Az atommag szerkezete
Rend-
szám
Neutron
szám
Vegyjel
m
% izotóp
Előfordulás
ppm
pep hamburger
Stabil
magok
Izomer
magok
1
H
1
99.985
1, 2
2
2n
He
4
99.999863
240000
2
3, 4
3
4n
Li
7
92.5
0.006
6, 7
4
5n
Be
9
100
0.001
9
5
6n
B
11
80.1
0.001
10, 11
6
6n
C
12
98.9
4600
6 = 2 + 4
12, 13
7
7n
N
14
99.634
970
7 = 1 + 6
14, 15
14, 15
8
8n
O
8p
8n
O16
99.762%
stable
8 = 4+4
8p
9n
O17
0.200%
stable
8 = 1+3+4+ (1n)
8p
10n
O18
0.200%
stable
8 = 2+2+4 + (2n)
8p
12n
O20
13.51 s
8 = 4+4 + (4n)
8p
14n
O22
2.25 s
8 = 2 + 6 + (6n)
16
99.762
10700
8 = 2x4
16, 17, 18
9
10n
F
19
100
0.4
9 = 1+2 + 6 + (1n)
19
10
10n
Ne
10p
10n
Ne20
90.48%
stable
10 = 4 + 6
10p
11n
Ne21
0.27%
stable
10 = 1+3 + 6 + (1n)
10p
12n
Ne22
9.25%
stable
10 = 2+2 + 6 + (2n)
10p
14n
Ne24
3.38 min
10 = 4 + 6 + (4n)
20
90.48
1340
10 = 4 + 6
20, 21, 22
11
12n
Na
23
100
22
11 = 1+4 + 6 + (1n)
23
24
12
12n
Mg
12p
12n
Mg24
78.99%
stable
12 = 6+6
12p
13n
Mg25
10.00%
stable
12 = 1+1+4 + 6 + (1n)
12p
14n
Mg26
11.01%
stable
12 = 2+4 + 6 + (2n)
12p
16n
Mg28
20.915 h
12 = 4+2 + 6 + (4n)
24
78.99
580
12 = 6+6A 2 hatos gyűrű elemei egymás mellé rendeződve 6 db alfarészecskét hoznak létre, ez stabilizálja a két-gyűrűs magot
24, 25, 26
13
14n
Al
27
100
55
13 = 1 + 2x6 + (1n)
27
24
14
14n
Si
14p
14n
Si28
92.23%
stable
14 = 2 + 2x6
14p
15n
Si29
4.683%
stable
14 = 1+1 + 2x6 + (1n)
14p
16n
Si30
3.087%
stable
14 = 2 + 2x6 + (2n)
14p
18n
Si32
132 y
14 = 4+4 + 6 + (4n)
14p
20n
Si34
2.77 s
14 = 4+2+2 + 6 + (6n)
28
92.23
650
14 = 2 + 2x6
28, 29, 30
15
16n
P
31
100
7
15 = 1+2 + 2x6 + (1n)
31
16
16n
S
16p
16n
S32
95.02%
stable
16 = 4 + 2x6
16p
17n
S33
0.75%
stable
16 = 1+3 + 2x6 + (1n)
16p
18n
S34
4.21%
stable
16 = 2+2 + 2x6 + (2n)
16p
20n
S36
0.02%
stable
16 = 4 + 2x6 + (4n)
16p
22n
S38
170.3 min
16 = 2+2 + 2x6 + (6n)
16p
24n
S40
8.8 s
16 = 4 + 2x6 + (8n)
32
95.02
440
16 = 4 + 2x6
32, 33, 34, 36
43
17
18n
Cl
35
75.77
1
17 = 1+4 + 2x6 + (1n)
35, 37
34, 38
18
22n
Ar
18p
18n
Ar36
0.3365%
stable
18 = 2+4 + 2x6
18p
20n
Ar38
0.0632%
stable
18 = 2+4 + 2x6 + (2n)
18p
22n
Ar40
99.60037%
stable
18 = 4+2 + 2x6 + (4n)
18p
24n
Ar42
32.9 y
18 = 4+2 + 2x6 + (6n)
18p
26n
Ar44
11.87 min
18 = 2+4 + 2x6 + (8n)
18p
28n
Ar46
8.4 s
18 = 4+2 + 2x6 + (10n)
40
99.6
220
18 = 4+2 + 2x6 + (4n)
36, 38, 40
19
20n
K
39
93.26
3
19 = 1+2+4 + 2x6 + (1n)
39, 41
20
20n
Ca
20p
20n
Ca40
96.94%
stable
20 = 4+4 + 2x6
20p
22n
Ca42
0.65%
stable
20 = 2+2+4 + 2x6 + (2n)
20p
23n
Ca43
0.135%
stable
20 = 3+1+4 + 2x6 + (3n)
20p
24n
Ca44
2.09%
stable
20 = 4+4 + 2x6 + (4n)
20p
26n
Ca46
0.004%
3x10+15 y
20 = 4+2+2 + 2x6 + (6n)
20p
28n
Ca48
0.187%
4x10+19 y
20 = 2 + 6+2x6 + (8n)
20p
30n
Ca50
13.9 s
20 = 2 + 6+2x6 + (10n)
40
96.941
67
20 = 4+4 + 2x6
40, 42, 43, 44
21
24n
Sc
45
100
0.03
21 = 3 + 3x6 + (3n)
45
43, 44, 45, 46, 50
22
26n
Ti
22p
22n
Ti44
60.0 y
22 = 4 + 3x6
22p
24n
Ti46
8.25%
stable
22 = 2+2 + 3x6 + (2n)
22p
25n
Ti47
7.44%
stable
22 = 3+1 + 3x6 + (3n)
22p
26n
Ti48
73.72%
stable
22 = 4 + 3x6 + (4n)
22p
27n
Ti49
5.41%
stable
22 = 4+1+1 + 2x8 + (5n)
22p
28n
Ti50
5.18%
stable
22 = 4 + 6+12 + (6n)
22p
30n
Ti52
1.7 min
22 = 2+2 + 6+12 + (8n)
22p
32n
Ti54
1.5 s
22 = 4 + 6+12 + (10n)
48
73.8
3
22 = 4 + 3x6 + (4n)
46, 47, 48, 49, 50
23
28n
V
51
100
0.7
23 = 1+4 + 3x6 + (5n)
50, 51
46
24
28n
Cr
24p
24n
Cr48
21.56 h
24 = 2+4 + 3x6
24p
26n
Cr50
4.345%
1.8x10+17 y
24 = 2+4 + 3x6 + (2n)
24p
28n
Cr52
83.789%
stable
24 = 4+2 + 3x6 + (4n)
24p
29n
Cr53
9.501%
stable
24 = 4+1+1 + 3x6 + (5n)
24p
30n
Cr54
2.365%
stable
24 = 4+2 + 3x6 + (6n)
24p
32n
Cr56
5.94 min
24 = 2+4 + 6+12 + (8n)
24p
34n
Cr58
7.0 s
24 = 4+2 + 6+12 + (10n)
52
83.789
14
24 = 4+2 + 3x6 + (4n)
50, 52, 53, 54
25
30n
Mn
55
100
8
25 = 1+4+2 + 3x6 + (5n)
55
52, 58, 60
26
30n
Fe
26p
26n
Fe52
8.275 h
26 = 4 + 6 + 2x8
26p
28n
Fe54
5.85%
3.1x10+22 y
26 = 2+2 + 6 + 2x8 + (2n)
26p
30n
Fe56
91.75%
stable
26 = 4 + 6 + 2x8 + (4n)
26p
31n
Fe57
2.12%
stable
26 = 1+3 + 6 + 2x8 + (5n)
26p
32n
Fe58
0.28%
stable
26 = 4 + 6 + 2x8 + (6n)
26p
34n
Fe60
1.5x10+6 y
26 = 2+2 + 6 + 2x8 + (8n)
26p
36n
Fe62
68 s
26 = 4 + 6 + 2x8 + (10n)
56
91.72
1090
26 = 4 + 6 + 2x8 + (4n)
54, 56, 57, 58
53
27
32n
Co
59
100
3
27 = 1+4 + 6 + 2x8 + (5n)
59
58, 60, 62
28
30n
Ni
28p
28n
Ni56
6.075 d
28 = 2+4 + 6 + 2x8
28p
30n
Ni58
68.077%
stable
28 = 2+4 + 6 + 2x8 + (2n)
28p
32n
Ni60
26.223%
stable
28 = 4+2 + 6 + 2x8 + (4n)
28p
33n
Ni61
1.140%
stable
28 = 4+1+1 + 6 + 2x8 + (5n)
28p
34n
Ni62
3.634%
stable
28 = 4+2 + 6 + 2x8 + (6n)
28p
36n
Ni64
0.926%
stable
28 = 2+4 + 6 + 2x8 + (8n)
28p
38n
Ni66
54.6 h
28 = 4+2 + 6 + 2x8 + (10n)
28p
40n
Ni68
29 s
28 = 4+2 + 6 + 2x8 + (12n)
58
68.077
60
28 = 2+4 + 6 + 2x8 + (2n)
58, 60, 61, 62, 64
29
34n
Cu
63
69.17
0.06
29 = 4+1+2 + 6 + 2x8 + (5n)
63, 65
68
30
34n
Zn
30p
32n
Zn62
2.38 min
30 = 4+4 + 6 + 2x8
30p
32n
Zn62
9.186 h
30 = 2+2+4 + 6 + 2x8 + (2n)
30p
34n
Zn64
48.63%
stable
30 = 4+4 + 6 + 2x8 + (4n)
30p
36n
Zn66
27.90%
stable
30 = 4+2+2 + 6 + 2x8 + (6n)
30p
37n
Zn67
4.10%
stable
30 = 4+3+1 + 6 + 2x8 + (7n)
30p
38n
Zn68
18.75%
stable
30 = 4+4 + 6 + 2x8 + (8n)
30p
40n
Zn70
0.62%
5x10+14 y
30 = 4+4 + 6 + 2x8 + (10n)
30p
42n
Zn72
46.5 h
30 = 4+2+2 + 6 + 2x8 + (12n)
30p
44n
Zn74
95.6 s
30 = 4+4 + 6 + 2x8 + (14n)
64
48.63
0.3
30 = 4+4 + 6 + 2x8 + (4n)
64, 66, 67, 68, 70
61, 69, 71, 73, 77
31
38n
Ga
69
60.1
0.01
31 = 1 + 6 + 3x8 + (7n)
69, 71
72, 74
32
42n
Ge
32p
32n
Ge64
63.7 s
32 = 4 + 2x6 + 2x8
32p
34n
Ge66
2.26 h
32 = 2+2 + 2x6 + 2x8 + (2n)
32p
36n
Ge68
270.8 d
32 = 4 + 2x6 + 2x8 + (4n)
32p
38n
Ge70
20.37%
stable
32 = 2 + 6 + 3x8 + (6n)
32p
40n
Ge72
27.31%
stable
32 = 2 + 6 + 3x8 + (8n)
32p
41n
Ge73
7.76%
stable
32 = 1+1 + 6 + 3x8 + (9n)
32p
42n
Ge74
36.73%
stable
32 = 2 + 6 + 3x8 + (10n)
32p
44n
Ge76
7.83%
8x10+24 y
32 = 4 + 2x6 + 2x8 + (12n)
32p
46n
Ge78
88.0 min
32 = 2+2 + 2x6 + 2x8 + (14n)
32p
48n
Ge80
29.5 s
32 = 4 + 2x6 + 2x8 + (16n)
74
35.94
0.2
32 = 2 + 6 + 3x8 + (10n)
70, 72, 73, 74,76
69, 73, 75, 77, 79
33
42n
As
75
100
0.008
33 = 1+2 + 6 + 3x8 + (9n)
75
79
34
46n
Se
34p
34n
Se68
35.5 s
34 = 4 + 6 + 3x8
34p
36n
Se70
41.1 min
34 = 2+2 + 6 + 3x8 + (2n)
34p
38n
Se72
8.4 d
34 = 4 + 6 + 3x8 + (4n)
34p
40n
Se74
0.89%
stable
34 = 4 + 6 + 3x8 + (6n)
34p
42n
Se76
9.37%
stable
34 = 2+2 + 6 + 3x8 + (8n)
34p
43n
Se77
7.63%
stable
34 = 2+1+1 + 6 + 3x8 + (9n)
34p
44n
Se78
23.77%
stable
34 = 4 + 6 + 3x8 + (10n)
34p
46n
Se80
49.61%
stable
34 = 4+2 + 2x6 + 2x8 + (12n)
34p
48n
Se82
8.73%
8.3x10+19 y
34 = 2+4 + 2x6 + 2x8 + (14n)
34p
50n
Se84
3.1 min
34 = 4+2 + 2x6 + 2x8 + (16n)
34p
52n
Se86
15.3 s
34 = 4+2 + 2x6 + 2x8 + (18n)
80
49.61
0.03
34 = 4+2 + 2x6 + 2x8 + (12n)
74, 76, 77, 78, 80
73, 77, 79, 81
35
44n
Br
79
50.69
0.007
35 = 1+2+2 + 6 + 3x8 + (9n)
79, 81
76, 77, 79, 80, 82
36
48n
Kr
36p
36n
Kr72
17.2 s
36 = 2 + 18 + 2x8
36p
38n
Kr74
11.50 min
36 = 2 + 18 + 2x8 + (2n)
36p
40n
Kr76
14.8 h
36 = 2 + 18 + 2x8 + (4n)
36p
42n
Kr78
0.35%
9x10+19 y
36 = 2 + 6+12 + 2x8 + (6n)
36p
44n
Kr80
2.28%
stable
36 = 2 + 6+12 + 2x8 + (8n)
36p
46n
Kr82
11.58%
stable
36 = 2 + 6+12 + 2x8 + (10n)
36p
47n
Kr83
11.49%
stable
36 = 4+1+1 + 6 + 3x8 + (11n)
36p
48n
Kr84
57.00%
stable
36 = 2 + 6+12 + 2x8 + (12n)
36p
50n
Kr86
17.30%
stable
36 = 2 + 6+12 + 2x8 + (14n)
36p
52n
Kr88
2.84 h
36 = 4+4 + 12 + 2x8 + (16n)
36p
54n
Kr90
32.32 s
36 = 4+2+2 + 12 + 2x8 + (18n)
36p
56n
Kr92
1.840 s
36 = 4+4 + 12 + 2x8 + (20n)
84
57.00
0.04
36 = 2 + 6+2x6 + 2x8 + (12n)
80, 82, 83, 84, 86
73, 79, 81, 83, 85
37
48n
Rb
85
72.168
0.01
37 = 4+1+2 + 6 + 3x8 + (11n)
85, 87
78, 81, 82, 84, 86
38
50n
Sr
38p
38n
Sr76
8.9 s
38 = 4 + 3x6 + 2x8
38p
40n
Sr78
2.5 min
38 = 2+2 + 3x6 + 2x8 + (2n)
38p
42n
Sr80
106.3 min
38 = 4 + 3x6 + 2x8 + (4n)
38p
44n
Sr82
25.55 d
38 = 4 + 6+2x6 + 2x8 + (6n)
38p
46n
Sr84
0.56%
stable
38 = 2+2 + 6+2x6 + 2x8 + (8n)
38p
48n
Sr86
9.86%
stable
38 = 4 + 6+2x6 + 2x8 + (10n)
38p
50n
Sr88
82.58%
stable
38 = 4 + 6+2x6 + 2x8 + (12n)
38p
52n
Sr90
28.79 y
38 = 2+2 + 6+2x6 + 2x8 + (14n)
38p
54n
Sr92
2.71 h
38 = 4 + 6+2x6 + 2x8 + (16n)
38p
56n
Sr94
75.3 s
38 = 4 + 3x6 + 2x8 + (18n)
38p
58n
Sr96
1.07 s
38 = 2+2 + 3x6 + 2x8 + (20n)
38p
60n
Sr98
0.653 s
38 = 4 + 3x6 + 2x8 + (22n)
88
82.58
0.04
38 = 4 + 6+2x6 + 2x8 + (12n)
84, 86, 87, 88
83, 85, 87
39
50n
Y
89
100
0.007
39 = 1+4 + 3x6 + 2x8 + (11n)
89
80, 83, 85, sok
40
50n
Zr
40p
40n
Zr80
3.9 s
40 = 2+4 + 3x6 + 2x8
40p
42n
Zr82
32 s
40 = 2+4 + 3x6 + 2x8 + (2n)
40p
44n
Zr84
25.9 min
40 = 4+2 + 3x6 + 2x8 + (4n)
40p
46n
Zr86
16.5 h
40 = 2+4 + 3x6 + 2x8 + (6n)
40p
48n
Zr88
83.4 d
40 = 2+4 + 3x6 + 2x8 + (8n)
40p
50n
Zr90
51.45%
stable
40 = 4+2 + 3x6 + 2x8 + (10n)
40p
51n
Zr91
11.22%
stable
40 = 4+1+1 + 3x6 + 2x8 + (11n)
40p
52n
Zr92
17.15%
stable
40 = 4+2 + 3x6 + 2x8 + (12n)
40p
54n
Zr94
17.38%
stable
40 = 2+4 + 12+6 + 2x8 + (14n)
40p
56n
Zr96
2.80%
2.2x10+19 y
40 = 4+2 + 12+6 + 2x8 + (16n)
40p
58n
Zr98
30.7 s
40 = 4+2 + 12+6 + 2x8 + (18n)
40p
60n
Zr100
7.1 s
40 = 2+4 + 18 + 2x8 + (20n)
40p
62n
Zr102
2.9 s
40 = 4+2 + 18 + 2x8 + (22n)
40p
64n
Zr104
1.2 s
40 = 4+2 + 18 + 2x8 + (24n)
90
51.45
0.05
40 = 4+2 + 3x6 + 2x8 + (10n)
90, 91, 92, 94, 96
85, 87, 89, 90, 91
41
52n
Nb
93
100
0.002
41 = 1+4+2 + 3x6 + 2x8 + (11n)
93
90, 91, 93, sok
42
56n
Mo
42p
44n
Mo86
19.6 s
42 = 2+2+4 +18 + 2x8 + (2n)
42p
46n
Mo88
8.0 min
42 = 4+4 +18 + 2x8 + (4n)
42p
48n
Mo90
5.56 h
42 = 4+4 + 6+12 + 2x8 + (6n)
42p
50n
Mo92
14.84%
stable
42 = 2+2+4 + 6+12 + 2x8 + (8n)
42p
52n
Mo94
9.25%
stable
42 = 4+4 + 6+12 + 2x8 + (10n)
42p
53n
Mo95
15.92%
stable
42 = 4+1+3 + 6+12 + 2x8 + (11n)
42p
54n
Mo96
16.68%
stable
42 = 4+2+2 + 6+12 + 2x8 + (12n)
42p
55n
Mo97
9.55%
stable
42 = 1+3+4 + 12+6 + 2x8 + (13n)
42p
56n
Mo98
24.13%
stable
42 = 2+2+4 + 12+6 + 2x8 + (14n)
42p
58n
Mo100
9.63%
9.5x10+18 y
42 = 4+4 + 12+6 + 2x8 + (16n)
42p
60n
Mo102
11.3 min
42 = 4+2+2 + 12+6 + 2x8 + (18n)
42p
62n
Mo104
60 s
42 = 4+4 + 12+6 + 2x8 + (20n)
42p
64n
Mo106
8.4 s
42 = 4+4 + 18 + 2x8 + (22n)
42p
66n
Mo108
1.09 s
42 = 4+2+2 + 18 + 2x8 + (24n)
98
24.13
0.005
42 = 2+2+4 + 12+6 + 2x8 + (14n)
92, 94, 95, 97, sok
89, 91, 93
43
55n
Tc
98
0
43 = 1 + 12+6 + 3x8 + (12n)
0
86, 91, 93, sok
44
58n
Ru
44p
46n
Ru90
11 s
44 = 2+4 + 6 + 8 + 2x12 + (2n)
44p
48n
Ru92
3.65 min
44 = 4+2 + 6 + 8 + 2x12 + (4n)
44p
50n
Ru94
51.8 min
44 = 4+2 + 6 + 8 + 2x12 + (6n)
44p
52n
Ru96
5.54%
stable
44 = 2+4 + 6 + 8 + 2x12 + (8n)
44p
54n
Ru98
1.87%
stable
44 = 2+4 + 6 + 8 + 2x12 + (10n)
44p
56n
Ru100
12.60%
stable
44 = 4+2 + 6 + 8 + 2x12 + (12n)
44p
58n
Ru102
31.55%
stable
44 = 4+2 + 6 + 8 + 2x12 + (14n)
44p
60n
Ru104
18.62%
stable
44 = 2+4 + 6 + 8 + 2x12 + (16n)
44p
62n
Ru106
373.59 d
44 = 4+2 + 6 + 8 + 2x12 + (18n)
44p
64n
Ru108
4.55 min
44 = 4+2 + 6 + 8 + 2x12 + (20n)
102
31.6
0.004
44 = 4+2 + 6 + 8 + 2x12 + (14n)
100, 101, 104, sok
91, 93, 103
45
58n
Rh
103
100
0.0006
45 = 1 + 12 + 8 + 2x12 + (13n)
103
95, 96, 97, sok
46
60n
Pd
46p
46n
Pd92
0.7 s
46 = 2 + 12 + 8 + 2x12
46p
48n
Pd94
9.0 s
46 = 2 + 12 + 8 + 2x12 + (2n)
46p
50n
Pd96
122 s
46 = 4+2 + 16 + 2x12 + (4n)
46p
52n
Pd98
17.7 min
46 = 6 + 16 + 2x12 + (6n)
46p
54n
Pd100
3.63 d
46 = 2 + 12 + 8 + 2x12 + (8n)
46p
56n
Pd102
1.02%
stable
46 = 2 + 12 + 8 + 2x12 + (10n)
46p
58n
Pd104
11.14%
stable
46 = 2 + 12 + 8 + 2x12 + (12n)
46p
59n
Pd105
22.33%
stable
46 = 1+1 + 12 + 8 + 2x12 + (13n)
46p
60n
Pd106
27.33%
stable
46 = 2 + 12 + 8 + 2x12 + (14n)
46p
62n
Pd108
26.46%
stable
46 = 6 + 16 + 2x12 + (16n)
46p
64n
Pd110
11.72%
stable
46 = 2+4 + 16 + 2x12 + (18n)
46p
66n
Pd112
21.03 h
46 = 2 + 12 + 8 + 2x12 + (20n)
46p
68n
Pd114
2.42 min
46 = 2 + 12 + 8 + 2x12 + (22n)
46p
70n
Pd116
11.8 s
46 = 2 + 12 + 8 + 2x12 + (24n)
106
27.33
0.002
46 = 2 + 12 + 8 + 2x12 + (14n)
104, 105, 106, sok
93, 95, 107, sok
47
60n
Ag
107
51.839
0.0006
47 = 1+2 + 12 + 8 + 2x12 + (13n)
107, 109
99, 100, 101, sok
48
66n
Cd
48p
48n
Cd96
1 s
48 = 4 + 12 + 8 + 2x12
48p
50n
Cd98
9.2 s
48 = 2+2 + 12 + 8 + 2x12 + (2n)
48p
52n
Cd100
49.1 s
48 = 4 + 12 + 8 + 2x12 + (4n)
48p
54n
Cd102
5.5 min
48 = 2 + 6 + 16 + 2x12 + (6n)
48p
56n
Cd104
57.7 min
48 = 4 + 12 + 8 + 2x12 + (8n)
48p
58n
Cd106
1.25%
2.6x10+17 y
48 = 2+2 + 12 + 8 + 2x12 + (10n)
48p
60n
Cd108
0.89%
stable
48 = 4 + 12 + 8 + 2x12 + (12n)
48p
62n
Cd110
12.49%
stable
48 = 2+2 + 12 + 8 + 2x12 + (14n)
48p
63n
Cd111
12.80%
stable
48 = 3+1 + 12 + 8 + 2x12 + (15n)
48p
64n
Cd112
24.13%
stable
48 = 4 + 12 + 8 + 2x12 + (16n)
48p
65n
Cd113
12.22%
stable
48 = 1+1 + 6 + 16 + 2x12 + (17n)
48p
66n
Cd114
28.73%
stable
48 = 2 + 6 + 16 + 2x12 + (18n)
48p
68n
Cd116
7.49%
1.2x10+21 y
48 = 4 + 12 + 8 + 2x12 + (20n)
48p
70n
Cd118
50.3 min
48 = 2+2 + 12 + 8 + 2x12 + (22n)
48p
72n
Cd120
50.80 s
48 = 4 + 12 + 8 + 2x12 + (24n)
48p
74n
Cd122
5.24 s
48 = 4+2 + 18 + 8+2x8 + (26n)
48p
76n
Cd124
1.25 s
48 = 2+4 + 18 + 8+2x8 + (28n)
48p
78n
Cd126
0.506 s
48 = 4+2 + 18 + 8+2x8 + (30n)
48p
80n
Cd128
0.28 s
48 = 4+2 + 18 + 8+2x8 + (32n)
48p
82n
Cd130
0.20 s
48 = 2+4 + 18 + 8+2x8 + (34n)
114
28.73
0.002
48 = 2 + 6 + 16 + 2x12 + (18n)
111, 112, 113, sok
111, 113, 123
49
66n
In
115
95.7
0.0003
49 = 1+2 + 6 + 16 + 2x12 + (17n)
113, 115
103, 104, 105, sok
50
70n
Sn
50p
52n
Sn102
4.5 s
50 = 2+4 + 12 + 8 + 2x12 + (2n)
50p
54n
Sn104
20.8 s
50 = 4+2 + 12 + 8 + 2x12 + (4n)
50p
56n
Sn106
115 s
50 = 4+2 + 12 + 8 + 2x12 + (6n)
50p
58n
Sn108
10.30 min
50 = 2+4 + 12 + 8 + 2x12 + (8n)
50p
60n
Sn110
4.11 h
50 = 2+4 + 12 + 8 + 2x12 + (10n)
50p
62n
Sn112
0.97%
stable
50 = 4+2 + 12 + 8 + 2x12 + (12n)
50p
64n
Sn114
0.66%
stable
50 = 2+4 + 12 + 8 + 2x12 + (14n)
50p
65n
Sn115
0.34%
stable
50 = 3+1+2 + 12 + 8 + 2x12 + (15n)
50p
66n
Sn116
14.54%
stable
50 = 4 + 6 + 2x8 + 2x12 + (16n)
50p
67n
Sn117
7.68%
stable
50 = 1+3 + 6 + 2x8 + 2x12 + (17n)
50p
68n
Sn118
24.22%
stable
50 = 2+2 + 6 + 2x8 + 2x12 + (18n)
50p
69n
Sn119
8.59%
stable
50 = 3+1 + 6 + 2x8 + 2x12 + (19n)
50p
70n
Sn120
32.58%
stable
50 = 4 + 6 + 2x8 + 2x12 + (20n)
50p
72n
Sn122
4.63%
stable
50 = 4 + 6 + 2x8 + 2x12 + (22n)
50p
74n
Sn124
5.79%
stable
50 = 2+2 + 6 + 2x8 + 2x12 + (24n)
50p
76n
Sn126
1x10+5 y
50 = 4 + 6 + 2x8 + 2x12 + (26n)
120
32.58
0.004
50 = 4 + 6 + 16 + 2x12 + (20n)
116, 118, 120, sok
113, 117, 119, sok |
