ag125 166 ms β-n Ag126 107 ms β- Ag127 109 ms β- Ag128 58 ms β-n Ag129 β-n ECp * * * * * * * * * * * * * * * * * * * * * Pd +2+4 1554.9° 2963° Pd91 Pd92 0+ Pd93 Pd94 9.0 s 0+ EC Pd95 EC Pd96 * 122 s 0+ EC Pd97 3.10 m (5/2+) EC Pd98 17.7 m 0+ EC Pd99 21.4 m (5/2)+ EC Pd100 3.63 d 0+ EC Pd101 8.47 h 5/2+ EC Pd102 0+ 1.02 Pd103 16.991 d 5/2+ EC Pd104 0+ 11.14 Pd105 5/2+ 22.33 Pd106 0+ 27.33 106.42 -9 4.5×10 % 6.5E+6 y 5/2+ β- Pd107 Pd108 0+ 26.46 * 13.7012 h 5/2+ β- Pd109 Pd110 0+ 11.72 Pd111 23.4 m 5/2+ β- Pd112 21.03 h 0+ β- Pd113 93 s (5/2+) β- Pd114 2.42 m 0+ β- Pd115 25 s (5/2+) β- Pd116 11.8 s 0+ β- Pd117 4.3 s (5/2+) β- Pd118 1.9 s 0+ β- Pd119 0.92 s β- Pd120 0.5 s 0+ β- Pd121 Pd122 0+ Pd123 Pd124 β- * * * * * 80 82 Rh +3 1964° 3695° Rh89 Rh90 Rh91 Rh92 Rh93 (9/2+) Rh94 70.6 s (3+) ECp Rh95 * 5.02 m (9/2)+ EC Rh96 * 9.90 m 6+ EC Rh97 * 30.7 m (9/2)+ EC Rh98 * 8.7 m (2)+ EC Rh99 * 16.1 d 1/2EC Rh100 * 20.8 h 1EC Rh101 3.3 y 1/2EC Rh102 207 d (1-,2-) EC,β- Rh103 1/2100 Rh104 42.3 s 1+ EC,β- Rh105 35.36 h 7/2+ β- Rh106 29.80 s 1+ β- Rh107 21.7 m 7/2+ β- Rh108 16.8 s 1+ β- Rh109 80 s 7/2+ β- Rh110 3.2 s 1+ β- Rh111 11 s (7/2+) β- Rh112 2.1 s 1+ β- Rh113 2.80 s (7/2+) β- Rh114 1.85 s 1+ β- Rh115 0.99 s (7/2+) β- Rh116 0.68 s 1+ β- Rh117 0.44 s (7/2+) β- Rh118 Rh119 Rh120 β- Rh121 Rh122 β- 102.90550 1.12×10 -9% * * * * * * * * * * * * 78 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 Z=45-60 Part 2 of 3 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 2 8 18 16 1 2 8 18 18 0 2 8 18 18 1 2 8 18 18 2 2 8 18 18 3 2 8 18 18 4 2 8 18 18 5 2 8 18 18 6 2 8 18 18 7 2 8 18 18 8 2 8 18 18 8 1 2 8 18 18 8 2 2 8 18 18 9 2 2 8 18 19 9 2 2 8 18 21 8 2 2 8 18 22 8 2 Nd +3 1021° 3074° Nd133 70 s (1/2)+ EC,IT Nd134 410 Us (8)- Nd135 5.5 m (1/2+) EC Nd137 1.60 s 11/2IT Nd139 5.50 h 11/2EC,IT Nd141 62.0 s 11/2EC,IT Nd142 0+ 27.13 Nd143 7/212.18 144.24 2.70×10 -9% α 2.29E+15 y 0+ 23.80 Nd144 Nd145 7/28.30 Nd146 0+ 17.19 Nd148 0+ 5.76 Nd150 β- 1.1E19 y 0+ 5.64 Pr +3 931° 3520° Pr131 5.7 s (11/2-) EC,IT Pr134 11 m (5-) EC Pr138 2.12 h 7EC Pr141 5/2+ 100 Pr142 14.6 m 5IT Pr144 7.2 m 3β-,IT Pr148 2.0 m (4) β- 140.90765 5.44×10-10% Ce +3+4 798° 3443° Ce131 5.0 m (1/2+) EC Ce132 13 ms (8-,9-) IT Ce133 4.9 h 9/2EC Ce135 20 s 11/2(-) IT Ce136 0+ 0.19 Ce137 34.4 h 11/2EC,IT Ce138 8.65 ms 0+ 7IT 0.25 Ce139 54.8 s 11/2IT Ce140 0+ 88.48 Ce142 5E+16 y 0+ 11.08 140.116 -9 3.70×10 % 100 La146 10.0 s (6-) β- La +3 918° 3464° La124 1s EC La127 3.7 m (3/2+) EC,IT La128 560 ms (1+,2+) EC La129 0.56 s 11/2IT La132 24.3 m 6EC,IT La136 114 ms IT 138.9055 -9 1.45×10 % 1.05E+11 y 5+ EC,β0.0902 La138 La139 7/2+ 99.9098 Ba +2 727° 1897° Ba127 1.9 s 7/2IT Ba129 2.16 h 7/2+ EC,IT Ba130 11 ms 0+ 8IT 0.106 Ba131 14.6 m 9/2IT Ba132 0+ 0.101 Ba133 38.9 h 11/2EC,IT Ba134 2.63 Us (10+) 0+ 2.417 Ba135 28.7 h 11/23/2+ IT 6.592 Ba136 0.3084 s 0+ 7IT 7.854 Ba137 2.552 m 11/23/2+ IT 11.23 Ba138 0+ 71.70 137.327 -8 1.46×10 % 98 Cs138 2.91 m 6β-,IT Cs +1 28.44° 671° Cs116 0.70 s (1+) Cs117 6.5 s (3/2+) Cs118 17 s (7-) Cs119 30.4 s 3/2(+) Cs120 57 s Cs121 122 s 9/2(+) Cs122 3.70 m 8EC Cs123 1.64 s (11/2)IT Cs124 6.3 s (7)+ IT Cs130 3.46 m 5EC,IT Cs133 7/2+ 100 Cs134 2.903 h 8IT Cs135 53 m 19/2IT Cs136 19 s 8β-,IT Cs144 1s (GE 4) β- 132.90545 1.21×10 -9% ECp,ECα,... EC ECp,ECα,... EC ECp,ECα,... EC,IT * Xe 0 -111.75° -108.04° 16.58° 131.29 1.5×10 -8% 1.6E+14 y 57 s 0+ (9/2)ECEC IT 0.10 Xe124 Xe125 Xe126 0+ 0.09 Xe127 69.2 s 9/2IT Xe128 0+ 1.91 Xe129 8.88 d 11/21/2+ IT 26.4 Xe130 0+ 4.1 Xe131 11.84 d 11/23/2+ IT 21.2 Xe132 8.39 ms (10+) 0+ IT 26.9 Xe133 2.19 d 11/2IT Xe134 290 ms 0+ 7IT 10.4 Xe135 15.29 m 11/2β-,IT 2.36E21 y 0+ 8.9 Xe136 94 I136 46.9 s (6-) β- 96 I 113.7° 184.4° 546° +1+5+7-1 I114 6.2 s (7) EC,IT 126.90447 -9 2.9×10 % 3.27 Us (7-) I116 I118 8.5 m (7-) EC,IT 53 m 4 TO 8 EC I120 I122 80 Us I127 5/2+ 100 I130 9.0 m 2+ β-,IT 1.387 h (8-) β-,IT IT I132 9s (19/2-) I133 3.60 m (8)β-,IT I134 92 90 88 86 84 Decay Q-value Range Q(??) Q(β−)>0 Q(β−)-SN>0 Q(β−)>0 + Q(EC)>0 Stable to Beta Decay Q(EC)>0 Q(EC)-SP>0 Q(P)>0 Naturally Abundant Te 449.51° 988° Te115 6.7 m (1/2)+ EC,IT Te117 103 ms 11/2IT Te119 4.70 d 11/2EC,IT Te120 0+ 0.096 Te121 154 d 11/2EC,IT Te122 0+ 2.603 +4+6-2 127.60 -8 1.57×10 % 1E+13d 119.7 y 11/21/2+ EC IT 0.908 4.191 m (8)- Te123 Te124 0+ 4.816 Te125 57.40 d 11/21/2+ IT 7.139 Te126 0+ 18.95 Te127 109 d 11/2β-,IT β-β- 2.2E24 y 0+ 31.69 Te128 Te129 33.6 d 11/2β-,IT β- 7.9E20 y 0+ 33.80 Te130 Te131 30 h 11/2β-,IT Te133 55.4 m (11/2-) β-,IT Sb 630.63° 1587° Sb116 60.3 m 8EC Sb118 5.00 h 8EC Sb119 0.85 s (25/2+) IT Sb120 5.76 d 8EC Sb121 5/2+ 57.36 Sb122 IT Sb123 7/2+ 42.64 Sb124 93 s 5+ β-,IT Sb126 19.15 m (5)+ β-,IT Sb128 10.4 m 5+ β-,IT Sb129 17.7 m (19/2-) β-,IT Sb130 6.3 m (5)+ β- Sb132 4.10 m (8-) β- Sb134 10.23 s (7-) β-n +3+5-3 121.760 -9 1.01×10 % * Sn124 0+ 5.79 * Sn +2+4 231.93° 2602° Sn112 0+ 0.97 Sn113 21.4 m 7/2+ EC,IT Sn114 0+ 0.65 1.6582 h 9/2+ 1/2IT 4.3 Sn115 1/2+ 0.34 Sn116 0+ 14.53 Sn117 13.60 d 11/21/2+ IT 7.68 Sn118 0+ 24.23 Sn119 293.1 d 11/21/2+ IT 8.59 Sn120 0+ 32.59 Sn121 55 y 11/2β-,IT Sn122 0+ 4.63 Sn123 40.06 m 3/2+ β- Sn125 9.52 m 3/2+ β- Sn127 4.13 m (3/2+) β- Sn128 6.5 s (7-) IT Sn129 6.9 m (11/2-) β-,IT Sn130 1.7 m (7-) β- Sn131 58.4 s (11/2-) β-,IT 118.710 1.25×10 -8% In +3 156.60° 2072° In103 34 s (1/2-) EC,IT In104 15.7 s (3+) EC,IT In105 48 s (1/2)IT In106 5.2 m (3+) EC In107 50.4 s 1/2IT In108 39.6 m 2+ EC In109 1.34 m 1/2IT In110 69.1 m 2+ EC In111 7.7 m 1/2IT In112 20.56 m 4+ IT In113 In114 49.51 d 5+ EC,IT 114.818 6.0×10-10% * * 4.41E+14 y 54.29 m 4.486 h 116.2 m 9/2+ 1/25+ 1/2β* β-,IT95.7 ββ ,IT In115 In116 In117 β- In118 4.45 m 5+ In119 18.0 m 1/2β-,IT β- In120 46.2 s (3,4,5)+ In121 3.88 m 1/2β-,IT β- In122 10.3 s 5+ In123 47.8 s 1/2ββ- In124 3.7 s (8-) β- In125 12.2 s 1/2(-) β- In126 1.64 s 7-,8-,9- In127 3.67 s (1/2-) β-n In128 0.72 s (8-) β-n In129 1.23 s (1/2-) IT,β-n,... In130 0.55 s (10-) β-n In131 0.35 s (1/2-) IT,β-n,... * * * * * Cd +2 321.07° 767° Cd106 0+ 1.25 Cd108 0+ 0.89 Cd110 0+ 12.49 Cd111 48.54 m 11/21/2+ IT 12.80 Cd112 0+ 24.13 112.411 -9 5.3×10 % 7.7E+15 y 14.1 y 11/21/2+ ββ-,IT 12.22 Cd113 Cd114 0+ 28.73 Cd115 44.6 d 11/2β- Cd116 0+ 7.49 Cd117 3.36 h (11/2)β- Cd119 2.20 m (11/2-) β- Cd121 8.3 s (11/2-) β- Cd123 1.82 s (11/2-) β- Cd125 0.57 s (11/2-) β- Ag +1 961.78° 2162° Ag94 0.42 s (9+) ECp Ag99 10.5 s (1/2-) IT Ag100 2.24 m (2)+ EC,IT Ag101 3.10 s (1/2)IT Ag102 7.7 m 2+ EC,IT Ag103 5.7 s 1/2IT Ag104 33.5 m 2+ EC,IT Ag105 7.23 m 7/2+ EC,IT Ag106 8.28 d 6+ EC Ag107 44.3 s 7/2+ 1/2IT 51.839 Ag108 418 y 6+ EC,IT Ag109 39.6 s 7/2+ 1/2IT 48.161 Ag110 249.79 d 6+ β-,IT Ag111 64.8 s 7/2+ β-,IT Ag113 68.7 s 7/2+ β-,IT Ag114 1.50 ms (LE 6+) IT Ag115 18.0 s 7/2+ β-,IT Ag116 8.6 s (5+) β-,IT Ag117 5.34 s (7/2+) β-,IT Ag118 2.0 s (4)+ β-,IT Ag119 6.0 s (1/2-) β- Ag120 0.32 s (6-) β-,IT Ag122 1.5 s β- 107.8682 -9 1.58×10 % Pd +2+4 1554.9° 2963° 106.42 -9 4.5×10 % 13.3 s (21/2+) IT,ECp,... Pd95 Pd102 0+ 1.02 Pd104 0+ 11.14 Pd105 5/2+ 22.33 Pd106 0+ 27.33 Pd107 21.3 s 11/2IT Pd108 0+ 26.46 Pd109 4.696 m 11/2IT Pd110 0+ 11.72 Pd111 5.5 h 11/2β-,IT Pd113 100 s β- Pd115 50 s (11/2-) β-,IT Pd117 19.1 ms (11/2-) IT * 6.8 s GE 4 80 78 72 74 76 82 Rh +3 1964° 3695° Rh94 25.8 s (8+) EC Rh95 1.96 m (1/2)EC,IT Rh96 1.51 m 3+ EC,IT Rh97 46.2 m (1/2)EC,IT Rh98 3.5 m (5+) EC,IT Rh99 4.7 h 9/2+ EC,IT Rh100 4.6 m (5+) EC,IT Rh101 4.34 d 9/2+ EC,IT Rh102 2.9 y 6(+) EC,IT Rh103 56.12 m 7/2+ 1/2IT 100 Rh104 4.34 m 5+ β-,IT Rh105 45 s 1/2IT Rh106 131 m (6)+ β- Rh108 6.0 m (5+) β- Rh110 28.5 s ( GE 4) β- Rh112 β- Rh114 1.85 s (GE 4) β- Rh116 0.9 s (5,6,7) β- 102.90550 1.12×10 -9% 44 46 48 50 52 54 56 58 60 62 64 66 68 70 Z=45-60 Part 3 of 3 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 2 8 18 16 1 2 8 18 18 0 2 8 18 18 1 2 8 18 18 2 2 8 18 18 3 2 8 18 18 4 2 8 18 18 5 2 8 18 18 6 2 8 18 18 7 2 8 18 18 8 2 8 18 18 8 1 2 8 18 18 8 2 2 8 18 18 9 2 2 8 18 19 9 2 2 8 18 21 8 2 2 8 18 22 8 2 Nd +3 1021° 3074° Nd142 0+ 27.13 Nd143 7/212.18 144.24 2.70×10 -9% α 2.29E+15 y 0+ 23.80 Nd144 Nd145 7/28.30 Nd146 0+ 17.19 Nd148 0+ 5.76 Nd150 β- 1.1E19 y 0+ 5.64 Pr +3 931° 3520° Pr141 5/2+ 100 140.90765 5.44×10-10% Ce +3+4 798° 3443° Ce136 0+ 0.19 Ce138 0+ 0.25 1.05E+11 y 5+ EC,β0.0902 Ce140 0+ 88.48 Ce142 5E+16 y 0+ 11.08 140.116 -9 3.70×10 % 100 98 94 92 96 La +3 918° 3464° La138 La139 7/2+ 99.9098 138.9055 -9 1.45×10 % Ba +2 727° 1897° Ba130 0+ 0.106 Ba132 0+ 0.101 Ba134 0+ 2.417 Ba135 3/2+ 6.592 Ba136 0+ 7.854 Ba137 3/2+ 11.23 Ba138 0+ 71.70 137.327 -8 1.46×10 % Cs +1 28.44° 671° Cs122 0.36 s (5)IT Cs133 7/2+ 100 1.6E+14 y 0+ ECEC 0.10 132.90545 1.21×10 -9% Xe 0 -111.75° -108.04° 16.58° Xe124 Xe126 0+ 0.09 Xe128 0+ 1.91 Xe129 1/2+ 26.4 Xe130 0+ 4.1 Xe131 3/2+ 21.2 Xe132 0+ 26.9 Xe134 0+ 10.4 131.29 1.5×10 -8% 2.36E21 y 0+ 8.9 Xe136 I 113.7° 184.4° 546° +1+5+7-1 I127 5/2+ 100 126.90447 -9 2.9×10 % Te 449.51° 988° Te120 0+ 0.096 Te122 0+ 2.603 Te123 1E+13 y 1/2+ 0.908 EC Te124 0+ 4.816 Te125 1/2+ 7.139 Te126 0+ 18.95 +4+6-2 127.60 -8 1.57×10 % β-β- 2.2E24 y 0+ 31.69 Te128 β- 7.9E20 y 0+ 33.80 Te130 Sb 630.63° 1587° Sb121 5/2+ 57.36 Sb123 7/2+ 42.64 Sb124 20.2 m (8)IT Sb126 11 s (3)IT +3+5-3 121.760 -9 1.01×10 % 90 88 In130 0.55 s (5+) β-n Sn +2+4 231.93° 2602° Sn112 0+ 0.97 Sn114 0+ 0.65 Sn115 1/2+ 0.34 Sn116 0+ 14.53 4.41E+14 y 9/2+ 95.7 Sn117 1/2+ 7.68 Sn118 0+ 24.23 Sn119 1/2+ 8.59 Sn120 0+ 32.59 Sn122 0+ 4.63 Sn124 0+ 5.79 118.710 1.25×10 -8% In +3 156.60° 2072° In109 0.209 s (19/2+) IT In113 9/2+ 4.3 In114 43.1 ms 8IT In115 In116 2.18 s 8IT In118 8.5 s 8β-,IT β- In120 47.3 s (8-) β- In122 10.8 s 8- In131 0.32 s (21/2+) β-n 114.818 6.0×10-10% β- 86 84 Decay Q-value Range Q(??) Q(β−)>0 Q(β−)-SN>0 Q(β−)>0 + Q(EC)>0 Stable to Beta Decay Q(EC)>0 Q(EC)-SP>0 Q(P)>0 Naturally Abundant Cd +2 321.07° 767° Cd106 0+ 1.25 Cd108 0+ 0.89 Cd110 0+ 12.49 Cd111 1/2+ 12.80 Cd112 0+ 24.13 112.411 -9 5.3×10 % 7.7E+15 y 1/2+ β12.22 Cd113 Cd114 0+ 28.73 Cd116 0+ 7.49 Ag +1 961.78° 2162° Ag107 1/251.839 Ag109 1/248.161 107.8682 -9 1.58×10 % Pd +2+4 1554.9° 2963° Pd102 0+ 1.02 Pd104 0+ 11.14 Pd105 5/2+ 22.33 Pd106 0+ 27.33 Pd108 0+ 26.46 Pd110 0+ 11.72 Pd113 0.3 s (9/2-) IT 106.42 -9 4.5×10 % 80 78 68 70 72 74 76 82 Rh +3 1964° 3695° Rh103 1/2100 102.90550 1.12×10 -9% 44 46 48 50 52 54 56 58 60 62 64 66

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