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
)
Radon Rn Kernladungszahl Z=86 (p=86)
Rn(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.
Rn222
136
222.01757778
221.97039991
99.98%
0+
radioakt.
0.3303504E6
α=100
5.591E6
16.3736E6
1708.178E6
0.72#σ(n.γ)
2.
Rn224
138
224.02409033
223.97691246
0.02%
0+
radioakt.
107
ß-=100
0.783E6
22.44E6
1718.254E6
3.
Rn223
137
223.02178973
222.97461185
7/2+
radioakt.
1392
ß-=100
1.913E6
20.297E6
1712.326E6
4.
Rn221
135
221.01553633
220.96835846
7/2+
radioakt.
1.5E3
β−=78; α=22
6.146E6(β−); 1.194E6(α)
14.472E6
1702.009E6
5.
Rn220
134
220.01139395
219.96421608
0+
radioakt.
55.6
α=100
6.405E6
10.6134E6
1697.796E6
6.
Rn219
133
219.00948025
218.96230238
5/2+
radioakt.
3.96
α=100
6.946E6
8.8308E6
1691.507E6
7.
Rn218
132
218.00560068
217.95842281
0+
radioakt.
35E-3
α=100
7.261E6
5.217E6
1687.05E6
8.
Rn217
131
217.00392767
216.9567498
9/2+
radioakt.
540E-6
α=100
7.887E6
3.6586E6
1680.537E6
9.
Rn216
130
216.00027375
215.95309588
0+
radioakt.
45E-6
α=100
8.199E6
0.255E6
1675.869E6
10.
Rn215
129
214.99874546
214.95156758
9/2+
radioakt.
2.3E-6
α=100
8.839E6
-1.1686E6
1669.221E6
11.
Rn214
128
213.99536336
213.94818549
0+
radioakt.
0.270E-6
α=100
9.209E6
-4.319E6
1664.3E6
12.
Rn213
127
212.99388295
212.94670507
9/2+
radioakt.
19.5E-3
α=100
8.243E6
-5.698E6
1657.608E6
13.
Rn212
126
211.99070354
211.94352566
0+
radioakt.
1434
α=100
6.384E6
-8.6596E6
1652.498E6
14.
Rn211
125
210.99060112
210.94342325
1/2−
radioakt.
52560
K/β+<72.6; α<27.4; (α-n>1E-11)
2.892E6(K/β); 5.966E6(α); (7.954E6(α-n))
-8.755E6
1644.522E6
15.
Rn210
124
209.98969623
209.94251836
0+
radioakt.
8640
K/β+=96; α=4
6.158E6(K/β); 2.374E6(α)
-9.5979E6
1637.294E6
16.
Rn209
123
208.99041475
208.94323688
5/2−
radioakt.
1710
K/β+=83; α=17
3.951E6(K/β); 6.155E6(α)
-8.9286E6
1628.553E6
17.
Rn208
122
207.98964352
207.94246565
0+
radioakt.
1461
K/β+=38; α=62
2.844E6(K/β); 6.261E6(α)
-9.647E6
1621.2E6
18.
Rn207
121
206.99073424
206.94355637
5/2−
radioakt.
555
K/β+=79; α=21
4.612E6(K/β); 6.251E6(α)
-8.631E6
1612.113E6
19.
Rn206
120
205.99021464
205.94303677
0+
radioakt.
340.2
K/β+=38; α=62
3.304E6(K/β); 6.384E6(α)
-9.115E6
1604.526E6
20.
Rn205
119
204.99171879
204.94454092
5/2−
radioakt.
170
K/β+=75.4; α=24.6
5.258E6(K/β); 6.385E6(α)
-7.7139E6
1595.053E6
21.
Rn204
118
203.99142872
203.94425084
0+
radioakt.
74.4
K/β+=73; α=27
6.545E6(K/β); 3.891E6(α)
-7.9841E6
1587.252E6
22.
Rn203
117
202.99338665
202.94620877
3/2−
radioakt.
44
K/β+=66; α=34
6.629E6(K/β); 6.003E6(α)
-6.1603E6
1577.357E6
23.
Rn202
116
201.99326351
201.94608564
0+
radioakt.
9.7
K/β+=22; α=78
4.315E6(K/β); 6.773E6(α)
-6.275E6
1569.4E6
24.
Rn201
115
200.99562853
200.94845066
3/2−
radioakt.
7
K/β+>0; α>0
6.717E6(K/β); 6.861E6(α)
-4.072E6
1559.126E6
25.
Rn200
114
199.99569938
199.94852151
0+
radioakt.
1.03288
K/β+=14; α=86
4.981E6(K/β); 7.037E6(α)
-4.006E6
1550.989E6
26.
Rn199
113
198.99837036
198.95119249
3/2−
radioakt.
590E-3
K/β+=6; α=94
7.301E6(K/β); 7.131E6(α)
-1.518E6
1540.43E6
27.
Rn198
112
197.99867868
197.95150081
0+
radioakt.
64.497E-3
K/β+>0; α>0
5.441E6(K/β); 7.349E6(α)
-1.2308E6
1532.071E6
28.
Rn197
111
197.00158434
196.95440646
3/2−
radioakt.
64.818E-3
α=100
7.41E6
1.4758E6
1521.293E6
29.
Rn196
110
196.00211488
195.95493701
0+
radioakt.
4.4E-3
K/β+=0.06; α=99.94
5.893E6(K/β); 7.616E6(α)
1.97E6
1512.728E6
30.
Rn225
139
225.02844033
224.98126246
7/2−
radioakt.
279.6
ß-=100
2.678E6
26.492E6
1722.274E6
31.
Rn226
140
226.03089016
225.98371229
0+
radioakt.
444
ß-=100
1.401E6
28.774E6
1728.063E6
32.
Rn227
141
227.03540656
226.98822869
5/2+
radioakt.
20.8
ß-=100
3.326E6
32.981E6
1731.927E6
33.
Rn228
142
228.03798629
227.99080842
0+
radioakt.
65
ß-=100
2.102E6
35.384E6
1737.596E6
34.
Rn229
143
229.04226
228.99508213
(3/2+)
radioakt.
12
ß-=100
3.549E6
39.364937E6
1741.686E6
35.
Rn214+1
128
213.99536336
213.94818549
6+
radioakt.
690E-12
IT<100; α>0
1.443E6(IT); 10.651E6(α)
-4.319E6
1664.3E6
36.
Rn203+1
117
202.99338665
202.94620877
(13/2+)
radioakt.
28
α≈80 sys; K/β+≈20 sys; IT<0.1
6.991E6(α); 6.361E6(K/β+); 0.361E6(IT)
-6.1603E6
1577.357E6
37.
Rn201+1
115
200.99562853
200.94845066
13/2+
radioakt.
3.8
α≈90; K/β+≈10; IT≈0
7.14E6(α); 6.88E6(K/β+); 0.28E6(IT)
-4.072E6
1559.126E6
38.
Rn199+1
113
198.99837036
198.95119249
(13/2+)
radioakt.
320E-3
α=97 sys; K/β+=3 sys
(7.97E6(α); 7.307E6K/β+)
-1.518E6
1540.43E6
39.
Rn197+1
111
197.0015843
196.9544064
13/2+
radioakt.
19E-3
α=100
7.4297E6
1.4758E6
1521.293E6
40.
Rn214+2
128
213.99536336
213.94818549
8+
radioakt.
6.5E-9
IT≈90; α≈10
1.625E6(IT); 10.833E6(α)
-4.319E6
1664.3E6
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*x2024-06-20_03:22:20***2x*x33***3x*x33***4x*x0_6_0_0_0***5x*x***6x*x__0_1***7x*x299792458***8x*x57.91E9***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 C(orbit_Mercur)
B
error L[%]
Z
N
[1m=1m] Factor2
[1MHz=1.0E6Hz]
[1s=1s]
missing searching value
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