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Revisi per 8 Januari 2015 06.24 sunting JohnThorne (bicara \| kontrib) Pengecualian blokir IP 151.852 suntingan ←Membuat halaman berisi '{{#switch: {{{1}}}<!-- --> \|symbol={{#switch: {{{2}}} \|alpha=''α'' \|c=''c'' \|e=''e'' \|eps0=''ε''<sub>0</sub> \|eV=1 eV \|F=''F'' \|G=''G'' \|G0=''G''<sub>0</sub...'		Revisi terkini sejak 16 Desember 2024 05.38 sunting balikkan NikolasKHF (bicara \| kontrib) 851 suntingan kTidak ada ringkasan suntingan
(3 revisi perantara oleh 3 pengguna tidak ditampilkan)
Baris 1: {{#switch: {{{1}}} <!-- \|_name_ = {{#switch: {{{2}}} --> \|symbol={{#switch: {{{2}}} \|alpha=''α'' \|c=''c'' \|e=''e'' \|eps0=''ε''<sub>0</sub> \|eV=1 eV \|F=''F'' \|G=''G'' \|G0=''G''<sub>0</sub> \|h=''h'' \|hbar=''ħ'' \|invalpha=1/''α'' \|k=''k'' \|me=''m''<sub>e</sub> \|mp=''m''<sub>p</sub> \|mpome=''m''<sub>p</sub>/''m''<sub>e</sub> \|mu=''m''<sub>u</sub> \|mu0=''μ''<sub>0</sub> \|NA=''N''<sub>A</sub> \|Phi0=''Φ''<sub>0</sub> \|R=''R'' \|Rinf=''R''<sub>∞</sub> \|sigma=''σ''\|bwien=''b''}}<!-- \|symbol = _simbol_ --> \|val= {{#switch: {{{2}}} \|alpha=7.2973525698 \|c=299792458 \|e=1.602176565 \|eps0=8.854187817 \|eV=1.602176565 \|F=96485.3365 \|G=6.67384 \|G0=7.7480917346 \|h=6.62606957 \|hbar=1.054571726 \|invalpha=137.035999074 \|k=1.3806488 \|me=9.10938291 \|mp=1.672621777 \|mpome=1836.15267245 \|mu=1.660538921 \|mu0=12.566370614 \|NA=6.02214129 \|Phi0=2.067833758 \|R=8.3144621 \|Rinf=10973731.568539 \|sigma=5.670373\|bwien=2.8977721}}<!-- \|val = _nilai signifikan_ ~~--> \|round= {{#switch: {{{2}}} \|alpha=8 \|c=0 \|e=7 \|eps0=9 \|eV=7 \|F=2 \|G=3 \|G0=8 \|h=6 \|hbar=7 \|invalpha=7 \|k=6 \|me=6 \|mp=7 \|mpome=6 \|mu=7 \|mu0=9 \|NA=6 \|Phi0=7 \|R=5 \|Rinf=4 \|sigma=4\|bwien=5}}<!--~~ \|un1 = _standar ketidakpastian pada nilai signifikan_ --> \|unc= {{#switch: {{{2}}} \|alpha=(24) \|c= \|e=(35) \|eps0= \|eV=(35) \|F=(21) \|G=(80) \|G0=(25) \|h=(29) \|hbar=(47) \|invalpha=(44) \|k=(13) \|me=(40) \|mp=(74) \|mpome=(75) \|mu=(73) \|mu0= \|NA=(27) \|Phi0=(46) \|R=(75) \|Rinf=(55) \|sigma=(21)\|bwien=(26)}}<!-- \|unc = _(standar digit ketidakpastian dengan bentuk ringkas) ATAU kosong jika persis_ ~~--> \|end= {{#switch: {{{2}}} \|eps0=... \|mu0=...}}<!--~~ \|end = _tambahan karakter setelah nilai signifikan_ --> \|exp= {{#switch: {{{2}}} \|alpha=-3 \|c= \|e=-19 \|eps0=-12 \|eV=-19 \|F= \|G=-11 \|G0=-5 \|h=-34 \|hbar=-34 \|invalpha= \|k=-23 \|me=-31 \|mp=-27 \|mpome= \|mu=-27 \|mu0=-7 \|NA=23 \|Phi0=-15 \|R=-7 \|Rinf= \|sigma=-8\|bwien=-3}}<!-- \|exp = _pangkat nilai_ --> \|unit= {{#switch: {{{2}}} \|alpha= \|c=m/s \|e=C \|eps0=F/m \|eV=J \|F=C/mol \|G=m<sup>3</sup> kg<sup>−1</sup> s<sup>−2</sup> \|G0=S \|h=J s \|hbar=J s \|invalpha= \|k=J/K \|me=kg \|mp=kg \|mpome= \|mu=kg \|mu0=N/A<sup>2</sup> \|NA=mol<sup>−1</sup> \|Phi0=Wb \|R=J mol<sup>−1</sup> K<sup>−1</sup> \|Rinf=m<sup>−1</sup> \|sigma=W m<sup>−2</sup> K<sup>−4</sup>\|bwien=m K}}<!-- \|unit = _satuan nilai_ ~~--> \|ref= {{#switch: {{{2}}} <!--~~ \|runc = _signifikasi dari standar ketidakpastian relatif_ --> \|alpha=<ref name="physconst-alpha">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?alph \|title=CODATA Value: fine-structure constant \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|rexp = _pangkat dari standar ketidakpastian relatif_ --> \|c=<ref name="physconst-c">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?c \|title=CODATA Value: speed of light in vacuum \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|ref = _referensi konten catatan kaki_ --> \|e=<ref name="physconst-e">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?e \|title=CODATA Value: elementary charge \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- }} --> \|eps0=<ref name="physconst-eps0">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?ep0 \|title=CODATA Value: electric constant \|month= \|date =June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- --> --> \|eV=<ref name="physconst-eV">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?tevj \|title=CODATA Value: electron volt \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|c = {{#switch: {{{2}}} --> \|F=<ref name="physconst-F">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?f \|title=CODATA Value: Faraday constant \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|symbol = ''c'' --> \|G=<ref name="physconst-G">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?bg \|title=CODATA Value: Newtonian constant of gravitation \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|val = 299792458 --> \|G0=<ref name="physconst-G0">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh \|title=CODATA Value: conductance quantum \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|un1 = --> \|h=<ref name="physconst-h">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?h \|title=CODATA Value: Planck constant \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|unc = --> \|hbar=<ref name="physconst-hbar">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?hbar \|title=CODATA Value: Planck constant over 2 pi \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|exp = --> \|invalpha=<ref name="physconst-invalpha">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?alphinv \|title=CODATA Value: inverse fine-structure constant \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|unit = m⋅s<sup>−1</sup> --> \|k=<ref name="physconst-k">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?k \|title=CODATA Value: Boltzmann constant \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|runc = 0 --> \|me=<ref name="physconst-me">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?me \|title=CODATA Value: electron mass \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|rexp = --> \|mp=<ref name="physconst-mp">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?mp \|title=CODATA Value: proton mass \|month= \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- ~~-->~~ \|~~mpome~~ref = <ref name="physconst-~~mpome~~c">{{cite web \|url=~~http~~https://physics.nist.gov/cgi-bin/cuu/Value?~~mpsme~~c \|title=2022 CODATA Value: ~~proton-electron~~speed ~~mass~~of ~~ratio~~light ~~\|month=~~in vacuum \|date=~~June~~Mei ~~2011~~2024 \|work=~~[http://physics.nist.gov/cuu/index.html~~ The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[~~National~~Institut ~~Institute~~Standar ofdan ~~Standards~~Teknologi ~~and Technology~~Nasional\|NIST]] \|~~accessdate~~access-date=~~2011~~2024-0605-2318}}</ref>~~<!--~~ }} --> \|mu=<ref name="physconst-mu">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?u \|title=CODATA Value: atomic mass constant \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|e = {{#switch: {{{2}}} --> \|mu0=<ref name="physconst-mu0">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?mu0 \|title=CODATA Value: magnetic constant \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|symbol = ''e'' --> \|NA=<ref name="physconst-NA">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?na \|title=CODATA Value: Avogadro constant \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|val = 1.602176634 --> \|Phi0=<ref name="physconst-Phi0">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e \|title=CODATA Value: magnetic flux quantum \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|un1 = --> \|R=<ref name="physconst-R">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?r \|title=CODATA Value: molar gas constant \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|unc = --> \|Rinf=<ref name="physconst-Rinf">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?ryd \|title=CODATA Value: Rydberg constant \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2011-06-23}}</ref><!-- \|exp = -19 --> \|sigma=<ref name="physconst-sigma">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?sigma \|title=CODATA Value: Stefan-Boltzmann constant \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2013-11-03}}</ref><!-- \|unit = C --> \|bwien=<ref name="physconst-bwien">{{cite web \|url=http://physics.nist.gov/cgi-bin/cuu/Value?bwien \|title=CODATA Value: Wien wavelength displacement law constant \|date=June 2011 \|work=[http://physics.nist.gov/cuu/index.html The NIST Reference on Constants, Units, and Uncertainty] \|publisher=US [[National Institute of Standards and Technology]] \|accessdate=2013-11-03}}</ref><!-- \|runc = 0 ~~-->}}<!--~~ \|rexp = ~~-->}}~~ \|ref = <ref name="physconst-e">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?e \|title=2022 CODATA Value: elementary charge \|date=Mei 2024\| work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|eV = {{#switch: {{{2}}} \|symbol = eV \|val = 1.602176634 \|un1 = \|unc = \|exp = -19 \|unit = J \|runc = 0 \|rexp = \|ref = <ref name="physconst-eV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?evj \|title=2022 CODATA Value: electron volt \|date=Mei 2024\|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|F = {{#switch: {{{2}}} \|symbol = ''F'' \|val = 9.648533212 \|un1 = \|unc = \|end = ... \|exp = 4 \|unit = C⋅mol<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-F">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?f \|title=2022 CODATA Value: Faraday constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|G = {{#switch: {{{2}}} \|symbol = ''G'' \|val = 6.67430 \|un1 = 0.00015 \|unc = (15) \|exp = -11 \|unit = m<sup>3</sup>⋅kg<sup>−1</sup>⋅s<sup>−2</sup> \|runc = 2.2 \|rexp = -5 \|ref = <ref name="physconst-G">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?bg \|title=2022 CODATA Value: Newtonian constant of gravitation \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|G0 = {{#switch: {{{2}}} \|symbol = ''G''<sub>0</sub> \|val = 7.748091729 \|un1 = \|unc = \|end = ... \|exp = -5 \|unit = S \|runc = 0 \|rexp = \|ref = <ref name="physconst-G0">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh \|title=2022 CODATA Value: conductance quantum \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|G0inv = {{#switch: {{{2}}} \|symbol = ''G''<sub>0</sub><sup>−1</sup> \|val = 12906.40372 \|un1 = \|unc = \|end = ... \|exp = \|unit = Ω \|runc = 0 \|rexp = \|ref = <ref name="physconst-G0inv">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?invconqu \|title=2022 CODATA Value: inverse of conductance quantum \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|GF/hbarc3 = {{#switch: {{{2}}} \|symbol = ''G''<sub>F</sub>/&NoBreak;(''ħc'')<sup>3</sup> \|val = 1.1663787 \|un1 = 0.0000006 \|unc = (6) \|exp = -5 \|unit = GeV<sup>−2</sup> \|runc = 5.1 \|rexp = -7 \|ref = <ref name="physconst-GF">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gf \|title=2022 CODATA Value: Fermi coupling constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|h = {{#switch: {{{2}}} \|symbol = ''h'' \|val = 6.62607015 \|un1 = \|unc = \|exp = -34 \|unit = J⋅Hz<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-h">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?h \|title=2022 CODATA Value: Planck constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|h_eV/Hz = {{#switch: {{{2}}} \|symbol = ''h'' \|val = 4.135667696 \|un1 = \|unc = \|end = ... \|exp = -15 \|unit = eV⋅Hz<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-heV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?hev \|title=2022 CODATA Value: Planck constant in eV/Hz \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|hbar = {{#switch: {{{2}}} \|symbol = ''ħ'' \|val = 1.054571817 \|un1 = \|unc = \|end = ... \|exp = -34 \|unit = J⋅s \|runc = 0 \|rexp = \|ref = <ref name="physconst-hbar">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?hbar \|title=2022 CODATA Value: reduced Planck constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|hbar_eVs = {{#switch: {{{2}}} \|symbol = ''ħ'' \|val = 6.582119569 \|un1 = \|unc = \|end = ... \|exp = -16 \|unit = eV⋅s \|runc = 0 \|rexp = \|ref = <ref name="physconst-hbarev">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?hbarev \|title=2022 CODATA Value: reduced Planck constant in eV s \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|k = {{#switch: {{{2}}} \|symbol = ''k'' \|val = 1.380649 \|un1 = \|unc = \|exp = -23 \|unit = J⋅K<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-k">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?k \|title=2022 CODATA Value: Boltzmann constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|KJ = {{#switch: {{{2}}} \|symbol = ''K''<sub>J</sub> \|val = 483597.8484 \|un1 = \|unc = \|end = ... \|exp = 9 \|unit = Hz⋅V<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-KJ">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?kjos \|title=2022 CODATA Value: Josephson constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|NA = {{#switch: {{{2}}} \|symbol = ''N''<sub>A</sub> \|val = 6.02214076 \|un1 = \|unc = \|exp = 23 \|unit = mol<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-NA">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?na \|title=2022 CODATA Value: Avogadro constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|NAh = {{#switch: {{{2}}} \|symbol = ''N''<sub>A</sub>''h'' \|val = 3.990312712 \|un1 = \|unc = \|end = ... \|exp = -10 \|unit = J⋅Hz<sup>−1</sup>⋅mol<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-NAh">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?nah \|title=2022 CODATA Value: molar Planck constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|R = {{#switch: {{{2}}} \|symbol = ''R'' \|val = 8.314462618 \|un1 = \|unc = \|end = ... \|exp = \|unit = J⋅mol<sup>−1</sup>⋅K<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-R">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?r \|title=2022 CODATA Value: molar gas constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|RK = {{#switch: {{{2}}} \|symbol = ''R''<sub>K</sub> \|val = 25812.80745 \|un1 = \|unc = \|end = ... \|exp = \|unit = Ω \|runc = 0 \|rexp = \|ref = <ref name="physconst-RK">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rk \|title=2022 CODATA Value: von Klitzing constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Z0 = {{#switch: {{{2}}} \|symbol = ''Z''<sub>0</sub> \|val = 376.730313412 \|un1 = 0.000000059 \|unc = (59) \|exp = \|unit = Ω \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-Z0">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?z0 \|title=2022 CODATA Value: characteristic impedance of vacuum \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|alpha = {{#switch: {{{2}}} \|symbol = ''α'' \|val = 0.0072973525643 \|un1 = 0.0000000000011 \|unc = (11) \|exp = <!-- keep without a power-of-ten multiplier for WP use --> \|unit = \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-alpha">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?alph \|title=2022 CODATA Value: fine-structure constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|alphainv = {{#switch: {{{2}}} \|symbol = ''α''<sup>−1</sup> \|val = 137.035999177 \|un1 = 0.000000021 \|unc = (21) \|exp = \|unit = \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-alphainv">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?alphinv \|title=2022 CODATA Value: inverse fine-structure constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|eps0 = {{#switch: {{{2}}} \|symbol = ''ε''<sub>0</sub> \|val = 8.8541878188 \|un1 = 0.0000000014 \|unc = (14) \|exp = -12 \|unit = F⋅m<sup>−1</sup> \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-eps0">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?ep0 \|title=2022 CODATA Value: vacuum electric permittivity \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|sin2thW = {{#switch: {{{2}}} \|symbol = sin<sup>2</sup>''θ''<sub>W</sub> \|val = 0.22305 \|un1 = 0.00023 \|unc = (23) \|exp = \|unit = \|runc = 1.0 \|rexp = -3 \|ref = <ref name="physconst-sin2thW">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?sin2th \|title=2022 CODATA Value: weak mixing angle \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mu0 = {{#switch: {{{2}}} \|symbol = ''μ''<sub>0</sub> \|val = 1.25663706127 \|un1 = 0.00000000020 \|unc = (20) \|exp = -6 \|unit = N⋅A<sup>−2</sup> \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-mu0">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mu0 \|title=2022 CODATA Value: vacuum magnetic permeability \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Phi0 = {{#switch: {{{2}}} \|symbol = ''Φ''<sub>0</sub> \|val = 2.067833848 \|un1 = \|unc = \|end = ... \|exp = -15 \|unit = Wb \|runc = 0 \|rexp = \|ref = <ref name="physconst-Phi0">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e \|title=2022 CODATA Value: magnetic flux quantum \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} <!-- Thermal radiation --> \|bwien = {{#switch: {{{2}}} \|symbol = ''b'' \|val = 2.897771955 \|un1 = \|unc = \|end = ... \|exp = -3 \|unit = m⋅K \|runc = 0 \|rexp = \|ref = <ref name="physconst-bwien">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?bwien \|title=2022 CODATA Value: Wien wavelength displacement law constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|bwien' = {{#switch: {{{2}}} \|symbol = ''b''′ \|val = 5.878925757 \|un1 = \|unc = \|end = ... \|exp = 10 \|unit = Hz⋅K<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-bwienf">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?bpwien \|title=2022 CODATA Value: Wien frequency displacement law constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|c1 = {{#switch: {{{2}}} \|symbol = ''c''<sub>1</sub> \|val = 3.741771852 \|un1 = \|unc = \|end = ... \|exp = -16 \|unit = W⋅m<sup>2</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-c1">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?c11strc \|title=2022 CODATA Value: first radiation constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|c1L = {{#switch: {{{2}}} \|symbol = ''c''<sub>1L</sub> \|val = 1.191042972 \|un1 = \|unc = \|end = ... \|exp = -16 \|unit = W⋅m<sup>2</sup>⋅sr<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-c1L">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?c1l \|title=2022 CODATA Value: first radiation constant for spectral radiance \|date=Mei 2024\|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|c2 = {{#switch: {{{2}}} \|symbol = ''c''<sub>2</sub> \|val = 1.438776877 \|un1 = \|unc = \|end = ... \|exp = -2 \|unit = m⋅K \|runc = 0 \|rexp = \|ref = <ref name="physconst-c2">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc \|title=2022 CODATA Value: second radiation constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|sigma = {{#switch: {{{2}}} \|symbol = ''σ'' \|val = 5.670374419 \|un1 = \|unc = \|end = ... \|exp = -8 \|unit = W⋅m<sup>−2</sup>⋅K<sup>−4</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-sigma">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?sigma \|title=2022 CODATA Value: Stefan–Boltzmann constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} <!-- Particle-related vaules --> \|asil = {{#switch: {{{2}}} \|symbol = ''a'' \|val = 5.431020511 \|un1 = 0.000000089 \|unc = (89) \|exp = -10 \|unit = m \|runc = 1.6 \|rexp = -8 \|ref = <ref name="physconst-asil">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?asil \|title=2022 CODATA Value: lattice parameter of silicon \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|a0 = {{#switch: {{{2}}} \|symbol = ''a''<sub>0</sub> \|val = 5.29177210544 \|un1 = 0.00000000082 \|unc = (82) \|exp = -11 \|unit = m \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-a0">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0 \|title=2022 CODATA Value: Bohr radius \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|ae = {{#switch: {{{2}}} \|symbol = ''a''<sub>e</sub> \|val = 0.00115965218046 \|un1 = 0.00000000000018 \|unc = (18) \|exp = \|unit = \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-ae">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?ae \|title=2022 CODATA Value: electron magnetic moment anomaly \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Ar(d) = {{#switch: {{{2}}} \|symbol = ''A''<sub>r</sub>(d) \|val = 2.013553212544 \|un1 = 0.000000000015 \|unc = (15) \|exp = \|unit = \|runc = 7.4 \|rexp = -12 \|ref = <ref name="physconst-Ard">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?ard \|title=2022 CODATA Value: deuteron relative atomic mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Ar(e) = {{#switch: {{{2}}} \|symbol = ''A''<sub>r</sub>(e) \|val = 5.485799090441 \|un1 = 0.000000000097 \|unc = (97) \|exp = -4 \|unit = \|runc = 1.8 \|rexp = -11 \|ref = <ref name="physconst-Are">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?are \|title=2022 CODATA Value: electron relative atomic mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Ar(h) = {{#switch: {{{2}}} \|symbol = ''A''<sub>r</sub>(h) \|val = 3.014932246932 \|un1 = 0.000000000074 \|unc = (74) \|exp = \|unit = \|runc = 2.5 \|rexp = -11 \|ref = <ref name="physconst-Arh">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?arh \|title=2022 CODATA Value: helion relative atomic mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Ar(n) = {{#switch: {{{2}}} \|symbol = ''A''<sub>r</sub>(n) \|val = 1.00866491606 \|un1 = 0.00000000040 \|unc = (40) \|exp = \|unit = \|runc = 4.0 \|rexp = -10 \|ref = <ref name="physconst-Arn">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?arn \|title=2022 CODATA Value: neuton relative atomic mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Ar(p) = {{#switch: {{{2}}} \|symbol = ''A''<sub>r</sub>(p) \|val = 1.0072764665789 \|un1 = 0.0000000000083 \|unc = (83) \|exp = \|unit = \|runc = 8.3 \|rexp = -12 \|ref = <ref name="physconst-Arp">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?arp \|title=2022 CODATA Value: proton relative atomic mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Ar(t) = {{#switch: {{{2}}} \|symbol = ''A''<sub>r</sub>(t) \|val = 3.01550071597 \|un1 = 0.00000000010 \|unc = (10) \|exp = \|unit = \|runc = 3.4 \|rexp = -11 \|ref = <ref name="physconst-Art">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?art \|title=2022 CODATA Value: triton relative atomic mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Ar(alpha) = {{#switch: {{{2}}} \|symbol = ''A''<sub>r</sub>(α) \|val = 4.001506179129 \|un1 = 0.000000000062 \|unc = (62) \|exp = \|unit = \|runc = 1.6 \|rexp = -11 \|ref = <ref name="physconst-Aralpha">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aral \|title=2022 CODATA Value: alpha particle relative atomic mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|-e/me = {{#switch: {{{2}}} \|symbol = −''e''/&NoBreak;''m''<sub>e</sub> \|val = -1.75882000838 \|un1 = 0.00000000055 \|unc = (55) \|exp = 11 \|unit = C⋅kg<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-eome">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?esme \|title=2022 CODATA Value: electron charge to mass quotient \|date=Mei 2024\|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Eh = {{#switch: {{{2}}} \|symbol = ''E''<sub>h</sub> \|val = 4.3597447222060 \|un1 = 0.0000000000048 \|unc = (48) \|exp = -18 \|unit = J \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-Eh">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?hr \|title=2022 CODATA Value: Hartree energy \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Eh_eV = {{#switch: {{{2}}} \|symbol = ''E''<sub>h</sub> \|val = 27.211386245981 \|un1 = 0.0000000000030 \|unc = (30) \|exp = \|unit = eV \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-EheV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?hrev \|title=2022 CODATA Value: Hartree energy in eV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|ge = {{#switch: {{{2}}} \|symbol = ''g''<sub>e<sup>−</sup></sub> \|val = -2.00231930436092 \|un1 = 0.00000000000036 \|unc = (36) \|exp = \|unit = \|runc = 1.8 \|rexp = -13 \|ref = <ref name="physconst-ge">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gem \|title=2022 CODATA Value: electron g factor \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|gn = {{#switch: {{{2}}} \|symbol = ''g''<sub>n</sub> \|val = -3.82608552 \|un1 = 0.00000090 \|unc = (90) \|exp = \|unit = \|runc = 2.4 \|rexp = -7 \|ref = <ref name="physconst-gn">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gnn \|title=2022 CODATA Value: neutron g factor \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|gp = {{#switch: {{{2}}} \|symbol = ''g''<sub>p</sub> \|val = 5.5856946893 \|un1 = 0.0000000016 \|unc = (16) \|exp = \|unit = \|runc = 2.9 \|rexp = -10 \|ref = <ref name="physconst-gp">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gp \|title=2022 CODATA Value: proton g factor \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|gmu = {{#switch: {{{2}}} \|symbol = ''g''<sub>μ<sup>−</sup></sub> \|val = -2.00233184123 \|un1 = 0.00000000082 \|unc = (82) \|exp = \|unit = \|runc = 4.1 \|rexp = -10 \|ref = <ref name="physconst-gmu">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gmum \|title=2022 CODATA Value: muon g factor \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|h/2me = {{#switch: {{{2}}} \|symbol = ''πħ''/&NoBreak;''m''<sub>e</sub> \|val = 3.6369475467 \|un1 = 0.0000000011 \|unc = (11) \|exp = -4 \|unit = m<sup>2</sup>⋅s<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-ho2me">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me \|title=2022 CODATA Value: quantum of circulation \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|md = {{#switch: {{{2}}} \|symbol = ''m''<sub>d</sub> \|val = 3.3435837768 \|un1 = 0.0000000010 \|unc = (10) \|exp = -27 \|unit = kg \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-md">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?md \|title=2022 CODATA Value: deuteron mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|md_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>d</sub> \|val = 2.013553212544 \|un1 = 0.000000000015 \|unc = (15) \|exp = \|unit = Da \|runc = 7.4 \|rexp = -12 \|ref = <ref name="physconst-mdDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mdu \|title=2022 CODATA Value: deuteron mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|me = {{#switch: {{{2}}} \|symbol = ''m''<sub>e</sub> \|val = 9.1093837139 \|un1 = 0.0000000028 \|unc = (28) \|exp = -31 \|unit = kg \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-me">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?me \|title=2022 CODATA Value: electron mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|me_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>e</sub> \|val = 5.485799090441 \|un1 = 0.000000000097 \|unc = (97) \|exp = -4 \|unit = Da \|runc = 1.8 \|rexp = -11 \|ref = <ref name="physconst-meDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?meu \|title=2022 CODATA Value: electron mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|me/mp = {{#switch: {{{2}}} \|symbol = ''m''<sub>e</sub>/''m''<sub>p</sub> \|val = 0.0005446170214889 \|un1 = 0.0000000000000094 \|unc = (94) \|exp = <!-- keep without a power-of-ten multiplier for WP use --> \|unit = \|runc = 1.7 \|rexp = -11 \|ref = <ref name="physconst-meomp">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mesmp \|title=2022 CODATA Value: electron-proton mass ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|me/mmu = {{#switch: {{{2}}} \|symbol = ''m''<sub>e</sub>/&NoBreak;''m''<sub>μ</sub> \|val = 0.00483633170 \|un1 = 0.00000000011 \|unc = (11) \|exp = <!-- keep without a power-of-ten multiplier for WP use --> \|unit = \|runc = 2.2 \|rexp = -8 \|ref = <ref name="physconst-meommu">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mesmmu \|title=2022 CODATA Value: electron-muon mass ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mec2 = {{#switch: {{{2}}} \|symbol = ''m''<sub>e</sub>''c''<sup>2</sup> \|val = 8.1871057880 \|un1 = 0.0000000026 \|unc = (26) \|exp = -14 \|unit = J \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mec2">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mec2 \|title=2022 CODATA Value: electron mass energy equivalent \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mec2_MeV = {{#switch: {{{2}}} \|symbol = ''m''<sub>e</sub>''c''<sup>2</sup> \|val = 0.51099895069 \|un1 = 0.00000000016 \|unc = (16) \|exp = \|unit = MeV \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mec2MeV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mec2mev \|title=2022 CODATA Value: electron mass energy equivalent in MeV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mh = {{#switch: {{{2}}} \|symbol = ''m''<sub>h</sub> \|val = 5.0064127862 \|un1 = 0.0000000016 \|unc = (16) \|exp = -27 \|unit = kg \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mh">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mh \|title=2022 CODATA Value: helion mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mh_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>h</sub> \|val = 3.014932246932 \|un1 = 0.000000000074 \|unc = (74) \|exp = \|unit = Da \|runc = 2.5 \|rexp = -11 \|ref = <ref name="physconst-mhDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mhu \|title=2022 CODATA Value: helion mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mn = {{#switch: {{{2}}} \|symbol = ''m''<sub>n</sub> \|val = 1.67492750056 \|un1 = 0.00000000085 \|unc = (85) \|exp = -27 \|unit = kg \|runc = 5.1 \|rexp = -10 \|ref = <ref name="physconst-mn">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mn \|title=2022 CODATA Value: neutron mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mn_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>n</sub> \|val = 1.00866491606 \|un1 = 0.00000000040 \|unc = (40) \|exp = \|unit = Da \|runc = 4.0 \|rexp = -10 \|ref = <ref name="physconst-mnDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mnu \|title=2022 CODATA Value: neutron mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mnc2 = {{#switch: {{{2}}} \|symbol = ''m''<sub>n</sub>''c''<sup>2</sup> \|val = 1.50534976514 \|un1 = 0.00000000076 \|unc = (76) \|exp = -10 \|unit = J \|runc = 5.1 \|rexp = -10 \|ref = <ref name="physconst-mnc2">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mnc2 \|title=2022 CODATA Value: neutron mass energy equivalent \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mnc2_MeV = {{#switch: {{{2}}} \|symbol = ''m''<sub>n</sub>''c''<sup>2</sup> \|val = 939.56542194 \|un1 = 0.00000048 \|unc = (48) \|exp = \|unit = MeV \|runc = 5.1 \|rexp = -10 \|ref = <ref name="physconst-mnc2MeV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev \|title=2022 CODATA Value: neutron mass energy equivalent in MeV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mp = {{#switch: {{{2}}} \|symbol = ''m''<sub>p</sub> \|val = 1.67262192595 \|un1 = 0.00000000052 \|unc = (52) \|exp = -27 \|unit = kg \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mp">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mp \|title=2022 CODATA Value: proton mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mp_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>p</sub> \|val = 1.0072764665789 \|un1 = 0.0000000000083 \|unc = (83) \|exp = \|unit = Da \|runc = 8.3 \|rexp = -12 \|ref = <ref name="physconst-mpDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mpu \|title=2022 CODATA Value: proton mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mp/me = {{#switch: {{{2}}} \|symbol = ''m''<sub>p</sub>/&NoBreak;''m''<sub>e</sub> \|val = 1836.152673426 \|un1 = 0.000000032 \|unc = (32) \|exp = \|unit = \|runc = 1.7 \|rexp = -11 \|ref = <ref name="physconst-mpome">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mpsme \|title=2022 CODATA Value: proton-electron mass ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mpc2 = {{#switch: {{{2}}} \|symbol = ''m''<sub>p</sub>''c''<sup>2</sup> \|val = 1.50327761802 \|un1 = 0.00000000047 \|unc = (47) \|exp = -10 \|unit = J \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mpc2">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mpc2 \|title=2022 CODATA Value: proton mass energy equivalent \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mpc2_MeV = {{#switch: {{{2}}} \|symbol = ''m''<sub>p</sub>''c''<sup>2</sup> \|val = 938.27208943 \|un1 = 0.00000029 \|unc = (29) \|exp = \|unit = MeV \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mpc2MeV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev \|title=2022 CODATA Value: proton mass energy equivalent in MeV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mu = {{#switch: {{{2}}} \|symbol = ''m''<sub>u</sub> \|val = 1.66053906892 \|un1 = 0.00000000052 \|unc = (52) \|exp = -27 \|unit = kg \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mu">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?u \|title=2022 CODATA Value: atomic mass constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|muc2 = {{#switch: {{{2}}} \|symbol = ''m''<sub>u</sub>''c''<sup>2</sup> \|val = 1.49241808768 \|un1 = 0.00000000046 \|unc = (46) \|exp = -10 \|unit = J \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-muc2">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?uj \|title=2022 CODATA Value: atomic mass constant energy equivalent \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|muc2_MeV = {{#switch: {{{2}}} \|symbol = ''m''<sub>u</sub>''c''<sup>2</sup> \|val = 931.49410372 \|un1 = 0.0000000029 \|unc = (29) \|exp = \|unit = MeV \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-muc2MeV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?muc2mev \|title=2022 CODATA Value: atomic mass constant energy equivalent in MeV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mW/mZ = {{#switch: {{{2}}} \|symbol = ''m''<sub>W</sub>/&NoBreak;''m''<sub>Z</sub> \|val = 0.88145 \|un1 = 0.00013 \|unc = (13) \|exp = \|unit = \|runc = 1.5 \|rexp = -4 \|ref = <ref name="physconst-mWomZ">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rmwmz \|title=2022 CODATA Value: W to Z mass ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|malpha = {{#switch: {{{2}}} \|symbol = ''m''<sub>α</sub> \|val = 6.6446573450 \|un1 = 0.0000000021 \|unc = (21) \|exp = -27 \|unit = kg \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-malpha">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mal \|title=2022 CODATA Value: alpha particle mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|malpha_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>α</sub> \|val = 4.001506179129 \|un1 = 0.000000000062 \|unc = (62) \|exp = \|unit = Da \|runc = 1.6 \|rexp = -11 \|ref = <ref name="physconst-malphaDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?malu \|title=2022 CODATA Value: alpha particle mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|malphac2_GeV = {{#switch: {{{2}}} \|symbol = ''m''<sub>α</sub>''c''<sup>2</sup> \|val = 3.7273794118 \|un1 = 0.0000000012 \|unc = (11) \|exp = \|unit = GeV \|runc = 3.0 \|rexp = -10 \|ref = <ref name="physconst-malphac2GeV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?malc2mev \|title=2022 CODATA Value: alpha particle mass energy equivalent in MeV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mmu = {{#switch: {{{2}}} \|symbol = ''m''<sub>μ</sub> \|val = 1.883531627 \|un1 = 0.000000042 \|unc = (42) \|exp = -28 \|unit = kg \|runc = 2.2 \|rexp = -8 \|ref = <ref name="physconst-mmu">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mmu \|title=2022 CODATA Value: muon mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mmu_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>μ</sub> \|val = 0.1134289257 \|un1 = 0.0000000022 \|unc = (22) \|exp = \|unit = Da \|runc = 2.2 \|rexp = -8 \|ref = <ref name="physconst-mmuDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mmuu \|title=2022 CODATA Value: muon mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mmu/me = {{#switch: {{{2}}} \|symbol = ''m''<sub>μ</sub>/&NoBreak;''m''<sub>e</sub> \|val = 206.7682827 \|un1 = 0.0000046 \|unc = (46) \|exp = \|unit = \|runc = 2.2 \|rexp = -8 \|ref = <ref name="physconst-mmuome">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mmusme \|title=2022 CODATA Value: muon-electron mass ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mmuc2 = {{#switch: {{{2}}} \|symbol = ''m''<sub>μ</sub>''c''<sup>2</sup> \|val = 1.692833804 \|un1 = 0.000000038 \|unc = (38) \|exp = -11 \|unit = J \|runc = 2.2 \|rexp = -8 \|ref = <ref name="physconst-mmuc2">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mmuc2 \|title=2022 CODATA Value: muon mass energy equivalent \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mmuc2_MeV = {{#switch: {{{2}}} \|symbol = ''m''<sub>μ</sub>''c''<sup>2</sup> \|val = 105.6583755 \|un1 = 0.0000023 \|unc = (23) \|exp = \|unit = MeV \|runc = 2.2 \|rexp = -8 \|ref = <ref name="physconst-mmuc2MeV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev \|title=2022 CODATA Value: muon mass energy equivalent in MeV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mtau = {{#switch: {{{2}}} \|symbol = ''m''<sub>τ</sub> \|val = 3.16754 \|un1 = 0.00021 \|unc = (21) \|exp = -27 \|unit = kg \|runc = 6.8 \|rexp = -5 \|ref = <ref name="physconst-mtau">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mtau \|title=2022 CODATA Value: tau mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mtau_Da = {{#switch: {{{2}}} \|symbol = ''m''<sub>τ</sub> \|val = 1.90754 \|un1 = 0.00013 \|unc = (13) \|exp = \|unit = Da \|runc = 6.8 \|rexp = -5 \|ref = <ref name="physconst-mtauDa">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mtauu \|title=2022 CODATA Value: tau mass in u \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mtau/me = {{#switch: {{{2}}} \|symbol = ''m''<sub>τ</sub>/&NoBreak;''m''<sub>e</sub> \|val = 3477.23 \|un1 = 0.23 \|unc = (23) \|exp = \|unit = \|runc = 6.8 \|rexp = -5 \|ref = <ref name="physconst-mtauome">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mtausme \|title=2022 CODATA Value: tau-electron mass ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mtau/mmu = {{#switch: {{{2}}} \|symbol = ''m''<sub>τ</sub>/&NoBreak;''m''<sub>μ</sub> \|val = 16.8170 \|un1 = 0.00011 \|unc = (11) \|exp = \|unit = \|runc = 6.8 \|rexp = -5 \|ref = <ref name="physconst-mtauommu">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mtausmmu \|title=2022 CODATA Value: tau-muon mass ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mtauc2 = {{#switch: {{{2}}} \|symbol = ''m''<sub>τ</sub>''c''<sup>2</sup> \|val = 2.84684 \|un1 = 0.00019 \|unc = (19) \|exp = -10 \|unit = J \|runc = 6.8 \|rexp = -5 \|ref = <ref name="physconst-mtauc2">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mtauc2 \|title=2022 CODATA Value: tau mass energy equivalent \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mtauc2_MeV = {{#switch: {{{2}}} \|symbol = ''m''<sub>τ</sub>''c''<sup>2</sup> \|val = 1776.86 \|un1 = 0.12 \|unc = (12) \|exp = \|unit = MeV \|runc = 6.8 \|rexp = -5 \|ref = <ref name="physconst-mtauc2MeV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mtauc2mev \|title=2022 CODATA Value: tau energy equivalent \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|MC12 = {{#switch: {{{2}}} \|symbol = ''M''(<sup>12</sup>C) \|val = 12.0000000126 \|un1 = 0.0000000037 \|unc = (37) \|exp = -3 \|unit = kg⋅mol<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-MC12">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mm12c \|title=2022 CODATA Value: molar mass of carbon-12 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Mu = {{#switch: {{{2}}} \|symbol = ''M''<sub>u</sub> \|val = 1.00000000105 \|un1 = 0.00000000031 \|unc = (31) \|exp = -3 \|unit = kg⋅mol<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-Mu">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mu \|title=2022 CODATA Value: molar mass constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|rd = {{#switch: {{{2}}} \|symbol = ''r''<sub>d</sub> \|val = 2.12778 \|un1 = 0.00027 \|unc = (27) \|exp = -15 \|unit = m \|runc = 1.3 \|rexp = -4 \|ref = <ref name="physconst-rd">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rd \|title=2022 CODATA Value: deuteron rms charge radius \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|re = {{#switch: {{{2}}} \|symbol = ''r''<sub>e</sub> \|val = 2.8179403205 \|un1 = 0.0000000013 \|unc = (13) \|exp = -15 \|unit = m \|runc = 4.7 \|rexp = -10 \|ref = <ref name="physconst-re">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?re \|title=2022 CODATA Value: classical electron radius \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|rp = {{#switch: {{{2}}} \|symbol = ''r''<sub>p</sub> \|val = 8.4075 \|un1 = 0.0064 \|unc = (64) \|exp = -16 \|unit = m \|runc = 7.4 \|rexp = -4 \|ref = <ref name="physconst-rp">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rp \|title=2022 CODATA Value: proton rms charge radius \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Rinf = {{#switch: {{{2}}} \|symbol = ''R''<sub>∞</sub> \|val = 10973731.568157 \|un1 = 0.000012 \|unc = (12) \|exp = \|unit = m<sup>−1</sup> \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-Rinf">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?ryd \|title=2022 CODATA Value: Rydberg constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Rinfc = {{#switch: {{{2}}} \|symbol = ''R''<sub>∞</sub>''c'' \|val = 3.2898419602500 \|un1 = 0.0000000000036 \|unc = (36) \|exp = 15 \|unit = Hz \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-Rinfc">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rydchz \|title=2022 CODATA Value: Rydberg constant times c in Hz \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Rinfhc = {{#switch: {{{2}}} \|symbol = ''R''<sub>∞</sub>''hc'' \|val = 2.1798723611030 \|un1 = 0.0000000000024 \|unc = (24) \|exp = -18 \|unit = J \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-Rinfhc">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rydhcj \|title=2022 CODATA Value: Rydberg constant times hc in J \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|Rinfhc_eV = {{#switch: {{{2}}} \|symbol = ''R''<sub>∞</sub>''hc'' \|val = 13.605693122990 \|un1 = 0.000000000015 \|unc = (15) \|exp = \|unit = eV \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-RinfhceV">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rydhcev \|title=2022 CODATA Value: Rydberg constant times hc in eV \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|VmSi = {{#switch: {{{2}}} \|symbol = ''V''<sub>m</sub>(Si) \|val = 1.205883199 \|un1 = 0.000000060 \|unc = (60) \|exp = -5 \|unit = m<sup>3</sup>⋅mol<sup>−1</sup> \|runc = 4.9 \|rexp = -8 \|ref = <ref name="physconst-VmSi">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mvolsil \|title=2022 CODATA Value: molar volume of silicon \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|gammae = {{#switch: {{{2}}} \|symbol = ''γ''<sub>e</sub> \|val = -1.76085962784 \|un1 = 0.00000000055 \|unc = (55) \|exp = 11 \|unit = s<sup>−1</sup>⋅T<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-gammae">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gammae \|title=2022 CODATA Value: electron gyromagnetic ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|gammabare = {{#switch: {{{2}}} \|symbol = ''γ''<sub>e</sub>/&NoBreak;2''π'' \|val = -28024.9513861 \|un1 = 0.0000087 \|unc = (87) \|exp = \|unit = MHz⋅T<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-gammabare">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gammaebar \|title=2022 CODATA Value: electron gyromagnetic ratio in MHz/T \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|gamman = {{#switch: {{{2}}} \|symbol = ''γ''<sub>n</sub> \|val = -1.83247174 \|un1 = 0.00000043 \|unc = (43) \|exp = 8 \|unit = s<sup>−1</sup>⋅T<sup>−1</sup> \|runc = 2.4 \|rexp = -7 \|ref = <ref name="physconst-gamman">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gamman \|title=2022 CODATA Value: neutron gyromagnetic ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|gammabarn = {{#switch: {{{2}}} \|symbol = ''γ''<sub>n</sub>/&NoBreak;2''π'' \|val = -29.1646935 \|un1 = 0.0000069 \|unc = (69) \|exp = \|unit = MHz⋅T<sup>−1</sup> \|runc = 2.4 \|rexp = -7 \|ref = <ref name="physconst-gammabarn">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gammanbar \|title=2022 CODATA Value: neutron gyromagnetic ratio in MHz/T \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|gammap = {{#switch: {{{2}}} \|symbol = ''γ''<sub>p</sub> \|val = 2.6752218708 \|un1 = 0.0000000011 \|unc = (11) \|exp = 8 \|unit = s<sup>−1</sup>⋅T<sup>−1</sup> \|runc = 4.3 \|rexp = -10 \|ref = <ref name="physconst-gammap">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gammap \|title=2022 CODATA Value: proton gyromagnetic ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|gammabarp = {{#switch: {{{2}}} \|symbol = ''γ''<sub>p</sub>/&NoBreak;2''π'' \|val = 42.577478461 \|un1 = 0.000000018 \|unc = (18) \|exp = \|unit = MHz⋅T<sup>−1</sup> \|runc = 4.3 \|rexp = -10 \|ref = <ref name="physconst-gammabarp">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gammapbar \|title=2022 CODATA Value: proton gyromagnetic ratio in MHz/T \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18 }}</ref> }} \|DnuCs = {{#switch: {{{2}}} \|symbol = Δ''ν''(<sup>133</sup>Cs)<sub>hfs</sub> \|val = 9192631770 \|un1 = \|unc = \|exp = \|unit = Hz \|runc = 0 \|rexp = \|ref = <ref name="physconst-DnuCs">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?nucs \|title=2022 CODATA Value: hyperfine transition frequency of Cs-133 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|muB = {{#switch: {{{2}}} \|symbol = ''μ''<sub>B</sub> \|val = 9.2740100657 \|un1 = 0.0000000029 \|unc = (29) \|exp = -24 \|unit = J⋅T<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-muB">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mub \|title=2022 CODATA Value: Bohr magneton \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mue = {{#switch: {{{2}}} \|symbol = ''μ''<sub>e</sub> \|val = -9.2847646917 \|un1 = 0.0000000029 \|unc = (29) \|exp = -24 \|unit = J⋅T<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-mue">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?muem \|title=2022 CODATA Value: electron magnetic moment \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mue/muB = {{#switch: {{{2}}} \|symbol = ''μ''<sub>e</sub>/&NoBreak;''μ''<sub>B</sub> \|val = -1.00115965218046 \|un1 = 0.00000000000018 \|unc = (18) \|exp = \|unit = \|runc = 1.8 \|rexp = -13 \|ref = <ref name="physconst-muemuB">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?muemsmub \|title=2022 CODATA Value: electron magnetic moment to Bohr magneton ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mun = {{#switch: {{{2}}} \|symbol = ''μ''<sub>n</sub> \|val = -9.6623653 \|un1 = 0.0000023 \|unc = (23) \|exp = -27 \|unit = J⋅T<sup>−1</sup> \|runc = 2.4 \|rexp = -7 \|ref = <ref name="physconst-mun">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?munn \|title=2022 CODATA Value: neutron magnetic moment \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mun/muN = {{#switch: {{{2}}} \|symbol = ''μ''<sub>n</sub>/&NoBreak;''μ''<sub>N</sub> \|val = -1.91304276 \|un1 = 0.00000045 \|unc = (45) \|exp = \|unit = \|runc = 2.4 \|rexp = -7 \|ref = <ref name="physconst-munmuN">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?munsmun \|title=2022 CODATA Value: neutron magnetic moment to nuclear magneton ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|muN = {{#switch: {{{2}}} \|symbol = ''μ''<sub>N</sub> \|val = 5.0507837393 \|un1 = 0.0000000016 \|unc = (16) \|exp = -27 \|unit = J⋅T<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-muN">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mun \|title=2022 CODATA Value: nuclear magneton \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mup = {{#switch: {{{2}}} \|symbol = ''μ''<sub>p</sub> \|val = 1.41060679545 \|un1 = 0.00000000060 \|unc = (60) \|exp = -26 \|unit = J⋅T<sup>−1</sup> \|runc = 4.3 \|rexp = -10 \|ref = <ref name="physconst-mup">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mup \|title=2022 CODATA Value: proton magnetic moment \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mup/muB = {{#switch: {{{2}}} \|symbol = ''μ''<sub>p</sub>/&NoBreak;''μ''<sub>B</sub> \|val = 0.00152103220230 \|un1 = 0.00000000000045 \|unc = (45) \|exp = <!-- keep without a power-of-ten multiplier for WP use --> \|unit = \|runc = 3.0 \|rexp = -10 \|ref = <ref name="physconst-mupmuB">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mupsmub \|title=2022 CODATA Value: proton magnetic moment to Bohr magneton ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mup/muN = {{#switch: {{{2}}} \|symbol = ''μ''<sub>p</sub>/&NoBreak;''μ''<sub>N</sub> \|val = 2.79284734463 \|un1 = 0.00000000082 \|unc = (82) \|exp = \|unit = \|runc = 2.9 \|rexp = -10 \|ref = <ref name="physconst-mupmuN">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mupsmun \|title=2022 CODATA Value: proton magnetic moment to nuclear magneton ratio \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mumu = {{#switch: {{{2}}} \|symbol = ''μ''<sub>μ</sub> \|val = -4.49044830 \|un1 = 0.00000010 \|unc = (18) \|exp = -26 \|unit = J⋅T<sup>−1</sup> \|runc = 2.2 \|rexp = -8 \|ref = <ref name="physconst-mumu">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?mumum \|title=2022 CODATA Value: muon magnetic moment \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|sigmae = {{#switch: {{{2}}} \|symbol = ''σ''<sub>e</sub> \|val = 6.6524587051 \|un1 = 0.0000000062 \|unc = (62) \|exp = -29 \|unit = m<sup>2</sup> \|runc = 9.3 \|rexp = -10 \|ref = <ref name="physconst-sigmae">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?sigmae \|title=2022 CODATA Value: Thomson cross section \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} <!-- Conventional units --> \|KJ90 = {{#switch: {{{2}}} \|symbol = ''K''<sub>J-90</sub> \|val = 483597.9 \|un1 = \|unc = \|exp = 9 \|unit = Hz⋅V<sup>−1</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-KJ90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?kj90 \|title=2022 CODATA Value: conventional value of Josephson constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|RK90 = {{#switch: {{{2}}} \|symbol = ''R''<sub>K-90</sub> \|val = 25812.807 \|un1 = \|unc = \|exp = \|unit = Ω \|runc = 0 \|rexp = \|ref = <ref name="physconst-RK90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?rk90 \|title=2022 CODATA Value: conventional value of von Klitzing constant \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|A90 = {{#switch: {{{2}}} \|symbol = ''A''<sub>90</sub> \|val = 1.00000008887 \|un1 = \|unc = \|end = ... \|exp = \|unit = A \|runc = 0 \|rexp = \|ref = <ref name="physconst-A90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?ampere90 \|title=2022 CODATA Value: conventional value of ampere-90 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|C90 = {{#switch: {{{2}}} \|symbol = ''C''<sub>90</sub> \|val = 1.00000008887 \|end = ... \|un1 = \|unc = \|exp = \|unit = C \|runc = 0 \|rexp = \|ref = <ref name="physconst-C90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?charge90 \|title=2022 CODATA Value: conventional value of coulomb-90 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|F90 = {{#switch: {{{2}}} \|symbol = ''F''<sub>90</sub> \|val = 0.99999998220 \|end = ... \|un1 = \|unc = \|exp = \|unit = F \|runc = 0 \|rexp = \|ref = <ref name="physconst-F90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?capacitance90 \|title=2022 CODATA Value: conventional value of farad-90 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|H90 = {{#switch: {{{2}}} \|symbol = ''H''<sub>90</sub> \|val = 1.00000001779 \|end = ... \|un1 = \|unc = \|exp = \|unit = H \|runc = 0 \|rexp = \|ref = <ref name="physconst-H90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?inductance90 \|title=2022 CODATA Value: conventional value of henry-90 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|V90 = {{#switch: {{{2}}} \|symbol = ''V''<sub>90</sub> \|val = 1.00000010666 \|end = ... \|un1 = \|unc = \|exp = \|unit = V \|runc = 0 \|rexp = \|ref = <ref name="physconst-V90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?volt90 \|title=2022 CODATA Value: conventional value of volt-90 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|W90 = {{#switch: {{{2}}} \|symbol = ''W''<sub>90</sub> \|val = 1.00000019553 \|end = ... \|un1 = \|unc = \|exp = \|unit = W \|runc = 0 \|rexp = \|ref = <ref name="physconst-W90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?power90 \|title=2022 CODATA Value: conventional value of watt-90 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|ohm90 = {{#switch: {{{2}}} \|symbol = ''Ω''<sub>90</sub> \|val = 1.00000001779 \|end = ... \|un1 = \|unc = \|exp = \|unit = Ω \|runc = 0 \|rexp = \|ref = <ref name="physconst-ohm90">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?ohm90 \|title=2022 CODATA Value: conventional value of ohm-90 \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} <!-- Atomic units --> \|aulen = {{#switch: {{{2}}} \|symbol = ''a''<sub>0</sub> \|val = 5.29177210544 \|un1 = 0.00000000082 \|unc = (82) \|exp = -11 \|unit = m \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-aulen">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?Abohrrada0 \|title=2022 CODATA Value: atomic unit of length \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|autime = {{#switch: {{{2}}} \|symbol = ''ħ''/&NoBreak;''E''<sub>h</sub> \|val = 2.4188843265864 \|un1 = 0.0000000000026 \|unc = (26) \|exp = -17 \|unit = s \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-autime">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aut \|title=2022 CODATA Value: atomic unit of time \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auvel = {{#switch: {{{2}}} \|symbol = ''a''<sub>0</sub>''E''<sub>h</sub>/''ħ'' \|val = 2.18769126216 \|un1 = 0.00000000034 \|unc = (34) \|exp = 6 \|unit = m⋅s<sup>−1</sup> \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-auvel">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auvel \|title=2022 CODATA Value: atomic unit of velocity \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|aumass = {{#switch: {{{2}}} \|symbol = ''m''<sub>e</sub> \|val = 9.1093837139 \|un1 = 0.0000000028 \|unc = (28) \|exp = -31 \|unit = kg \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-aumass">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?Ame \|title=2022 CODATA Value: atomic unit of mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|aumom = {{#switch: {{{2}}} \|symbol = ''ħ''/&NoBreak;''a''<sub>0</sub> \|val = 1.99285191545 \|un1 = 0.00000000031 \|unc = (31) \|exp = -24 \|unit = kg⋅m⋅s<sup>−1</sup> \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-aumom">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aumom \|title=2022 CODATA Value: atomic unit of momentum \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auener = {{#switch: {{{2}}} \|symbol = ''E''<sub>h</sub> \|val = 4.3597447222060 \|un1 = 0.0000000000048 \|unc = (48) \|exp = -18 \|unit = J \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-auener">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?Ahr \|title=2022 CODATA Value: atomic unit of energy \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auforce = {{#switch: {{{2}}} \|symbol = ''E''<sub>h</sub>/&NoBreak;''a''<sub>0</sub> \|val = 8.2387235038 \|un1 = 0.0000000013 \|unc = (13) \|exp = -8 \|unit = N \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-auforce">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auforce \|title=2022 CODATA Value: atomic unit of force \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auact = {{#switch: {{{2}}} \|symbol = ''ħ'' \|val = 1.054571817 \|un1 = \|unc = \|end = ... \|exp = -34 \|unit = J⋅s \|runc = 0 \|rexp = \|ref = <ref name="physconst-auact">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?Ahbar \|title=2022 CODATA Value: atomic unit of action \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auec = {{#switch: {{{2}}} \|symbol = ''e'' \|val = 1.602176634 \|un1 = \|unc = \|end = \|exp = -19 \|unit = C \|runc = 0 \|rexp = \|ref = <ref name="physconst-auec">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?Ae \|title=2022 CODATA Value: atomic unit of charge \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auedm = {{#switch: {{{2}}} \|symbol = ''ea''<sub>0</sub> \|val = 8.4783536198 \|un1 = 0.0000000013 \|unc = (13) \|exp = -30 \|unit = C⋅m \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-auedm">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auedm \|title=2022 CODATA Value: atomic unit of electric dipole moment \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|aueqm = {{#switch: {{{2}}} \|symbol = ''ea''<sub>0</sub><sup>2</sup> \|val = 4.4865515185 \|un1 = 0.0000000014 \|unc = (14) \|exp = -40 \|unit = C⋅m<sup>2</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-aueqm">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aueqm \|title=2022 CODATA Value: atomic unit of electric quadrupole moment \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auecd = {{#switch: {{{2}}} \|symbol = ''e''/&NoBreak;''a''<sub>0</sub><sup>3</sup> \|val = 1.08120238677 \|un1 = 0.00000000051 \|unc = (51) \|exp = 12 \|unit = C⋅m<sup>−3</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-auecd">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aucd \|title=2022 CODATA Value: atomic unit of charge density \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|aucur = {{#switch: {{{2}}} \|symbol = ''eE''<sub>h</sub>/&NoBreak;''ħ'' \|val = 6.6236182375082 \|un1 = 0.0000000000072 \|unc = (72) \|exp = -3 \|unit = A \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-aucur">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aucur \|title=2022 CODATA Value: atomic unit of current \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auepot = {{#switch: {{{2}}} \|symbol = ''E''<sub>h</sub>/&NoBreak;''e'' \|val = 27.211386245981 \|un1 = 0.000000000030 \|unc = (30) \|exp = \|unit = V \|runc = 1.1 \|rexp = -12 \|ref = <ref name="physconst-auepot">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auep \|title=2022 CODATA Value: atomic unit of electric potential \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auef = {{#switch: {{{2}}} \|symbol = ''E''<sub>h</sub>/&NoBreak;''ea''<sub>0</sub> \|val = 5.14220675112 \|un1 = 0.00000000080 \|unc = (80) \|exp = 11 \|unit = V⋅m<sup>−1</sup> \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-auef">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auefld \|title=2022 CODATA Value: atomic unit of electric field \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auefg = {{#switch: {{{2}}} \|symbol = ''E''<sub>h</sub>/&NoBreak;''ea''<sub>0</sub><sup>2</sup> \|val = 9.7173624424 \|un1 = 0.0000000030 \|unc = (30) \|exp = 21 \|unit = V⋅m<sup>−2</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-auefg">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auefg \|title=2022 CODATA Value: atomic unit of electric field gradient \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auperm = {{#switch: {{{2}}} \|symbol = ''e''<sup>2</sup>/''a''<sub>0</sub>''E''<sub>h</sub> \|val = 1.11265005620 \|un1 = 0.00000000017 \|unc = (17) \|exp = -10 \|unit = F⋅m<sup>−1</sup> \|runc = 1.6 \|rexp = -10 \|ref = <ref name="physconst-auperm">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auperm \|title=2022 CODATA Value: atomic unit of permittivity \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|auepol = {{#switch: {{{2}}} \|symbol = ''e''<sup>2</sup>''a''<sub>0</sub><sup>2</sup>/&NoBreak;''E''<sub>h</sub> \|val = 1.64877727212 \|un1 = 0.00000000051 \|unc = (51) \|exp = -41 \|unit = C<sup>2</sup>⋅m<sup>2</sup>⋅J<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-auepol">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auepol \|title=2022 CODATA Value: atomic unit of electric polarizability \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|au1hypol = {{#switch: {{{2}}} \|symbol = ''e''<sup>3</sup>''a''<sub>0</sub><sup>3</sup>/&NoBreak;''E''<sub>h</sub><sup>2</sup> \|val = 3.2063612996 \|un1 = 0.0000000015 \|unc = (15) \|exp = -53 \|unit = C<sup>3</sup>⋅m<sup>3</sup>⋅J<sup>−2</sup> \|runc = 4.7 \|rexp = -10 \|ref = <ref name="physconst-au1hypol">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?auhypol \|title=2022 CODATA Value: atomic unit of 1st hyperpolarizability \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|au2hypol = {{#switch: {{{2}}} \|symbol = ''e''<sup>4</sup>''a''<sub>0</sub><sup>4</sup>/&NoBreak;''E''<sub>h</sub><sup>3</sup> \|val = 6.2353799735 \|un1 = 0.0000000039 \|unc = (39) \|exp = -65 \|unit = C<sup>4</sup>⋅m<sup>4</sup>⋅J<sup>−3</sup> \|runc = 6.2 \|rexp = -10 \|ref = <ref name="physconst-au2hypol">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?au2hypol \|title=2022 CODATA Value: atomic unit of 2nd hyperpolarizability \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|aumfd = {{#switch: {{{2}}} \|symbol = ''ħ''/&NoBreak;''ea''<sub>0</sub><sup>2</sup> \|val = 2.35051757077 \|un1 = 0.00000000073 \|unc = (73) \|exp = 5 \|unit = T \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-aumfd">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aumfd \|title=2022 CODATA Value: atomic unit of magnetic flux density \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|aumdm = {{#switch: {{{2}}} \|symbol = ''ħe''/&NoBreak;''m''<sub>e</sub> \|val = 1.85480201315 \|un1 = 0.00000000058 \|unc = (58) \|exp = -23 \|unit = J⋅T<sup>−1</sup> \|runc = 3.1 \|rexp = -10 \|ref = <ref name="physconst-aumdm">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aumdm \|title=2022 CODATA Value: atomic unit of magnetic dipole moment \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|aumag = {{#switch: {{{2}}} \|symbol = ''e''<sup>2</sup>''a''<sub>0</sub><sup>2</sup>/&NoBreak;''m''<sub>e</sub> \|val = 7.8910365794 \|un1 = 0.0000000049 \|unc = (49) \|exp = -29 \|unit = J⋅T<sup>−2</sup> \|runc = 6.2 \|rexp = -10 \|ref = <ref name="physconst-aumag">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?aumag \|title=2022 CODATA Value: atomic unit of magnetizability \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} <!-- Planck units --> \|lP = {{#switch: {{{2}}} \|symbol = ''l''<sub>P</sub> \|val = 1.616255 \|un1 = 0.000018 \|unc = (18) \|exp = -35 \|unit = m \|runc = 1.1 \|rexp = -5 \|ref = <ref name="physconst-lP">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?plkl \|title=2022 CODATA Value: Planck length \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|tP = {{#switch: {{{2}}} \|symbol = ''t''<sub>P</sub> \|val = 5.391247 \|un1 = 0.000060 \|unc = (60) \|exp = -44 \|unit = s \|runc = 1.1 \|rexp = -5 \|ref = <ref name="physconst-tP">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?plkt \|title=2022 CODATA Value: Planck time \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|mP = {{#switch: {{{2}}} \|symbol = ''m''<sub>P</sub> \|val = 2.176434 \|un1 = 0.000024 \|unc = (24) \|exp = -8 \|unit = kg \|runc = 1.1 \|rexp = -5 \|ref = <ref name="physconst-mP">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?plkm \|title=2022 CODATA Value: Planck mass \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|TP = {{#switch: {{{2}}} \|symbol = ''T''<sub>P</sub> \|val = 1.416784 \|un1 = 0.000016 \|unc = (16) \|exp = 32 \|unit = K \|runc = 1.1 \|rexp = -5 \|ref = <ref name="physconst-TP">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?plktmp \|title=2022 CODATA Value: Planck temperature \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} <!-- Standard values --> \|atm = {{#switch: {{{2}}} \|symbol = atm \|val = 101325 \|un1 = \|unc = \|exp = \|unit = Pa \|runc = 0 \|rexp = \|ref = <ref name="physconst-atm">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?stdatm \|title=2022 CODATA Value: standard atmosphere \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|g0 = {{#switch: {{{2}}} \|symbol = ''g''<sub>0</sub> \|val = 9.80665 \|un1 = \|unc = \|exp = \|unit = m⋅s<sup>−2</sup> \|runc = 0 \|rexp = \|ref = <ref name="physconst-g0">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?gn \|title=2022 CODATA Value: standard acceleration of gravity \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} \|ssp = {{#switch: {{{2}}} \|symbol = ssp \|val = 100000 \|un1 = \|unc = \|exp = \|unit = Pa \|runc = 0 \|rexp = \|ref = <ref name="physconst-ssp">{{cite web \|url=https://physics.nist.gov/cgi-bin/cuu/Value?stdspr \|title=2022 CODATA Value: standard-state pressure \|date=Mei 2024 \|work=The NIST Reference on Constants, Units, and Uncertainty \|publisher=[[Institut Standar dan Teknologi Nasional\|NIST]] \|access-date=2024-05-18}}</ref> }} }}<noinclude> {{documentation}} </noinclude>