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
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)
Strontium Sr Kernladungszahl Z=38 (p=38)
Sr(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.
Sr88
50
87.90561217
87.88476613
82.58%
0+
stabil
-87.9217E6
768.469E6
0.58#σ(n.γ)
2.
Sr86
48
85.90926018
85.88841414
9.86%
0+
stabil
-84.5236E6
748.928E6
0.23#σ(n.γ); 0.77#σ(n.it)
3.
Sr87
49
86.90887714
86.8880311
7%
9/2+
stabil
-84.8804E6
757.356E6
17#σ(n.γ)
4.
Sr84
46
83.91342532
83.89257928
0.56%
0+
stabil
-80.6438E6
728.906E6
0.199#σ(n.γ); 0.623#σ(n.it)
5.
Sr85
47
84.91293342
84.89208738
9/2+
radioakt.
5.602176E6
K=100
1.065E6
-81.102E6
737.435E6
6.
Sr83
45
82.91755717
82.89671114
7/2+
radioakt.
0.116676E-6
K/β+=100
2.279E6
-76.795E6
716.986E6
7.
Sr82
44
81.91840162
81.89755559
0+
radioakt.
2.206800158324E6
K=100
0.180E6
-76.0084E6
708.128E6
8.
Sr81
43
80.92321185
80.90236582
1/2−
radioakt.
1.338E3
K/β+=100
3.927E6
-71.5277E6
695.576E6
9.
sr80
42
79.92452126
79.90367522
0+
radioakt.
2.520181E5
K/β+=100
1.868E6
-70.308E6
686.285E6
10.
sr79
41
78.92970798
78.90886194
3/2−
radioakt.
195
K/β+=100
5.327E6
-65.4766E6
673.382E6
11.
sr78
40
77.93218003
77.91133399
0+
radioakt.
150
K/β+=100
3.762E6
-63.1739E6
663.008E6
12.
sr77
39
76.93794485
76.91709882
5/2+
radioakt.
9
K/β+=99.8; Kp=0.2
7.021E6(K/β+); 3.921E6(Kp)
-57.804E6
649.567E6
13.
sr76
38
75.94176678
75.92092074
0+
radioakt.
7.89
K/β+=99.66; Kp=0.34
6.236E6(K/β+); 2.791E6(Kp)
-54.2439E6
637.935E6
14.
sr75
37
74.94994954
74.92910351
3/2−
radioakt.
88E-3
K/β+=94.8; Kp=5.2
10.6E6(K/β+); 8.421E6(Kp)
-46.6217E6
622.242E6
15.
Sr89
51
88.90745083
88.88660479
5/2+
radioakt.
4.3632E6
ß-=100
1.495E6
-86.209E6
774.828E6
0.42σ(n.γ)
16.
Sr90
52
89.90773789
89.88689186
0+
radioakt.
28.79a
ß-=100
0.546E6
-85.9416E6
782.632E6
10.4#σ(n.γ)
17.
Sr91
53
90.91020307
90.88935704
5/2+
radioakt.
34.668E3
ß-=100
2.699E6
-83.6453E6
78.8407E7
18.
Sr92
54
91.91103786
91.89019183
0+
radioakt.
9576
ß-=100
1.946E6
-82.8677E6
795.7E6
19.
Sr93
55
92.91402564
92.89317961
5/2−
radioakt.
445.4
ß-=100
4.139E6
-80.0846E6
800.988E6
20.
Sr94
56
93.91536178
93.89451574
0+
radioakt.
75.3
ß-=100
3.508E6
-78.84E6
807.815E6
21.
Sr95
57
94.91935965
94.89851362
1/2+
radioakt.
23.90
ß-=100
6.091E6
-75.116E6
812.162E6
22.
Sr96
58
95.92169783
95.9008518
0+
radioakt.
1.07
ß-=100
5.408E6
-7.2938E7
818.056E6
23.
Sr97
59
96.92615293
96.9053069
1/2+
radioakt.
42.9E4
ß-=99.9; β−n=0.1
7.47E6(β−); 1.487E6(β−n)
-68.7881E6
82.1977E7
24.
Sr98
60
97.92845365
97.90760761
0+
radioakt.
653E-3
ß-=99.75; β−n=0.25
58.22E5 (β−). 15.41E5(β−n)
-66.645E6
82.7905E7
25.
Sr99
61
98.9332409
98.91239487
3/2+
26.9E-2
ß-=99.9; β−n=0.1
801.4E4(β−); 2.21E6(β−n)
-62.1857E6
83.1517E7
26.
Sr100
62
99.93535224
99.91450621
0+
radioakt.
20.2E-2
ß-=99.22; β−n=0.78
0.7075E7(β−). 1.91E6(β−n)
-60.219E6
837.622E6
27.
Sr101
63
100.94051814
100.9196721
5/2−
radioakt.
0.118
ß-=99.97; β−n=0.03
95.05E5(β−). 3.816E6(β−n)
-5.5407E7
8.40881E8
28.
Sr86+1
48
85.90926018
85.88841414
8+
radioakt.
0.45E-6
IT=100
2.956E6
-84.5236E6
74.8928E7
0.23#σ(n.γ); 0.77#σ(n.it)
29.
Sr87+1
49
86.90887714
86.8880311
1/2−
radioakt.
10090.8
K=0.30; IT=99.70
389E3(IT); 0.106E6(K/β+)
-0.848804E8
757.356E6
17#σ(n.γ)
30.
Sr85+1
47
84.91293342
84.89208738
1/2−
radioakt.
243.468E3
IT=86.6; K/β+=13.4
239E3(IT); 1304E3(K/β+)
-0.81102E8
73.7435E7
31.
Sr83+1
45
82.91755717
82.89671114
1/2−
4.95
IT=100
2.59E5
-76.795E6
716.986E6
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*x2024-05-22_04:49:14***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*x0.6180339887498948482***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
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)
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
Attention ! Factor 0.6180339887498948482 to L and to T, invers to f
B
F
error L[%]
Z
N
[1m=1m] Factor2
[1MHz=1.0E6Hz]
[1s=1s]
missing searching value
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