Elementarwellen
Erklärung zur Grund-Gleichung (deutsch)
Forum (deutsche Kurz-Hilfe)
Umrechner
LM
Isotopen-Tabelle ausblenden
alle Isotope des PSE gleichzeitig anzeigen
zurück zur PSE-Tabelle
Periodensystem der Elemente (Quelle: größtenteils
www.lenntech.de
)
Eisen Fe Kernladungszahl Z=26 (p=26)
Fe(n+p)
n
Schwere Isotop
Schwere Kern
Häufig-
keit
Spin/
Parität
Stabilität
Halbwerts-
zeit [s]
Zerfalls-
arten
Zerfalls-
energie [eV]
Defekt-
energie [eV]
Bindungs-
energie [eV]
Wirkungsquer-
schnitt [barn]
1.
Fe56
30
55.93493743
55.92067435
91.72%
0+
stabil
-60.6054E6
492.259E6
2.59#σ(n.γ)
2.
Fe54
28
53.93961099
53.92534791
5.8%
0+
radioakt.
31E21a
KK=100
0.68E6
-56.252E6
471.762E6
2.56#σ(n.γ)
3.
Fe57
31
56.935394
56.92113093
2.2%
1/2−
stabil
-60.1801E6
499.905E6
2.48#σ(n.γ)
4.
Fe58
32
57.93327558
57.9190125
0.28%
0+
stabil
-62.1534E6
509.949E6
1.32#σ(n.γ)
5.
Fe55
29
54.93829375
54.92403068
3/2−
radioakt.
2.73a
K=100
0.231E6
-57.479E6
481.061E6
78^±TSP
6.
Fe53+1
27
52.94530797
52.93104489
19/2−
radioakt.
2.58min
IT=100
3.040E6
-50.9453E6
458.384E6
4.4^±TSP
7.
Fe53
27
52.94530797
52.93104489
7/2−
radioakt.
8.51min
K/β+=100
3.742E6
-50.9453E6
458.384E6
92^±TSP
8.
Fe52+1
26
51.94811454
51.93385146
12+
radioakt.
45.9
K/β+=100
9.192E6
-48.331E6
447.699E6
82^±TSP
9.
Fe52
26
51.94811454
51.93385146
0+
radioakt.
8.275h
K/β+=100
2.374E6
-48.331E6
447.699E6
0.21^±TSP
10.
Fe51
25
50.95681958
50.94255651
5/2−
radioakt.
305E-3
K/β+=100
8.019E6
-40.2223E6
431.519E6
0.8^±TSP
11.
Fe50
24
49.96298903
49.94872595
0+
radioakt.
155E-3
K/β+=100
8.156E6
-34.4755E6
417.701E6
5.0^±TSP
12.
Fe49
23
48.97361014
48.95934706
7/2−
radioakt.
64.7E-3
K/β+=44.3; Kp=56.7
13.033E6(K/β+); 10.948E6(Kp)
-24.582E6
399.736E6
35±^TSP
13.
Fe48
22
47.98050444
47.96624136
0+
radioakt.
44E-3
K/β+=96.4; Kp=3.6
11.163E6(K/β+); 9.109E6(Kp)
-18.16E6
385.243E6
0.4999^±TSP
14.
Fe47
21
46.99288992
46.97862684
7/2−
radioakt.
21.8E-3
K/β+=98; Kp>0; K2p>0
15.64E6(K/β+); 15.562E6(Kp); 10.678E6(K2p)
-6.623E6
365.634E6
47^±TSP
15.
Fe46
20
46.00081053
45.98654745
0+
radioakt.
12E-3
K/β+=64; Kp=36
13.125E6(K); 12.431E6(Kp)
0.755E6
350.185E6
54^±TSP
16.
Fe45
19
45.01457766
45.00031458
3/2+
radioakt.
1.9E-3
p=57; β+/K=43
18.693E6(p); 19.751E6(β+/K)
13.579E6
329.29E6
8.2^±TSP
17.
Fe59
33
58.93487548
58.9206124
3/2−
radioakt.
44.503d
ß-=100
1.565E6
-60.6631E6
516.53E6
92^±TSP
18.
Fe60
34
59.93407172
59.91980864
0+
radioakt.
2.6E6a
ß-=100
0.237E6
-61.4118E6
525.35E6
76^±TSP
19.
Fe61
35
60.93674527
60.9224822
5/2−
radioakt.
5.98min
ß-=100
3.977E6
-58.9214E6
530.931E6
23^±TSP
20.
Fe62
36
61.93676825
61.92250517
0+
radioakt.
68
ß-=100
2.531E6
-58.9E6
538.981E6
62^±TSP
21.
Fe63
37
62.94036913
62.92610605
5/2−
radioakt.
6.1
ß-=100
6.295E6
-55.5458E6
543.698E6
34±^TSP
22.
Fe64
38
63.94120198
63.92693891
0+
radioakt.
2
ß-=100
5.022E6
-54.77E6
550.994E6
39^±TSP
23.
Fe65
39
64.94538033
64.93111725
5/2+
radioakt.
1.3
ß-=100
8.292E6
-50.8779E6
555.173E6
99^±TSP
24.
Fe66
40
65.94678066
65.93251758
0+
radioakt.
440E-3
ß-=100
6.538E6
-49.5735E6
561.94E6
0.33^±TSP
25.
Fe67
41
66.95094762
66.93668454
5/2−
radioakt.
600E-3
ß−=100
9.369E6
-45.692E6
566.13E6
13^±TSP
26.
Fe68
42
67.95369997
67.93943689
0+
radioakt.
187E-3
ß-=100
8.2222E6
-43.1282E6
571.637E6
52^±TSP
27.
Fe69
43
68.9587802
68.94451712
1/2−
radioakt.
109E-3
ß−=100
11.607E6
-38.396E6
574.976E6
8.2^±TSP
28.
Fe70
44
69.96145976
69.94719669
0+
radioakt.
94E-3
ß-=100
9.743E6
-35.9E6
580.552E6
93^±TSP
29.
Fe71
45
70.96672013
70.95245705
7/2+
radioakt.
<150E-9
ß-=>0; β−n=>0
12.873E6(ß-); 6.572E6(β−n)
-31E6
583.723E6
26^±TSP
30.
Fe72
46
71.96961977
71.9553567
0+
radioakt.
<150E-9
ß-=>0; β−n=>0
11.001E6(ß-); 7.503E6(β−n)
-28.299E6
589.093E6
89^±TSP
Isotopen-Tabelle ausblenden
zurück zur PSE-Tabelle
PSE-Tabelle einblenden
Please Select Elements
all
nothing
name on
Z=1
Z=2
Z=3
Z=4
Z=5
Z=6
Z=7
Z=8
Z=9
Z=10
Z=11
Z=12
Z=13
Z=14
Z=15
Z=16
Z=17
Z=18
Z=19
Z=20
Z=21
Z=22
Z=23
Z=24
Z=25
Z=26
Z=27
Z=28
Z=29
Z=30
Z=31
Z=32
Z=33
Z=34
Z=35
Z=36
Z=37
Z=38
Z=39
Z=40
Z=41
Z=42
Z=43
Z=44
Z=45
Z=46
Z=47
Z=48
Z=49
Z=50
Z=51
Z=52
Z=53
Z=54
Z=55
Z=56
Z=57
Z=58
Z=59
Z=60
Z=61
Z=62
Z=63
Z=64
Z=65
Z=66
Z=67
Z=68
Z=69
Z=70
Z=71
Z=72
Z=73
Z=74
Z=75
Z=76
Z=77
Z=78
Z=79
Z=80
Z=81
Z=82
Z=83
Z=84
Z=85
Z=86
Z=87
Z=88
Z=89
Z=90
Z=91
Z=92
Z=93
Z=94
Z=95
Z=96
Z=97
Z=98
Z=99
Z=100
Z=101
Z=102
Z=103
Z=104
Z=105
Z=106
Z=107
Z=108
Z=109
Z=110
Z=111
Z=112
Z=113
Z=114
Z=115
Z=116
Z=117
Z=118
name on
Actual Settings
START***1x*x2024-06-24_09:10:21***2x*x33***3x*x33***4x*x0_6_0_0_0***5x*x***6x*x__0_1***7x*x299792458***8x*x2.4263102389E-12***9x*x2***10x*x1***11x*x1_2_3_4_5_6_7_8_9_10_11_12_13_14_15_16_17_18_19_20_21_22_23_24_25_26_27_28_29_30_31_32_33_34_35_36_37_38_39_40_41_42_43_44_45_46_47_48_49_50_51_52_53_54_55_56_57_58_59_60_61_62_63_64_65_66_67_68_69_70_71_72_73_74_75_76_77_78_79_80_81_82_83_84_85_86_87_88_89_90_91_92_93_94_95_96_97_98_99_100_101_102_103_104_105_106_107_108_109_110_111_112_113_114_115_116_117_118***12x*x3***13x*x5_3_100_100_100***14x*x-3_0_0_1_1_1_2_2***END
(SAVE settings with Ctrg-C as txt (Notepad) or
SAVE as browser-Link
)
Search for potenz N and factor2 in selected elements Z, for given result with the multiplikation L*factor2
L = Z * Cx * Basis^N * Factor
N = log(L/(Factor*Z*Cx)) / log(Basis)
and
f=c/L
and
T=L/c
with c=
m/s and Comptonwavelength Cx [m]: Ce=
2.4263102389E-12
Cp=
1.32140985623E-15
Cn=
1.3195909068E-15
Plk=
1.616199E-35
orb_Mercur=
57.91E9
Cx
m Basis
Factor
Basis B with e=
2.7182818284590
phi=
1.618034
or
2
, Factor with pi=
3.141592
2pi=
6.283185
g=
0.61803398874989
or
18
show digits Select Units
L
Length
Lj
pc
AE
earthR
km
m
dm
cm
mm
µm
nm
A~
pm
fm
f
Frequency
THz
GHz
MHz
kHz
Hz
mHz
µHz
T
Time
j
d
h
min
s
ms
µs
ns
ps
V
Volume =L^3
km^3
m^3
hL=100L
dL=10L
dm^3=L
10ml=cL
cm^3=mL
mm^3=µL
m
Mass =V*dens.
Mt
kt
t
kg
g
mg
µg
ng
pg
fg
(Reset with deleting the number)
Reset 3 Factor-Search (Example1)
(Example2)
1 Listing - Modus
2 Searching - Modus
3 Factor-Search
4 Basis(+Factor)-Search
5 Basis(+Factor)-Harmonics-Search
Value for Searching:
m
Length
search factor2 (integer) with lattice constants: 118L or 118R
By using this code as text you call the physical
lattice constants and atomic radii from the database
, for many Z.
If you use the value Factor additional, you can find rational numbers between L and Lattice(Z): 0.333333*
ResultF
= 1/3*
ResultF
or Factor=0.5 with Basis>2
error L maximal
0.1%
0.5%
1%
2%
5%
all
to top
Results
with Ce
B
error L[%]
Z
N
[1m=1m] Factor2
[1MHz=1.0E6Hz]
[1s=1s]
missing searching value
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