Elementar-Resonanz

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)

Selen Se Kernladungszahl Z=34 (p=34)

Se(n+p)

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]

Se80

79.91652131

79.89786959

49.61%

stabil

-77.7599E6

696.866E6

0.53#σ(n.γ); 48e-3#σ(n.it)

Se78

77.91730919

77.89865747

23.77%

stabil

-77.026E6

679.989E6

0.050#σ(n.γ); 0.380#σ(n.it)

Se76

75.91921365

75.90056194

9.37 %

stabil

-75.252E6

662.073E6

64.8#σ(n.γ); 20#σ(n.it)

Se82

81.91669941

81.8980477

8.73%

radioakt.

9.1E19a

2β-

2.995E6

-77.594E6

712.843E6

5.2E-3#σ(n.γ); 44E-3#σ(n.it)

Se77

76.91991468

76.90126296

7.63%

1/2−

stabil

-74.599E6

669.491E6

41.5#σ(n.γ)

Se74

73.92247723

73.90382551

0.89%

radioakt.

5.5E18a

2ε=100

1.21E6

-72.212E6

642.89E6

52.2#σ(n.γ)

Se73+1

(72.92676604)

(72.90811432)

3/2−

radioakt.

2388

K/β+=27.4; IT=72.6

2.766E6(K/β+); 0.026E6(IT)

(-68.217E6)

(630.824E6)

Se73

72.92676604

72.90811432

9/2+

radioakt.

25740

K/β+=100

2.74E6

-68.217E6

630.824E6

Se72

71.92711236

71.90846064

radioakt.

725760

K=100

0.335E6

-67.8944E6

622.43E6

10.

Se71

70.93224186

70.91359015

5/2−

radioakt.

284.4

K=100

4.778E6

-63.1163E6

609.581E6

11.

Se70

69.93339066

69.91473895

radioakt.

2466

K=100

2.297E6

-62.0462E6

600.439E6

12.

Se69

68.93955785

68.92090613

3/2−

radioakt.

27.4

K=100

6.785E6

-56.3015E6

586.623E6

13.

Se68

67.94179888

67.92314716

radioakt.

35.5

K=100

4.685E6

-54.214E6

576.464E6

14.

Se67

66.95008986

66.93143814

radioakt.

136E-3

K=99.5; Kp=0.5

10.156E6(ε); 7.844E6(pε)

-46.491E6

560.67E6

15.

Se66

65.95520959

65.93655787

radioakt.

33E-3

ε=<100%; pε>0%

9.78E6(ε); 7.404E6(pε)

-41.722E6

547.83E6

16.

Se65

64.96466

64.94600828

radioakt.

ε=<100%; pε>0%

14.062E6(ε); 14.141E6(pε)

-32.919E6

530.955E6

17.

Se75

74.92252339

74.90387167

5/2+

radioakt.

10346400

K=100

0.863E6

-72.169E6

650.918E6

18.

Se77+1

(76.91991468)

(76.90126296)

7/2+

radioakt.

17.36

IT=100

0.162E6

(-74.599E6)

(669.491E6)

(41.484#σ(n.γ))

19.

Se79

78.91849975

78.89984803

7/2+

radioakt.

295211.3637557a

ß-=100

0.151E6

-75.917E6

686.952E6

20.

Se79+1

(78.91849975)

(78.89984803)

1/2−

radioakt.

235.2

IT=99.944; β−=0.056

0.096E6(IT); 0.247E6(β−)

(-75.917E6)

(686.952E6)

21.

Se81

80.9179925

80.89934078

1/2−

radioakt.

1107

ß-=100

1.585E5

-76.3895E6

703.567E6

22.

Se81+1

()

7/2+

radioakt.

3436.8

IT=99.948; β−=0.052

0.103E6(IT); 1.688E6(β−)

()

23.

Se83

82.91911843

82.90046671

9/2+

radioakt.

1338

ß-=100

3.668E6

-75.3407E6

718.661E6

24.

Se83+1

()

1/2−

radioakt.

70.1 s

ß-=100

3.896E6

()

25.

Se84

83.91846239

83.89981067

radioakt.

186

ß-=100

1.847E6

-75.9518E6

727.343E6

26.

Se85

84.92224502

84.9035933

5/2+

radioakt.

31.7

ß-=100

6.182E6

-72.4283E6

731.891E6

27.

Se86

85.92427155

85.90561983

radioakt.

15.3

ß-=100

5.099E6

-70.5406E6

738.075E6

28.

Se87

86.92852139

86.90986967

5/2+

radioakt.

5.5

ß-=99.8; β−n=0.2

7.7275E(ß-); 0.986E(β−n)

-66.5819E6

742.187E6

29.

Se88

87.93142414

87.91277243

radioakt.

1.53

ß-=99.33; β−n=0.67

6.854E(ß-); 1.908E(β−n)

-63.878E6

747.555E6

30.

Se89

88.93645048

88.91779876

5/2+

radioakt.

410E-3

ß-=99.59; β−n=0.41

9.376E(ß-); 3.465E(β−n)

-59.196E6

750.944E6

31.

Se90

89.93995989

89.92130818

radioakt.

<300E-9

ß-=>0; β−n=>0

8.693E(ß-); 4.573E(β−n)

-55.927E6

755.746E6

32.

Se91

90.94595993

90.92730822

radioakt.

270E-3

ß-=79; β−n=21

11.17E(ß-); 6.211E(β−n)

-50.338E6

758.229E6

33.

Se92

91.94992024

91.93126852

radioakt.

<300E-9

ß-=>0; β−n=>0

9.931E(ß-); 6.788E(β−n)

-46.649E6

762.611E6

34.

Se93

92.95628957

92.93763786

1/2+

radioakt.

<150E-9

ß-=>0; β−n=>0

12.333E(ß-); 7.793E(β−n)

-40.716E6

764.749E6

35.

Se94

93.96049035

93.94183864

radioakt.

<150E-9

ß-=>0; β−n=>0

11.001E(ß-); 8.175E(β−n)

-36.803E6

768.908E6

Isotopen-Tabelle ausblenden

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PSE-Tabelle einblenden

Please Select Elements
all nothing

Z=1	Wasserstoff	H
Z=2	Helium	He
Z=3	Lithium	Li
Z=4	Beryllium	Be
Z=5	Bor	B
Z=6	Kohlenstoff	C
Z=7	Stickstoff	N
Z=8	Sauerstoff	O
Z=9	Fluor	F
Z=10	Neon	Ne
Z=11	Natrium	Na
Z=12	Magnesium	Mg
Z=13	Aluminium	Al
Z=14	Silizium	Si
Z=15	Phosphor	P
Z=16	Schwefel	S
Z=17	Chlor	Cl
Z=18	Argon	Ar
Z=19	Kalium	K
Z=20	Calcium	Ca
Z=21	Scandium	Sc
Z=22	Titan	Ti
Z=23	Vanadium	V
Z=24	Chrom	Cr
Z=25	Mangan	Mn
Z=26	Eisen	Fe
Z=27	Kobalt	Co
Z=28	Nickel	Ni
Z=29	Kupfer	Cu
Z=30	Zink	Zn
Z=31	Gallium	Ga
Z=32	Germanium	Ge
Z=33	Arsen	As
Z=34	Selen	Se
Z=35	Brom	Br
Z=36	Krypton	Kr
Z=37	Rubidium	Rb
Z=38	Strontium	Sr
Z=39	Yttrium	Y
Z=40	Zirkon	Zr
Z=41	Niob	Nb
Z=42	Molybdän	Mo
Z=43	Technetium	Tc
Z=44	Ruthenium	Ru
Z=45	Rohdium	Rh
Z=46	Palladium	Pd
Z=47	Silber	Ag
Z=48	Cadmium	Cd
Z=49	Indium	In
Z=50	Zinn	Sn
Z=51	Antimon	Sb
Z=52	Tellur	Te
Z=53	Jod	J
Z=54	Xenon	Xe
Z=55	Cäsium	Cs
Z=56	Barium	Ba
Z=57	Lanthan	La
Z=58	Cer	Ce
Z=59	Praseodym	Pr
Z=60	Neodym	Nd
Z=61	Promethium	Pm
Z=62	Samarium	Sm
Z=63	Europium	Eu
Z=64	Gadolinium	Gd
Z=65	Terbium	Tb
Z=66	Dysprosium	Dy
Z=67	Holmium	Ho
Z=68	Erbium	Er
Z=69	Thulium	Tm
Z=70	Ytterbium	Yb
Z=71	Lutetium	Lu
Z=72	Hafnium	Hf
Z=73	Tantal	Ta
Z=74	Wolfram	W
Z=75	Rhenium	Re
Z=76	Osmium	Os
Z=77	Iridium	Ir
Z=78	Platin	Pt
Z=79	Gold	Au
Z=80	Quecksilber	Hg
Z=81	Thallium	Tl
Z=82	Blei	Pb
Z=83	Wismut	Bi
Z=84	Polonium	Po
Z=85	Astatin	At
Z=86	Radon	Rn
Z=87	Francium	Fr
Z=88	Radium	Ra
Z=89	Actinium	Ac
Z=90	Thorium	Th
Z=91	Protactinium	Pa
Z=92	Uran	U
Z=93	Neptunium	Np
Z=94	Plutonium	Pu
Z=95	Americium	Am
Z=96	Curium	Cm
Z=97	Berkelium	Bk
Z=98	Californium	Cf
Z=99	Einsteinium	Es
Z=100	Fermium	Fm
Z=101	Mendelevium	Md
Z=102	Nobelium	No
Z=103	Lawrencium	Lr
Z=104	Rutherfordium	Rf
Z=105	Dubnium	Db
Z=106	Seaborgium	Sg
Z=107	Bohrium	Bh
Z=108	Hassium	Hs
Z=109	Meitnerium	Mt
Z=110	Darmstadtium	Ds
Z=111	Roentgenium	Rg
Z=112	Copernicium	Cn
Z=113	Ununtrium	Uut
Z=114	Flerovium	Fl
Z=115	Ununpentium	Uup
Z=116	Livermorium	Lv
Z=117	Ununseptium	Uus
Z=118	Ununoctium	Uuo

name off

Actual Settings

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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

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Results      with Cn      Attention ! Factor 3.1415926535897932 to L and to T, invers to f      Attention ! Basis 2.7182818284590452353602874713527

B	F	error L[%]		Z	N	[1m=1m] Factor2	[1MHz=1.0E6Hz]	[1s=1s]
missing searching value

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