~ubuntu-branches/ubuntu/wily/octave-miscellaneous/wily : revision 1.2.1

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##

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## This program is free software; you can redistribute it and/or modify it under

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## the terms of the GNU General Public License as published by the Free Software

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## Foundation; either version 3 of the License, or (at your option) any later

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## version.

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##

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## This program is distributed in the hope that it will be useful, but WITHOUT

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## ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or

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## FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more

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## details.

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##

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## You should have received a copy of the GNU General Public License along with

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## this program; if not, see <http://www.gnu.org/licenses/>.

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## -*- texinfo -*-

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## @deftypefn {Function File} {[@var{names}] =} physical_constant

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## @deftypefnx {Function File} {[@var{val}, @var{uncertainty}, @var{unit}] =} physical_constant (@var{name})

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## @deftypefnx {Function File} {[@var{constants}] =} physical_constant ("all")

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## Get physical constant @var{arg}.

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##

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## If no arguments are given, returns a cell array with all possible @var{name}s.

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## Alternatively, @var{name} can be `all' in which case @var{val} is a structure

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## array with 4 fields (name, value, uncertainty, units).

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##

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## Since the long list of values needs to be parsed on each call to this function

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## it is much more efficient to store the values in a variable rather make multiple

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## calls to this function with the same argument

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##

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## The values are the ones recommended by CODATA. This function was autogenerated

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## on Wed Apr 25 22:17:07 2012 from NIST database at @uref{http://physics.nist.gov/constants}

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## @end deftypefn

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## DO NOT EDIT THIS FILE

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## This function file is generated automatically by physical_constant.py

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function [rval, uncert, unit] = physical_constant (arg)

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persistent unit_data;

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if (isempty(unit_data))

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unit_data = get_data;

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endif

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if (nargin > 1 || (nargin == 1 && !ischar (arg)))

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print_usage;

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elseif (nargin == 0)

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rval = reshape ({unit_data(:).name}, size (unit_data));

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return

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elseif (nargin == 1 && strcmpi (arg, "all"))

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rval = unit_data;

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return

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endif

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val = reshape ({unit_data(:).name}, size (unit_data));

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map = strcmpi (val, arg);

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if (any (map))

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val = unit_data(map);

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rval = val.value;

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uncert = val.uncertainty;

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unit = val.units;

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else

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error ("No constant with name '%s' found", arg)

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endif

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endfunction

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function unit_data = get_data

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unit_data(1).name = "Angstrom star";

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unit_data(1).value = 1.00001495e-10;

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unit_data(1).uncertainty = 0.00000090e-10;

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unit_data(1).units = "m";

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unit_data(2).name = "Avogadro constant";

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unit_data(2).value = 6.02214129e23;

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unit_data(2).uncertainty = 0.00000027e23;

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unit_data(2).units = "mol^-1";

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unit_data(3).name = "Bohr magneton";

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unit_data(3).value = 927.400968e-26;

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unit_data(3).uncertainty = 0.000020e-26;

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unit_data(3).units = "J T^-1";

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unit_data(4).name = "Bohr magneton in Hz/T";

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unit_data(4).value = 13.99624555e9;

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unit_data(4).uncertainty = 0.00000031e9;

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unit_data(4).units = "Hz T^-1";

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unit_data(5).name = "Bohr magneton in K/T";

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unit_data(5).value = 0.67171388;

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unit_data(5).uncertainty = 0.00000061;

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unit_data(5).units = "K T^-1";

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unit_data(6).name = "Bohr magneton in eV/T";

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unit_data(6).value = 5.7883818066e-5;

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unit_data(6).uncertainty = 0.0000000038e-5;

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unit_data(6).units = "eV T^-1";

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unit_data(7).name = "Bohr magneton in inverse meters per tesla";

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unit_data(7).value = 46.6864498;

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unit_data(7).uncertainty = 0.0000010;

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unit_data(7).units = "m^-1 T^-1";

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unit_data(8).name = "Bohr radius";

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unit_data(8).value = 0.52917721092e-10;

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unit_data(8).uncertainty = 0.00000000017e-10;

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unit_data(8).units = "m";

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unit_data(9).name = "Boltzmann constant";

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unit_data(9).value = 1.3806488e-23;

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unit_data(9).uncertainty = 0.0000013e-23;

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unit_data(9).units = "J K^-1";

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unit_data(10).name = "Boltzmann constant in Hz/K";

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unit_data(10).value = 2.0836618e10;

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unit_data(10).uncertainty = 0.0000019e10;

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unit_data(10).units = "Hz K^-1";

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unit_data(11).name = "Boltzmann constant in eV/K";

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unit_data(11).value = 8.6173324e-5;

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unit_data(11).uncertainty = 0.0000078e-5;

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unit_data(11).units = "eV K^-1";

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unit_data(12).name = "Boltzmann constant in inverse meters per kelvin";

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unit_data(12).value = 69.503476;

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unit_data(12).uncertainty = 0.000063;

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unit_data(12).units = "m^-1 K^-1";

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unit_data(13).name = "Compton wavelength";

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unit_data(13).value = 2.4263102389e-12;

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unit_data(13).uncertainty = 0.0000000016e-12;

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unit_data(13).units = "m";

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unit_data(14).name = "Compton wavelength over 2 pi";

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unit_data(14).value = 386.15926800e-15;

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unit_data(14).uncertainty = 0.00000025e-15;

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unit_data(14).units = "m";

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unit_data(15).name = "Cu x unit";

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unit_data(15).value = 1.00207697e-13;

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unit_data(15).uncertainty = 0.00000028e-13;

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unit_data(15).units = "m";

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unit_data(16).name = "Faraday constant";

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unit_data(16).value = 96485.3365;

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unit_data(16).uncertainty = 0.0021;

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unit_data(16).units = "C mol^-1";

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unit_data(17).name = "Faraday constant for conventional electric current";

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unit_data(17).value = 96485.3321;

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unit_data(17).uncertainty = 0.0043;

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unit_data(17).units = "C_90 mol^-1";

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unit_data(18).name = "Fermi coupling constant";

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unit_data(18).value = 1.166364e-5;

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unit_data(18).uncertainty = 0.000005e-5;

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unit_data(18).units = "GeV^-2";

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unit_data(19).name = "Hartree energy";

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unit_data(19).value = 4.35974434e-18;

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unit_data(19).uncertainty = 0.00000019e-18;

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unit_data(19).units = "J";

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unit_data(20).name = "Hartree energy in eV";

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unit_data(20).value = 27.21138505;

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unit_data(20).uncertainty = 0.00000060;

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unit_data(20).units = "eV";

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unit_data(21).name = "Josephson constant";

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unit_data(21).value = 483597.870e9;

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unit_data(21).uncertainty = 0.011e9;

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unit_data(21).units = "Hz V^-1";

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unit_data(22).name = "Loschmidt constant (273.15 K, 100 kPa)";

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unit_data(22).value = 2.6516462e25;

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unit_data(22).uncertainty = 0.0000024e25;

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unit_data(22).units = "m^-3";

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unit_data(23).name = "Loschmidt constant (273.15 K, 101.325 kPa)";

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unit_data(23).value = 2.6867805e25;

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unit_data(23).uncertainty = 0.0000024e25;

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unit_data(23).units = "m^-3";

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unit_data(24).name = "Mo x unit";

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unit_data(24).value = 1.00209952e-13;

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unit_data(24).uncertainty = 0.00000053e-13;

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unit_data(24).units = "m";

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unit_data(25).name = "Newtonian constant of gravitation";

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unit_data(25).value = 6.67384e-11;

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unit_data(25).uncertainty = 0.00080e-11;

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unit_data(25).units = "m^3 kg^-1 s^-2";

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unit_data(26).name = "Newtonian constant of gravitation over h-bar c";

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unit_data(26).value = 6.70837e-39;

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unit_data(26).uncertainty = 0.00080e-39;

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unit_data(26).units = "(GeV/c^2)^-2";

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unit_data(27).name = "Planck constant";

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unit_data(27).value = 6.62606957e-34;

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unit_data(27).uncertainty = 0.00000029e-34;

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unit_data(27).units = "J s";

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unit_data(28).name = "Planck constant in eV s";

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unit_data(28).value = 4.135667516e-15;

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unit_data(28).uncertainty = 0.000000091e-15;

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unit_data(28).units = "eV s";

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unit_data(29).name = "Planck constant over 2 pi";

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unit_data(29).value = 1.054571726e-34;

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unit_data(29).uncertainty = 0.000000047e-34;

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unit_data(29).units = "J s";

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unit_data(30).name = "Planck constant over 2 pi in eV s";

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unit_data(30).value = 6.58211928e-16;

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unit_data(30).uncertainty = 0.00000015e-16;

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unit_data(30).units = "eV s";

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unit_data(31).name = "Planck constant over 2 pi times c in MeV fm";

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unit_data(31).value = 197.3269718;

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unit_data(31).uncertainty = 0.0000044;

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unit_data(31).units = "MeV fm";

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unit_data(32).name = "Planck length";

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unit_data(32).value = 1.616199e-35;

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unit_data(32).uncertainty = 0.000097e-35;

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unit_data(32).units = "m";

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unit_data(33).name = "Planck mass";

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unit_data(33).value = 2.17651e-8;

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unit_data(33).uncertainty = 0.00013e-8;

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unit_data(33).units = "kg";

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unit_data(34).name = "Planck mass energy equivalent in GeV";

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unit_data(34).value = 1.220932e19;

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unit_data(34).uncertainty = 0.000073e19;

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unit_data(34).units = "GeV";

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unit_data(35).name = "Planck temperature";

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unit_data(35).value = 1.416833e32;

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unit_data(35).uncertainty = 0.000085e32;

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unit_data(35).units = "K";

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unit_data(36).name = "Planck time";

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unit_data(36).value = 5.39106e-44;

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unit_data(36).uncertainty = 0.00032e-44;

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unit_data(36).units = "s";

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unit_data(37).name = "Rydberg constant";

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unit_data(37).value = 10973731.568539;

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unit_data(37).uncertainty = 0.000055;

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unit_data(37).units = "m^-1";

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unit_data(38).name = "Rydberg constant times c in Hz";

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unit_data(38).value = 3.289841960364e15;

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unit_data(38).uncertainty = 0.000000000017e15;

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unit_data(38).units = "Hz";

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unit_data(39).name = "Rydberg constant times hc in J";

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unit_data(39).value = 2.179872171e-18;

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unit_data(39).uncertainty = 0.000000096e-18;

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unit_data(39).units = "J";

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unit_data(40).name = "Rydberg constant times hc in eV";

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unit_data(40).value = 13.60569253;

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unit_data(40).uncertainty = 0.00000030;

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unit_data(40).units = "eV";

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unit_data(41).name = "Sackur-Tetrode constant (1 K, 100 kPa)";

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unit_data(41).value = -1.1517078;

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unit_data(41).uncertainty = 0.0000023;

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unit_data(41).units = "";

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unit_data(42).name = "Sackur-Tetrode constant (1 K, 101.325 kPa)";

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unit_data(42).value = -1.1648708;

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unit_data(42).uncertainty = 0.0000023;

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unit_data(42).units = "";

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unit_data(43).name = "Stefan-Boltzmann constant";

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unit_data(43).value = 5.670373e-8;

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unit_data(43).uncertainty = 0.000021e-8;

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unit_data(43).units = "W m^-2 K^-4";

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unit_data(44).name = "Thomson cross section";

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unit_data(44).value = 0.6652458734e-28;

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unit_data(44).uncertainty = 0.0000000013e-28;

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unit_data(44).units = "m^2";

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unit_data(45).name = "Wien frequency displacement law constant";

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unit_data(45).value = 5.8789254e10;

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unit_data(45).uncertainty = 0.0000053e10;

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unit_data(45).units = "Hz K^-1";

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unit_data(46).name = "Wien wavelength displacement law constant";

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unit_data(46).value = 2.8977721e-3;

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unit_data(46).uncertainty = 0.0000026e-3;

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unit_data(46).units = "m K";

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unit_data(47).name = "alpha particle mass";

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unit_data(47).value = 6.64465675e-27;

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unit_data(47).uncertainty = 0.00000029e-27;

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unit_data(47).units = "kg";

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unit_data(48).name = "alpha particle mass energy equivalent";

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unit_data(48).value = 5.97191967e-10;

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unit_data(48).uncertainty = 0.00000026e-10;

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unit_data(48).units = "J";

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unit_data(49).name = "alpha particle mass energy equivalent in MeV";

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unit_data(49).value = 3727.379240;

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unit_data(49).uncertainty = 0.000082;

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unit_data(49).units = "MeV";

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unit_data(50).name = "alpha particle mass in u";

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unit_data(50).value = 4.001506179125;

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unit_data(50).uncertainty = 0.000000000062;

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unit_data(50).units = "u";

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unit_data(51).name = "alpha particle molar mass";

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unit_data(51).value = 4.001506179125e-3;

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unit_data(51).uncertainty = 0.000000000062e-3;

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unit_data(51).units = "kg mol^-1";

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unit_data(52).name = "alpha particle-electron mass ratio";

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unit_data(52).value = 7294.2995361;

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unit_data(52).uncertainty = 0.0000029;

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unit_data(52).units = "";

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unit_data(53).name = "alpha particle-proton mass ratio";

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unit_data(53).value = 3.97259968933;

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unit_data(53).uncertainty = 0.00000000036;

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unit_data(53).units = "";

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unit_data(54).name = "atomic mass constant";

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unit_data(54).value = 1.660538921e-27;

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unit_data(54).uncertainty = 0.000000073e-27;

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unit_data(54).units = "kg";

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unit_data(55).name = "atomic mass constant energy equivalent";

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unit_data(55).value = 1.492417954e-10;

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unit_data(55).uncertainty = 0.000000066e-10;

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unit_data(55).units = "J";

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unit_data(56).name = "atomic mass constant energy equivalent in MeV";

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unit_data(56).value = 931.494061;

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unit_data(56).uncertainty = 0.000021;

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unit_data(56).units = "MeV";

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unit_data(57).name = "atomic mass unit-electron volt relationship";

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unit_data(57).value = 931.494061e6;

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unit_data(57).uncertainty = 0.000021e6;

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unit_data(57).units = "eV";

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unit_data(58).name = "atomic mass unit-hartree relationship";

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unit_data(58).value = 3.4231776845e7;

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unit_data(58).uncertainty = 0.0000000024e7;

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unit_data(58).units = "E_h";

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unit_data(59).name = "atomic mass unit-hertz relationship";

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unit_data(59).value = 2.2523427168e23;

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unit_data(59).uncertainty = 0.0000000016e23;

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unit_data(59).units = "Hz";

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unit_data(60).name = "atomic mass unit-inverse meter relationship";

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unit_data(60).value = 7.5130066042e14;

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unit_data(60).uncertainty = 0.0000000053e14;

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unit_data(60).units = "m^-1";

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unit_data(61).name = "atomic mass unit-joule relationship";

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unit_data(61).value = 1.492417954e-10;

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unit_data(61).uncertainty = 0.000000066e-10;

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unit_data(61).units = "J";

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unit_data(62).name = "atomic mass unit-kelvin relationship";

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unit_data(62).value = 1.08095408e13;

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unit_data(62).uncertainty = 0.00000098e13;

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unit_data(62).units = "K";

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unit_data(63).name = "atomic mass unit-kilogram relationship";

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unit_data(63).value = 1.660538921e-27;

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unit_data(63).uncertainty = 0.000000073e-27;

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unit_data(63).units = "kg";

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unit_data(64).name = "atomic unit of 1st hyperpolarizability";

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unit_data(64).value = 3.206361449e-53;

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unit_data(64).uncertainty = 0.000000071e-53;

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unit_data(64).units = "C^3 m^3 J^-2";

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unit_data(65).name = "atomic unit of 2nd hyperpolarizability";

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unit_data(65).value = 6.23538054e-65;

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unit_data(65).uncertainty = 0.00000028e-65;

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unit_data(65).units = "C^4 m^4 J^-3";

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unit_data(66).name = "atomic unit of action";

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unit_data(66).value = 1.054571726e-34;

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unit_data(66).uncertainty = 0.000000047e-34;

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unit_data(66).units = "J s";

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unit_data(67).name = "atomic unit of charge";

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unit_data(67).value = 1.602176565e-19;

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unit_data(67).uncertainty = 0.000000035e-19;

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unit_data(67).units = "C";

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unit_data(68).name = "atomic unit of charge density";

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unit_data(68).value = 1.081202338e12;

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unit_data(68).uncertainty = 0.000000024e12;

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unit_data(68).units = "C m^-3";

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unit_data(69).name = "atomic unit of current";

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unit_data(69).value = 6.62361795e-3;

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unit_data(69).uncertainty = 0.00000015e-3;

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unit_data(69).units = "A";

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unit_data(70).name = "atomic unit of electric dipole mom.";

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unit_data(70).value = 8.47835326e-30;

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unit_data(70).uncertainty = 0.00000019e-30;

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unit_data(70).units = "C m";

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unit_data(71).name = "atomic unit of electric field";

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unit_data(71).value = 5.14220652e11;

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unit_data(71).uncertainty = 0.00000011e11;

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unit_data(71).units = "V m^-1";

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unit_data(72).name = "atomic unit of electric field gradient";

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unit_data(72).value = 9.71736200e21;

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unit_data(72).uncertainty = 0.00000021e21;

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unit_data(72).units = "V m^-2";

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unit_data(73).name = "atomic unit of electric polarizability";

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unit_data(73).value = 1.6487772754e-41;

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unit_data(73).uncertainty = 0.0000000016e-41;

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unit_data(73).units = "C^2 m^2 J^-1";

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433

unit_data(74).name = "atomic unit of electric potential";

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unit_data(74).value = 27.21138505;

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unit_data(74).uncertainty = 0.00000060;

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unit_data(74).units = "V";

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unit_data(75).name = "atomic unit of electric quadrupole mom.";

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unit_data(75).value = 4.486551331e-40;

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unit_data(75).uncertainty = 0.000000099e-40;

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unit_data(75).units = "C m^2";

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unit_data(76).name = "atomic unit of energy";

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unit_data(76).value = 4.35974434e-18;

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unit_data(76).uncertainty = 0.00000019e-18;

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unit_data(76).units = "J";

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unit_data(77).name = "atomic unit of force";

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unit_data(77).value = 8.23872278e-8;

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unit_data(77).uncertainty = 0.00000036e-8;

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unit_data(77).units = "N";

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unit_data(78).name = "atomic unit of length";

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unit_data(78).value = 0.52917721092e-10;

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unit_data(78).uncertainty = 0.00000000017e-10;

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unit_data(78).units = "m";

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unit_data(79).name = "atomic unit of mag. dipole mom.";

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unit_data(79).value = 1.854801936e-23;

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unit_data(79).uncertainty = 0.000000041e-23;

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unit_data(79).units = "J T^-1";

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unit_data(80).name = "atomic unit of mag. flux density";

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unit_data(80).value = 2.350517464e5;

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unit_data(80).uncertainty = 0.000000052e5;

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unit_data(80).units = "T";

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unit_data(81).name = "atomic unit of magnetizability";

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unit_data(81).value = 7.891036607e-29;

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unit_data(81).uncertainty = 0.000000013e-29;

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unit_data(81).units = "J T^-2";

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unit_data(82).name = "atomic unit of mass";

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unit_data(82).value = 9.10938291e-31;

475

unit_data(82).uncertainty = 0.00000040e-31;

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unit_data(82).units = "kg";

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unit_data(83).name = "atomic unit of mom.um";

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unit_data(83).value = 1.992851740e-24;

480

unit_data(83).uncertainty = 0.000000088e-24;

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unit_data(83).units = "kg m s^-1";

482

483

unit_data(84).name = "atomic unit of permittivity";

484

unit_data(84).value = 1.112650056e-10;

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unit_data(84).uncertainty = 0.0;

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unit_data(84).units = "F m^-1";

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unit_data(85).name = "atomic unit of time";

489

unit_data(85).value = 2.418884326502e-17;

490

unit_data(85).uncertainty = 0.000000000012e-17;

491

unit_data(85).units = "s";

492

493

unit_data(86).name = "atomic unit of velocity";

494

unit_data(86).value = 2.18769126379e6;

495

unit_data(86).uncertainty = 0.00000000071e6;

496

unit_data(86).units = "m s^-1";

497

498

unit_data(87).name = "characteristic impedance of vacuum";

499

unit_data(87).value = 376.730313461;

500

unit_data(87).uncertainty = 0.0;

501

unit_data(87).units = "ohm";

502

503

unit_data(88).name = "classical electron radius";

504

unit_data(88).value = 2.8179403267e-15;

505

unit_data(88).uncertainty = 0.0000000027e-15;

506

unit_data(88).units = "m";

507

508

unit_data(89).name = "conductance quantum";

509

unit_data(89).value = 7.7480917346e-5;

510

unit_data(89).uncertainty = 0.0000000025e-5;

511

unit_data(89).units = "S";

512

513

unit_data(90).name = "conventional value of Josephson constant";

514

unit_data(90).value = 483597.9e9;

515

unit_data(90).uncertainty = 0.0;

516

unit_data(90).units = "Hz V^-1";

517

518

unit_data(91).name = "conventional value of von Klitzing constant";

519

unit_data(91).value = 25812.807;

520

unit_data(91).uncertainty = 0.0;

521

unit_data(91).units = "ohm";

522

523

unit_data(92).name = "deuteron g factor";

524

unit_data(92).value = 0.8574382308;

525

unit_data(92).uncertainty = 0.0000000072;

526

unit_data(92).units = "";

527

528

unit_data(93).name = "deuteron mag. mom.";

529

unit_data(93).value = 0.433073489e-26;

530

unit_data(93).uncertainty = 0.000000010e-26;

531

unit_data(93).units = "J T^-1";

532

533

unit_data(94).name = "deuteron mag. mom. to Bohr magneton ratio";

534

unit_data(94).value = 0.4669754556e-3;

535

unit_data(94).uncertainty = 0.0000000039e-3;

536

unit_data(94).units = "";

537

538

unit_data(95).name = "deuteron mag. mom. to nuclear magneton ratio";

539

unit_data(95).value = 0.8574382308;

540

unit_data(95).uncertainty = 0.0000000072;

541

unit_data(95).units = "";

542

543

unit_data(96).name = "deuteron mass";

544

unit_data(96).value = 3.34358348e-27;

545

unit_data(96).uncertainty = 0.00000015e-27;

546

unit_data(96).units = "kg";

547

548

unit_data(97).name = "deuteron mass energy equivalent";

549

unit_data(97).value = 3.00506297e-10;

550

unit_data(97).uncertainty = 0.00000013e-10;

551

unit_data(97).units = "J";

552

553

unit_data(98).name = "deuteron mass energy equivalent in MeV";

554

unit_data(98).value = 1875.612859;

555

unit_data(98).uncertainty = 0.000041;

556

unit_data(98).units = "MeV";

557

558

unit_data(99).name = "deuteron mass in u";

559

unit_data(99).value = 2.013553212712;

560

unit_data(99).uncertainty = 0.000000000077;

561

unit_data(99).units = "u";

562

563

unit_data(100).name = "deuteron molar mass";

564

unit_data(100).value = 2.013553212712e-3;

565

unit_data(100).uncertainty = 0.000000000077e-3;

566

unit_data(100).units = "kg mol^-1";

567

568

unit_data(101).name = "deuteron rms charge radius";

569

unit_data(101).value = 2.1424e-15;

570

unit_data(101).uncertainty = 0.0021e-15;

571

unit_data(101).units = "m";

572

573

unit_data(102).name = "deuteron-electron mag. mom. ratio";

574

unit_data(102).value = -4.664345537e-4;

575

unit_data(102).uncertainty = 0.000000039e-4;

576

unit_data(102).units = "";

577

578

unit_data(103).name = "deuteron-electron mass ratio";

579

unit_data(103).value = 3670.4829652;

580

unit_data(103).uncertainty = 0.0000015;

581

unit_data(103).units = "";

582

583

unit_data(104).name = "deuteron-neutron mag. mom. ratio";

584

unit_data(104).value = -0.44820652;

585

unit_data(104).uncertainty = 0.00000011;

586

unit_data(104).units = "";

587

588

unit_data(105).name = "deuteron-proton mag. mom. ratio";

589

unit_data(105).value = 0.3070122070;

590

unit_data(105).uncertainty = 0.0000000024;

591

unit_data(105).units = "";

592

593

unit_data(106).name = "deuteron-proton mass ratio";

594

unit_data(106).value = 1.99900750097;

595

unit_data(106).uncertainty = 0.00000000018;

596

unit_data(106).units = "";

597

598

unit_data(107).name = "electric constant";

599

unit_data(107).value = 8.854187817e-12;

600

unit_data(107).uncertainty = 0.0;

601

unit_data(107).units = "F m^-1";

602

603

unit_data(108).name = "electron charge to mass quotient";

604

unit_data(108).value = -1.758820088e11;

605

unit_data(108).uncertainty = 0.000000039e11;

606

unit_data(108).units = "C kg^-1";

607

608

unit_data(109).name = "electron g factor";

609

unit_data(109).value = -2.00231930436153;

610

unit_data(109).uncertainty = 0.00000000000053;

611

unit_data(109).units = "";

612

613

unit_data(110).name = "electron gyromag. ratio";

614

unit_data(110).value = 1.760859708e11;

615

unit_data(110).uncertainty = 0.000000039e11;

616

unit_data(110).units = "s^-1 T^-1";

617

618

unit_data(111).name = "electron gyromag. ratio over 2 pi";

619

unit_data(111).value = 28024.95266;

620

unit_data(111).uncertainty = 0.00062;

621

unit_data(111).units = "MHz T^-1";

622

623

unit_data(112).name = "electron mag. mom.";

624

unit_data(112).value = -928.476430e-26;

625

unit_data(112).uncertainty = 0.000021e-26;

626

unit_data(112).units = "J T^-1";

627

628

unit_data(113).name = "electron mag. mom. anomaly";

629

unit_data(113).value = 1.15965218076e-3;

630

unit_data(113).uncertainty = 0.00000000027e-3;

631

unit_data(113).units = "";

632

633

unit_data(114).name = "electron mag. mom. to Bohr magneton ratio";

634

unit_data(114).value = -1.00115965218076;

635

unit_data(114).uncertainty = 0.00000000000027;

636

unit_data(114).units = "";

637

638

unit_data(115).name = "electron mag. mom. to nuclear magneton ratio";

639

unit_data(115).value = -1838.28197090;

640

unit_data(115).uncertainty = 0.00000075;

641

unit_data(115).units = "";

642

643

unit_data(116).name = "electron mass";

644

unit_data(116).value = 9.10938291e-31;

645

unit_data(116).uncertainty = 0.00000040e-31;

646

unit_data(116).units = "kg";

647

648

unit_data(117).name = "electron mass energy equivalent";

649

unit_data(117).value = 8.18710506e-14;

650

unit_data(117).uncertainty = 0.00000036e-14;

651

unit_data(117).units = "J";

652

653

unit_data(118).name = "electron mass energy equivalent in MeV";

654

unit_data(118).value = 0.510998928;

655

unit_data(118).uncertainty = 0.000000011;

656

unit_data(118).units = "MeV";

657

658

unit_data(119).name = "electron mass in u";

659

unit_data(119).value = 5.4857990946e-4;

660

unit_data(119).uncertainty = 0.0000000022e-4;

661

unit_data(119).units = "u";

662

663

unit_data(120).name = "electron molar mass";

664

unit_data(120).value = 5.4857990946e-7;

665

unit_data(120).uncertainty = 0.0000000022e-7;

666

unit_data(120).units = "kg mol^-1";

667

668

unit_data(121).name = "electron to alpha particle mass ratio";

669

unit_data(121).value = 1.37093355578e-4;

670

unit_data(121).uncertainty = 0.00000000055e-4;

671

unit_data(121).units = "";

672

673

unit_data(122).name = "electron to shielded helion mag. mom. ratio";

674

unit_data(122).value = 864.058257;

675

unit_data(122).uncertainty = 0.000010;

676

unit_data(122).units = "";

677

678

unit_data(123).name = "electron to shielded proton mag. mom. ratio";

679

unit_data(123).value = -658.2275971;

680

unit_data(123).uncertainty = 0.0000072;

681

unit_data(123).units = "";

682

683

unit_data(124).name = "electron volt";

684

unit_data(124).value = 1.602176565e-19;

685

unit_data(124).uncertainty = 0.000000035e-19;

686

unit_data(124).units = "J";

687

688

unit_data(125).name = "electron volt-atomic mass unit relationship";

689

unit_data(125).value = 1.073544150e-9;

690

unit_data(125).uncertainty = 0.000000024e-9;

691

unit_data(125).units = "u";

692

693

unit_data(126).name = "electron volt-hartree relationship";

694

unit_data(126).value = 3.674932379e-2;

695

unit_data(126).uncertainty = 0.000000081e-2;

696

unit_data(126).units = "E_h";

697

698

unit_data(127).name = "electron volt-hertz relationship";

699

unit_data(127).value = 2.417989348e14;

700

unit_data(127).uncertainty = 0.000000053e14;

701

unit_data(127).units = "Hz";

702

703

unit_data(128).name = "electron volt-inverse meter relationship";

704

unit_data(128).value = 8.06554429e5;

705

unit_data(128).uncertainty = 0.00000018e5;

706

unit_data(128).units = "m^-1";

707

708

unit_data(129).name = "electron volt-joule relationship";

709

unit_data(129).value = 1.602176565e-19;

710

unit_data(129).uncertainty = 0.000000035e-19;

711

unit_data(129).units = "J";

712

713

unit_data(130).name = "electron volt-kelvin relationship";

714

unit_data(130).value = 1.1604519e4;

715

unit_data(130).uncertainty = 0.0000011e4;

716

unit_data(130).units = "K";

717

718

unit_data(131).name = "electron volt-kilogram relationship";

719

unit_data(131).value = 1.782661845e-36;

720

unit_data(131).uncertainty = 0.000000039e-36;

721

unit_data(131).units = "kg";

722

723

unit_data(132).name = "electron-deuteron mag. mom. ratio";

724

unit_data(132).value = -2143.923498;

725

unit_data(132).uncertainty = 0.000018;

726

unit_data(132).units = "";

727

728

unit_data(133).name = "electron-deuteron mass ratio";

729

unit_data(133).value = 2.7244371095e-4;

730

unit_data(133).uncertainty = 0.0000000011e-4;

731

unit_data(133).units = "";

732

733

unit_data(134).name = "electron-helion mass ratio";

734

unit_data(134).value = 1.8195430761e-4;

735

unit_data(134).uncertainty = 0.0000000017e-4;

736

unit_data(134).units = "";

737

738

unit_data(135).name = "electron-muon mag. mom. ratio";

739

unit_data(135).value = 206.7669896;

740

unit_data(135).uncertainty = 0.0000052;

741

unit_data(135).units = "";

742

743

unit_data(136).name = "electron-muon mass ratio";

744

unit_data(136).value = 4.83633166e-3;

745

unit_data(136).uncertainty = 0.00000012e-3;

746

unit_data(136).units = "";

747

748

unit_data(137).name = "electron-neutron mag. mom. ratio";

749

unit_data(137).value = 960.92050;

750

unit_data(137).uncertainty = 0.00023;

751

unit_data(137).units = "";

752

753

unit_data(138).name = "electron-neutron mass ratio";

754

unit_data(138).value = 5.4386734461e-4;

755

unit_data(138).uncertainty = 0.0000000032e-4;

756

unit_data(138).units = "";

757

758

unit_data(139).name = "electron-proton mag. mom. ratio";

759

unit_data(139).value = -658.2106848;

760

unit_data(139).uncertainty = 0.0000054;

761

unit_data(139).units = "";

762

763

unit_data(140).name = "electron-proton mass ratio";

764

unit_data(140).value = 5.4461702178e-4;

765

unit_data(140).uncertainty = 0.0000000022e-4;

766

unit_data(140).units = "";

767

768

unit_data(141).name = "electron-tau mass ratio";

769

unit_data(141).value = 2.87592e-4;

770

unit_data(141).uncertainty = 0.00026e-4;

771

unit_data(141).units = "";

772

773

unit_data(142).name = "electron-triton mass ratio";

774

unit_data(142).value = 1.8192000653e-4;

775

unit_data(142).uncertainty = 0.0000000017e-4;

776

unit_data(142).units = "";

777

778

unit_data(143).name = "elementary charge";

779

unit_data(143).value = 1.602176565e-19;

780

unit_data(143).uncertainty = 0.000000035e-19;

781

unit_data(143).units = "C";

782

783

unit_data(144).name = "elementary charge over h";

784

unit_data(144).value = 2.417989348e14;

785

unit_data(144).uncertainty = 0.000000053e14;

786

unit_data(144).units = "A J^-1";

787

788

unit_data(145).name = "fine-structure constant";

789

unit_data(145).value = 7.2973525698e-3;

790

unit_data(145).uncertainty = 0.0000000024e-3;

791

unit_data(145).units = "";

792

793

unit_data(146).name = "first radiation constant";

794

unit_data(146).value = 3.74177153e-16;

795

unit_data(146).uncertainty = 0.00000017e-16;

796

unit_data(146).units = "W m^2";

797

798

unit_data(147).name = "first radiation constant for spectral radiance";

799

unit_data(147).value = 1.191042869e-16;

800

unit_data(147).uncertainty = 0.000000053e-16;

801

unit_data(147).units = "W m^2 sr^-1";

802

803

unit_data(148).name = "hartree-atomic mass unit relationship";

804

unit_data(148).value = 2.9212623246e-8;

805

unit_data(148).uncertainty = 0.0000000021e-8;

806

unit_data(148).units = "u";

807

808

unit_data(149).name = "hartree-electron volt relationship";

809

unit_data(149).value = 27.21138505;

810

unit_data(149).uncertainty = 0.00000060;

811

unit_data(149).units = "eV";

812

813

unit_data(150).name = "hartree-hertz relationship";

814

unit_data(150).value = 6.579683920729e15;

815

unit_data(150).uncertainty = 0.000000000033e15;

816

unit_data(150).units = "Hz";

817

818

unit_data(151).name = "hartree-inverse meter relationship";

819

unit_data(151).value = 2.194746313708e7;

820

unit_data(151).uncertainty = 0.000000000011e7;

821

unit_data(151).units = "m^-1";

822

823

unit_data(152).name = "hartree-joule relationship";

824

unit_data(152).value = 4.35974434e-18;

825

unit_data(152).uncertainty = 0.00000019e-18;

826

unit_data(152).units = "J";

827

828

unit_data(153).name = "hartree-kelvin relationship";

829

unit_data(153).value = 3.1577504e5;

830

unit_data(153).uncertainty = 0.0000029e5;

831

unit_data(153).units = "K";

832

833

unit_data(154).name = "hartree-kilogram relationship";

834

unit_data(154).value = 4.85086979e-35;

835

unit_data(154).uncertainty = 0.00000021e-35;

836

unit_data(154).units = "kg";

837

838

unit_data(155).name = "helion g factor";

839

unit_data(155).value = -4.255250613;

840

unit_data(155).uncertainty = 0.000000050;

841

unit_data(155).units = "";

842

843

unit_data(156).name = "helion mag. mom.";

844

unit_data(156).value = -1.074617486e-26;

845

unit_data(156).uncertainty = 0.000000027e-26;

846

unit_data(156).units = "J T^-1";

847

848

unit_data(157).name = "helion mag. mom. to Bohr magneton ratio";

849

unit_data(157).value = -1.158740958e-3;

850

unit_data(157).uncertainty = 0.000000014e-3;

851

unit_data(157).units = "";

852

853

unit_data(158).name = "helion mag. mom. to nuclear magneton ratio";

854

unit_data(158).value = -2.127625306;

855

unit_data(158).uncertainty = 0.000000025;

856

unit_data(158).units = "";

857

858

unit_data(159).name = "helion mass";

859

unit_data(159).value = 5.00641234e-27;

860

unit_data(159).uncertainty = 0.00000022e-27;

861

unit_data(159).units = "kg";

862

863

unit_data(160).name = "helion mass energy equivalent";

864

unit_data(160).value = 4.49953902e-10;

865

unit_data(160).uncertainty = 0.00000020e-10;

866

unit_data(160).units = "J";

867

868

unit_data(161).name = "helion mass energy equivalent in MeV";

869

unit_data(161).value = 2808.391482;

870

unit_data(161).uncertainty = 0.000062;

871

unit_data(161).units = "MeV";

872

873

unit_data(162).name = "helion mass in u";

874

unit_data(162).value = 3.0149322468;

875

unit_data(162).uncertainty = 0.0000000025;

876

unit_data(162).units = "u";

877

878

unit_data(163).name = "helion molar mass";

879

unit_data(163).value = 3.0149322468e-3;

880

unit_data(163).uncertainty = 0.0000000025e-3;

881

unit_data(163).units = "kg mol^-1";

882

883

unit_data(164).name = "helion-electron mass ratio";

884

unit_data(164).value = 5495.8852754;

885

unit_data(164).uncertainty = 0.0000050;

886

unit_data(164).units = "";

887

888

unit_data(165).name = "helion-proton mass ratio";

889

unit_data(165).value = 2.9931526707;

890

unit_data(165).uncertainty = 0.0000000025;

891

unit_data(165).units = "";

892

893

unit_data(166).name = "hertz-atomic mass unit relationship";

894

unit_data(166).value = 4.4398216689e-24;

895

unit_data(166).uncertainty = 0.0000000031e-24;

896

unit_data(166).units = "u";

897

898

unit_data(167).name = "hertz-electron volt relationship";

899

unit_data(167).value = 4.135667516e-15;

900

unit_data(167).uncertainty = 0.000000091e-15;

901

unit_data(167).units = "eV";

902

903

unit_data(168).name = "hertz-hartree relationship";

904

unit_data(168).value = 1.5198298460045e-16;

905

unit_data(168).uncertainty = 0.0000000000076e-16;

906

unit_data(168).units = "E_h";

907

908

unit_data(169).name = "hertz-inverse meter relationship";

909

unit_data(169).value = 3.335640951e-9;

910

unit_data(169).uncertainty = 0.0;

911

unit_data(169).units = "m^-1";

912

913

unit_data(170).name = "hertz-joule relationship";

914

unit_data(170).value = 6.62606957e-34;

915

unit_data(170).uncertainty = 0.00000029e-34;

916

unit_data(170).units = "J";

917

918

unit_data(171).name = "hertz-kelvin relationship";

919

unit_data(171).value = 4.7992434e-11;

920

unit_data(171).uncertainty = 0.0000044e-11;

921

unit_data(171).units = "K";

922

923

unit_data(172).name = "hertz-kilogram relationship";

924

unit_data(172).value = 7.37249668e-51;

925

unit_data(172).uncertainty = 0.00000033e-51;

926

unit_data(172).units = "kg";

927

928

unit_data(173).name = "inverse fine-structure constant";

929

unit_data(173).value = 137.035999074;

930

unit_data(173).uncertainty = 0.000000044;

931

unit_data(173).units = "";

932

933

unit_data(174).name = "inverse meter-atomic mass unit relationship";

934

unit_data(174).value = 1.33102505120e-15;

935

unit_data(174).uncertainty = 0.00000000094e-15;

936

unit_data(174).units = "u";

937

938

unit_data(175).name = "inverse meter-electron volt relationship";

939

unit_data(175).value = 1.239841930e-6;

940

unit_data(175).uncertainty = 0.000000027e-6;

941

unit_data(175).units = "eV";

942

943

unit_data(176).name = "inverse meter-hartree relationship";

944

unit_data(176).value = 4.556335252755e-8;

945

unit_data(176).uncertainty = 0.000000000023e-8;

946

unit_data(176).units = "E_h";

947

948

unit_data(177).name = "inverse meter-hertz relationship";

949

unit_data(177).value = 299792458;

950

unit_data(177).uncertainty = 0.0;

951

unit_data(177).units = "Hz";

952

953

unit_data(178).name = "inverse meter-joule relationship";

954

unit_data(178).value = 1.986445684e-25;

955

unit_data(178).uncertainty = 0.000000088e-25;

956

unit_data(178).units = "J";

957

958

unit_data(179).name = "inverse meter-kelvin relationship";

959

unit_data(179).value = 1.4387770e-2;

960

unit_data(179).uncertainty = 0.0000013e-2;

961

unit_data(179).units = "K";

962

963

unit_data(180).name = "inverse meter-kilogram relationship";

964

unit_data(180).value = 2.210218902e-42;

965

unit_data(180).uncertainty = 0.000000098e-42;

966

unit_data(180).units = "kg";

967

968

unit_data(181).name = "inverse of conductance quantum";

969

unit_data(181).value = 12906.4037217;

970

unit_data(181).uncertainty = 0.0000042;

971

unit_data(181).units = "ohm";

972

973

unit_data(182).name = "joule-atomic mass unit relationship";

974

unit_data(182).value = 6.70053585e9;

975

unit_data(182).uncertainty = 0.00000030e9;

976

unit_data(182).units = "u";

977

978

unit_data(183).name = "joule-electron volt relationship";

979

unit_data(183).value = 6.24150934e18;

980

unit_data(183).uncertainty = 0.00000014e18;

981

unit_data(183).units = "eV";

982

983

unit_data(184).name = "joule-hartree relationship";

984

unit_data(184).value = 2.29371248e17;

985

unit_data(184).uncertainty = 0.00000010e17;

986

unit_data(184).units = "E_h";

987

988

unit_data(185).name = "joule-hertz relationship";

989

unit_data(185).value = 1.509190311e33;

990

unit_data(185).uncertainty = 0.000000067e33;

991

unit_data(185).units = "Hz";

992

993

unit_data(186).name = "joule-inverse meter relationship";

994

unit_data(186).value = 5.03411701e24;

995

unit_data(186).uncertainty = 0.00000022e24;

996

unit_data(186).units = "m^-1";

997

998

unit_data(187).name = "joule-kelvin relationship";

999

unit_data(187).value = 7.2429716e22;

1000

unit_data(187).uncertainty = 0.0000066e22;

1001

unit_data(187).units = "K";

1002

1003

unit_data(188).name = "joule-kilogram relationship";

1004

unit_data(188).value = 1.112650056e-17;

1005

unit_data(188).uncertainty = 0.0;

1006

unit_data(188).units = "kg";

1007

1008

unit_data(189).name = "kelvin-atomic mass unit relationship";

1009

unit_data(189).value = 9.2510868e-14;

1010

unit_data(189).uncertainty = 0.0000084e-14;

1011

unit_data(189).units = "u";

1012

1013

unit_data(190).name = "kelvin-electron volt relationship";

1014

unit_data(190).value = 8.6173324e-5;

1015

unit_data(190).uncertainty = 0.0000078e-5;

1016

unit_data(190).units = "eV";

1017

1018

unit_data(191).name = "kelvin-hartree relationship";

1019

unit_data(191).value = 3.1668114e-6;

1020

unit_data(191).uncertainty = 0.0000029e-6;

1021

unit_data(191).units = "E_h";

1022

1023

unit_data(192).name = "kelvin-hertz relationship";

1024

unit_data(192).value = 2.0836618e10;

1025

unit_data(192).uncertainty = 0.0000019e10;

1026

unit_data(192).units = "Hz";

1027

1028

unit_data(193).name = "kelvin-inverse meter relationship";

1029

unit_data(193).value = 69.503476;

1030

unit_data(193).uncertainty = 0.000063;

1031

unit_data(193).units = "m^-1";

1032

1033

unit_data(194).name = "kelvin-joule relationship";

1034

unit_data(194).value = 1.3806488e-23;

1035

unit_data(194).uncertainty = 0.0000013e-23;

1036

unit_data(194).units = "J";

1037

1038

unit_data(195).name = "kelvin-kilogram relationship";

1039

unit_data(195).value = 1.5361790e-40;

1040

unit_data(195).uncertainty = 0.0000014e-40;

1041

unit_data(195).units = "kg";

1042

1043

unit_data(196).name = "kilogram-atomic mass unit relationship";

1044

unit_data(196).value = 6.02214129e26;

1045

unit_data(196).uncertainty = 0.00000027e26;

1046

unit_data(196).units = "u";

1047

1048

unit_data(197).name = "kilogram-electron volt relationship";

1049

unit_data(197).value = 5.60958885e35;

1050

unit_data(197).uncertainty = 0.00000012e35;

1051

unit_data(197).units = "eV";

1052

1053

unit_data(198).name = "kilogram-hartree relationship";

1054

unit_data(198).value = 2.061485968e34;

1055

unit_data(198).uncertainty = 0.000000091e34;

1056

unit_data(198).units = "E_h";

1057

1058

unit_data(199).name = "kilogram-hertz relationship";

1059

unit_data(199).value = 1.356392608e50;

1060

unit_data(199).uncertainty = 0.000000060e50;

1061

unit_data(199).units = "Hz";

1062

1063

unit_data(200).name = "kilogram-inverse meter relationship";

1064

unit_data(200).value = 4.52443873e41;

1065

unit_data(200).uncertainty = 0.00000020e41;

1066

unit_data(200).units = "m^-1";

1067

1068

unit_data(201).name = "kilogram-joule relationship";

1069

unit_data(201).value = 8.987551787e16;

1070

unit_data(201).uncertainty = 0.0;

1071

unit_data(201).units = "J";

1072

1073

unit_data(202).name = "kilogram-kelvin relationship";

1074

unit_data(202).value = 6.5096582e39;

1075

unit_data(202).uncertainty = 0.0000059e39;

1076

unit_data(202).units = "K";

1077

1078

unit_data(203).name = "lattice parameter of silicon";

1079

unit_data(203).value = 543.1020504e-12;

1080

unit_data(203).uncertainty = 0.0000089e-12;

1081

unit_data(203).units = "m";

1082

1083

unit_data(204).name = "mag. constant";

1084

unit_data(204).value = 12.566370614e-7;

1085

unit_data(204).uncertainty = 0.0;

1086

unit_data(204).units = "N A^-2";

1087

1088

unit_data(205).name = "mag. flux quantum";

1089

unit_data(205).value = 2.067833758e-15;

1090

unit_data(205).uncertainty = 0.000000046e-15;

1091

unit_data(205).units = "Wb";

1092

1093

unit_data(206).name = "molar Planck constant";

1094

unit_data(206).value = 3.9903127176e-10;

1095

unit_data(206).uncertainty = 0.0000000028e-10;

1096

unit_data(206).units = "J s mol^-1";

1097

1098

unit_data(207).name = "molar Planck constant times c";

1099

unit_data(207).value = 0.119626565779;

1100

unit_data(207).uncertainty = 0.000000000084;

1101

unit_data(207).units = "J m mol^-1";

1102

1103

unit_data(208).name = "molar gas constant";

1104

unit_data(208).value = 8.3144621;

1105

unit_data(208).uncertainty = 0.0000075;

1106

unit_data(208).units = "J mol^-1 K^-1";

1107

1108

unit_data(209).name = "molar mass constant";

1109

unit_data(209).value = 1e-3;

1110

unit_data(209).uncertainty = 0.0;

1111

unit_data(209).units = "kg mol^-1";

1112

1113

unit_data(210).name = "molar mass of carbon-12";

1114

unit_data(210).value = 12e-3;

1115

unit_data(210).uncertainty = 0.0;

1116

unit_data(210).units = "kg mol^-1";

1117

1118

unit_data(211).name = "molar volume of ideal gas (273.15 K, 100 kPa)";

1119

unit_data(211).value = 22.710953e-3;

1120

unit_data(211).uncertainty = 0.000021e-3;

1121

unit_data(211).units = "m^3 mol^-1";

1122

1123

unit_data(212).name = "molar volume of ideal gas (273.15 K, 101.325 kPa)";

1124

unit_data(212).value = 22.413968e-3;

1125

unit_data(212).uncertainty = 0.000020e-3;

1126

unit_data(212).units = "m^3 mol^-1";

1127

1128

unit_data(213).name = "molar volume of silicon";

1129

unit_data(213).value = 12.05883301e-6;

1130

unit_data(213).uncertainty = 0.00000080e-6;

1131

unit_data(213).units = "m^3 mol^-1";

1132

1133

unit_data(214).name = "muon Compton wavelength";

1134

unit_data(214).value = 11.73444103e-15;

1135

unit_data(214).uncertainty = 0.00000030e-15;

1136

unit_data(214).units = "m";

1137

1138

unit_data(215).name = "muon Compton wavelength over 2 pi";

1139

unit_data(215).value = 1.867594294e-15;

1140

unit_data(215).uncertainty = 0.000000047e-15;

1141

unit_data(215).units = "m";

1142

1143

unit_data(216).name = "muon g factor";

1144

unit_data(216).value = -2.0023318418;

1145

unit_data(216).uncertainty = 0.0000000013;

1146

unit_data(216).units = "";

1147

1148

unit_data(217).name = "muon mag. mom.";

1149

unit_data(217).value = -4.49044807e-26;

1150

unit_data(217).uncertainty = 0.00000015e-26;

1151

unit_data(217).units = "J T^-1";

1152

1153

unit_data(218).name = "muon mag. mom. anomaly";

1154

unit_data(218).value = 1.16592091e-3;

1155

unit_data(218).uncertainty = 0.00000063e-3;

1156

unit_data(218).units = "";

1157

1158

unit_data(219).name = "muon mag. mom. to Bohr magneton ratio";

1159

unit_data(219).value = -4.84197044e-3;

1160

unit_data(219).uncertainty = 0.00000012e-3;

1161

unit_data(219).units = "";

1162

1163

unit_data(220).name = "muon mag. mom. to nuclear magneton ratio";

1164

unit_data(220).value = -8.89059697;

1165

unit_data(220).uncertainty = 0.00000022;

1166

unit_data(220).units = "";

1167

1168

unit_data(221).name = "muon mass";

1169

unit_data(221).value = 1.883531475e-28;

1170

unit_data(221).uncertainty = 0.000000096e-28;

1171

unit_data(221).units = "kg";

1172

1173

unit_data(222).name = "muon mass energy equivalent";

1174

unit_data(222).value = 1.692833667e-11;

1175

unit_data(222).uncertainty = 0.000000086e-11;

1176

unit_data(222).units = "J";

1177

1178

unit_data(223).name = "muon mass energy equivalent in MeV";

1179

unit_data(223).value = 105.6583715;

1180

unit_data(223).uncertainty = 0.0000035;

1181

unit_data(223).units = "MeV";

1182

1183

unit_data(224).name = "muon mass in u";

1184

unit_data(224).value = 0.1134289267;

1185

unit_data(224).uncertainty = 0.0000000029;

1186

unit_data(224).units = "u";

1187

1188

unit_data(225).name = "muon molar mass";

1189

unit_data(225).value = 0.1134289267e-3;

1190

unit_data(225).uncertainty = 0.0000000029e-3;

1191

unit_data(225).units = "kg mol^-1";

1192

1193

unit_data(226).name = "muon-electron mass ratio";

1194

unit_data(226).value = 206.7682843;

1195

unit_data(226).uncertainty = 0.0000052;

1196

unit_data(226).units = "";

1197

1198

unit_data(227).name = "muon-neutron mass ratio";

1199

unit_data(227).value = 0.1124545177;

1200

unit_data(227).uncertainty = 0.0000000028;

1201

unit_data(227).units = "";

1202

1203

unit_data(228).name = "muon-proton mag. mom. ratio";

1204

unit_data(228).value = -3.183345107;

1205

unit_data(228).uncertainty = 0.000000084;

1206

unit_data(228).units = "";

1207

1208

unit_data(229).name = "muon-proton mass ratio";

1209

unit_data(229).value = 0.1126095272;

1210

unit_data(229).uncertainty = 0.0000000028;

1211

unit_data(229).units = "";

1212

1213

unit_data(230).name = "muon-tau mass ratio";

1214

unit_data(230).value = 5.94649e-2;

1215

unit_data(230).uncertainty = 0.00054e-2;

1216

unit_data(230).units = "";

1217

1218

unit_data(231).name = "natural unit of action";

1219

unit_data(231).value = 1.054571726e-34;

1220

unit_data(231).uncertainty = 0.000000047e-34;

1221

unit_data(231).units = "J s";

1222

1223

unit_data(232).name = "natural unit of action in eV s";

1224

unit_data(232).value = 6.58211928e-16;

1225

unit_data(232).uncertainty = 0.00000015e-16;

1226

unit_data(232).units = "eV s";

1227

1228

unit_data(233).name = "natural unit of energy";

1229

unit_data(233).value = 8.18710506e-14;

1230

unit_data(233).uncertainty = 0.00000036e-14;

1231

unit_data(233).units = "J";

1232

1233

unit_data(234).name = "natural unit of energy in MeV";

1234

unit_data(234).value = 0.510998928;

1235

unit_data(234).uncertainty = 0.000000011;

1236

unit_data(234).units = "MeV";

1237

1238

unit_data(235).name = "natural unit of length";

1239

unit_data(235).value = 386.15926800e-15;

1240

unit_data(235).uncertainty = 0.00000025e-15;

1241

unit_data(235).units = "m";

1242

1243

unit_data(236).name = "natural unit of mass";

1244

unit_data(236).value = 9.10938291e-31;

1245

unit_data(236).uncertainty = 0.00000040e-31;

1246

unit_data(236).units = "kg";

1247

1248

unit_data(237).name = "natural unit of mom.um";

1249

unit_data(237).value = 2.73092429e-22;

1250

unit_data(237).uncertainty = 0.00000012e-22;

1251

unit_data(237).units = "kg m s^-1";

1252

1253

unit_data(238).name = "natural unit of mom.um in MeV/c";

1254

unit_data(238).value = 0.510998928;

1255

unit_data(238).uncertainty = 0.000000011;

1256

unit_data(238).units = "MeV/c";

1257

1258

unit_data(239).name = "natural unit of time";

1259

unit_data(239).value = 1.28808866833e-21;

1260

unit_data(239).uncertainty = 0.00000000083e-21;

1261

unit_data(239).units = "s";

1262

1263

unit_data(240).name = "natural unit of velocity";

1264

unit_data(240).value = 299792458;

1265

unit_data(240).uncertainty = 0.0;

1266

unit_data(240).units = "m s^-1";

1267

1268

unit_data(241).name = "neutron Compton wavelength";

1269

unit_data(241).value = 1.3195909068e-15;

1270

unit_data(241).uncertainty = 0.0000000011e-15;

1271

unit_data(241).units = "m";

1272

1273

unit_data(242).name = "neutron Compton wavelength over 2 pi";

1274

unit_data(242).value = 0.21001941568e-15;

1275

unit_data(242).uncertainty = 0.00000000017e-15;

1276

unit_data(242).units = "m";

1277

1278

unit_data(243).name = "neutron g factor";

1279

unit_data(243).value = -3.82608545;

1280

unit_data(243).uncertainty = 0.00000090;

1281

unit_data(243).units = "";

1282

1283

unit_data(244).name = "neutron gyromag. ratio";

1284

unit_data(244).value = 1.83247179e8;

1285

unit_data(244).uncertainty = 0.00000043e8;

1286

unit_data(244).units = "s^-1 T^-1";

1287

1288

unit_data(245).name = "neutron gyromag. ratio over 2 pi";

1289

unit_data(245).value = 29.1646943;

1290

unit_data(245).uncertainty = 0.0000069;

1291

unit_data(245).units = "MHz T^-1";

1292

1293

unit_data(246).name = "neutron mag. mom.";

1294

unit_data(246).value = -0.96623647e-26;

1295

unit_data(246).uncertainty = 0.00000023e-26;

1296

unit_data(246).units = "J T^-1";

1297

1298

unit_data(247).name = "neutron mag. mom. to Bohr magneton ratio";

1299

unit_data(247).value = -1.04187563e-3;

1300

unit_data(247).uncertainty = 0.00000025e-3;

1301

unit_data(247).units = "";

1302

1303

unit_data(248).name = "neutron mag. mom. to nuclear magneton ratio";

1304

unit_data(248).value = -1.91304272;

1305

unit_data(248).uncertainty = 0.00000045;

1306

unit_data(248).units = "";

1307

1308

unit_data(249).name = "neutron mass";

1309

unit_data(249).value = 1.674927351e-27;

1310

unit_data(249).uncertainty = 0.000000074e-27;

1311

unit_data(249).units = "kg";

1312

1313

unit_data(250).name = "neutron mass energy equivalent";

1314

unit_data(250).value = 1.505349631e-10;

1315

unit_data(250).uncertainty = 0.000000066e-10;

1316

unit_data(250).units = "J";

1317

1318

unit_data(251).name = "neutron mass energy equivalent in MeV";

1319

unit_data(251).value = 939.565379;

1320

unit_data(251).uncertainty = 0.000021;

1321

unit_data(251).units = "MeV";

1322

1323

unit_data(252).name = "neutron mass in u";

1324

unit_data(252).value = 1.00866491600;

1325

unit_data(252).uncertainty = 0.00000000043;

1326

unit_data(252).units = "u";

1327

1328

unit_data(253).name = "neutron molar mass";

1329

unit_data(253).value = 1.00866491600e-3;

1330

unit_data(253).uncertainty = 0.00000000043e-3;

1331

unit_data(253).units = "kg mol^-1";

1332

1333

unit_data(254).name = "neutron to shielded proton mag. mom. ratio";

1334

unit_data(254).value = -0.68499694;

1335

unit_data(254).uncertainty = 0.00000016;

1336

unit_data(254).units = "";

1337

1338

unit_data(255).name = "neutron-electron mag. mom. ratio";

1339

unit_data(255).value = 1.04066882e-3;

1340

unit_data(255).uncertainty = 0.00000025e-3;

1341

unit_data(255).units = "";

1342

1343

unit_data(256).name = "neutron-electron mass ratio";

1344

unit_data(256).value = 1838.6836605;

1345

unit_data(256).uncertainty = 0.0000011;

1346

unit_data(256).units = "";

1347

1348

unit_data(257).name = "neutron-muon mass ratio";

1349

unit_data(257).value = 8.89248400;

1350

unit_data(257).uncertainty = 0.00000022;

1351

unit_data(257).units = "";

1352

1353

unit_data(258).name = "neutron-proton mag. mom. ratio";

1354

unit_data(258).value = -0.68497934;

1355

unit_data(258).uncertainty = 0.00000016;

1356

unit_data(258).units = "";

1357

1358

unit_data(259).name = "neutron-proton mass difference";

1359

unit_data(259).value = 2.30557392e-30;

1360

unit_data(259).uncertainty = 0.00000076e-30;

1361

unit_data(259).units = "";

1362

1363

unit_data(260).name = "neutron-proton mass difference energy equivalent";

1364

unit_data(260).value = 2.07214650e-13;

1365

unit_data(260).uncertainty = 0.00000068e-13;

1366

unit_data(260).units = "";

1367

1368

unit_data(261).name = "neutron-proton mass difference energy equivalent in MeV";

1369

unit_data(261).value = 1.29333217;

1370

unit_data(261).uncertainty = 0.00000042;

1371

unit_data(261).units = "";

1372

1373

unit_data(262).name = "neutron-proton mass difference in u";

1374

unit_data(262).value = 0.00138844919;

1375

unit_data(262).uncertainty = 0.00000000045;

1376

unit_data(262).units = "";

1377

1378

unit_data(263).name = "neutron-proton mass ratio";

1379

unit_data(263).value = 1.00137841917;

1380

unit_data(263).uncertainty = 0.00000000045;

1381

unit_data(263).units = "";

1382

1383

unit_data(264).name = "neutron-tau mass ratio";

1384

unit_data(264).value = 0.528790;

1385

unit_data(264).uncertainty = 0.000048;

1386

unit_data(264).units = "";

1387

1388

unit_data(265).name = "nuclear magneton";

1389

unit_data(265).value = 5.05078353e-27;

1390

unit_data(265).uncertainty = 0.00000011e-27;

1391

unit_data(265).units = "J T^-1";

1392

1393

unit_data(266).name = "nuclear magneton in K/T";

1394

unit_data(266).value = 3.6582682e-4;

1395

unit_data(266).uncertainty = 0.0000033e-4;

1396

unit_data(266).units = "K T^-1";

1397

1398

unit_data(267).name = "nuclear magneton in MHz/T";

1399

unit_data(267).value = 7.62259357;

1400

unit_data(267).uncertainty = 0.00000017;

1401

unit_data(267).units = "MHz T^-1";

1402

1403

unit_data(268).name = "nuclear magneton in eV/T";

1404

unit_data(268).value = 3.1524512605e-8;

1405

unit_data(268).uncertainty = 0.0000000022e-8;

1406

unit_data(268).units = "eV T^-1";

1407

1408

unit_data(269).name = "nuclear magneton in inverse meters per tesla";

1409

unit_data(269).value = 2.542623527e-2;

1410

unit_data(269).uncertainty = 0.000000056e-2;

1411

unit_data(269).units = "m^-1 T^-1";

1412

1413

unit_data(270).name = "proton Compton wavelength";

1414

unit_data(270).value = 1.32140985623e-15;

1415

unit_data(270).uncertainty = 0.00000000094e-15;

1416

unit_data(270).units = "m";

1417

1418

unit_data(271).name = "proton Compton wavelength over 2 pi";

1419

unit_data(271).value = 0.21030891047e-15;

1420

unit_data(271).uncertainty = 0.00000000015e-15;

1421

unit_data(271).units = "m";

1422

1423

unit_data(272).name = "proton charge to mass quotient";

1424

unit_data(272).value = 9.57883358e7;

1425

unit_data(272).uncertainty = 0.00000021e7;

1426

unit_data(272).units = "C kg^-1";

1427

1428

unit_data(273).name = "proton g factor";

1429

unit_data(273).value = 5.585694713;

1430

unit_data(273).uncertainty = 0.000000046;

1431

unit_data(273).units = "";

1432

1433

unit_data(274).name = "proton gyromag. ratio";

1434

unit_data(274).value = 2.675222005e8;

1435

unit_data(274).uncertainty = 0.000000063e8;

1436

unit_data(274).units = "s^-1 T^-1";

1437

1438

unit_data(275).name = "proton gyromag. ratio over 2 pi";

1439

unit_data(275).value = 42.5774806;

1440

unit_data(275).uncertainty = 0.0000010;

1441

unit_data(275).units = "MHz T^-1";

1442

1443

unit_data(276).name = "proton mag. mom.";

1444

unit_data(276).value = 1.410606743e-26;

1445

unit_data(276).uncertainty = 0.000000033e-26;

1446

unit_data(276).units = "J T^-1";

1447

1448

unit_data(277).name = "proton mag. mom. to Bohr magneton ratio";

1449

unit_data(277).value = 1.521032210e-3;

1450

unit_data(277).uncertainty = 0.000000012e-3;

1451

unit_data(277).units = "";

1452

1453

unit_data(278).name = "proton mag. mom. to nuclear magneton ratio";

1454

unit_data(278).value = 2.792847356;

1455

unit_data(278).uncertainty = 0.000000023;

1456

unit_data(278).units = "";

1457

1458

unit_data(279).name = "proton mag. shielding correction";

1459

unit_data(279).value = 25.694e-6;

1460

unit_data(279).uncertainty = 0.014e-6;

1461

unit_data(279).units = "";

1462

1463

unit_data(280).name = "proton mass";

1464

unit_data(280).value = 1.672621777e-27;

1465

unit_data(280).uncertainty = 0.000000074e-27;

1466

unit_data(280).units = "kg";

1467

1468

unit_data(281).name = "proton mass energy equivalent";

1469

unit_data(281).value = 1.503277484e-10;

1470

unit_data(281).uncertainty = 0.000000066e-10;

1471

unit_data(281).units = "J";

1472

1473

unit_data(282).name = "proton mass energy equivalent in MeV";

1474

unit_data(282).value = 938.272046;

1475

unit_data(282).uncertainty = 0.000021;

1476

unit_data(282).units = "MeV";

1477

1478

unit_data(283).name = "proton mass in u";

1479

unit_data(283).value = 1.007276466812;

1480

unit_data(283).uncertainty = 0.000000000090;

1481

unit_data(283).units = "u";

1482

1483

unit_data(284).name = "proton molar mass";

1484

unit_data(284).value = 1.007276466812e-3;

1485

unit_data(284).uncertainty = 0.000000000090e-3;

1486

unit_data(284).units = "kg mol^-1";

1487

1488

unit_data(285).name = "proton rms charge radius";

1489

unit_data(285).value = 0.8775e-15;

1490

unit_data(285).uncertainty = 0.0051e-15;

1491

unit_data(285).units = "m";

1492

1493

unit_data(286).name = "proton-electron mass ratio";

1494

unit_data(286).value = 1836.15267245;

1495

unit_data(286).uncertainty = 0.00000075;

1496

unit_data(286).units = "";

1497

1498

unit_data(287).name = "proton-muon mass ratio";

1499

unit_data(287).value = 8.88024331;

1500

unit_data(287).uncertainty = 0.00000022;

1501

unit_data(287).units = "";

1502

1503

unit_data(288).name = "proton-neutron mag. mom. ratio";

1504

unit_data(288).value = -1.45989806;

1505

unit_data(288).uncertainty = 0.00000034;

1506

unit_data(288).units = "";

1507

1508

unit_data(289).name = "proton-neutron mass ratio";

1509

unit_data(289).value = 0.99862347826;

1510

unit_data(289).uncertainty = 0.00000000045;

1511

unit_data(289).units = "";

1512

1513

unit_data(290).name = "proton-tau mass ratio";

1514

unit_data(290).value = 0.528063;

1515

unit_data(290).uncertainty = 0.000048;

1516

unit_data(290).units = "";

1517

1518

unit_data(291).name = "quantum of circulation";

1519

unit_data(291).value = 3.6369475520e-4;

1520

unit_data(291).uncertainty = 0.0000000024e-4;

1521

unit_data(291).units = "m^2 s^-1";

1522

1523

unit_data(292).name = "quantum of circulation times 2";

1524

unit_data(292).value = 7.2738951040e-4;

1525

unit_data(292).uncertainty = 0.0000000047e-4;

1526

unit_data(292).units = "m^2 s^-1";

1527

1528

unit_data(293).name = "second radiation constant";

1529

unit_data(293).value = 1.4387770e-2;

1530

unit_data(293).uncertainty = 0.0000013e-2;

1531

unit_data(293).units = "m K";

1532

1533

unit_data(294).name = "shielded helion gyromag. ratio";

1534

unit_data(294).value = 2.037894659e8;

1535

unit_data(294).uncertainty = 0.000000051e8;

1536

unit_data(294).units = "s^-1 T^-1";

1537

1538

unit_data(295).name = "shielded helion gyromag. ratio over 2 pi";

1539

unit_data(295).value = 32.43410084;

1540

unit_data(295).uncertainty = 0.00000081;

1541

unit_data(295).units = "MHz T^-1";

1542

1543

unit_data(296).name = "shielded helion mag. mom.";

1544

unit_data(296).value = -1.074553044e-26;

1545

unit_data(296).uncertainty = 0.000000027e-26;

1546

unit_data(296).units = "J T^-1";

1547

1548

unit_data(297).name = "shielded helion mag. mom. to Bohr magneton ratio";

1549

unit_data(297).value = -1.158671471e-3;

1550

unit_data(297).uncertainty = 0.000000014e-3;

1551

unit_data(297).units = "";

1552

1553

unit_data(298).name = "shielded helion mag. mom. to nuclear magneton ratio";

1554

unit_data(298).value = -2.127497718;

1555

unit_data(298).uncertainty = 0.000000025;

1556

unit_data(298).units = "";

1557

1558

unit_data(299).name = "shielded helion to proton mag. mom. ratio";

1559

unit_data(299).value = -0.761766558;

1560

unit_data(299).uncertainty = 0.000000011;

1561

unit_data(299).units = "";

1562

1563

unit_data(300).name = "shielded helion to shielded proton mag. mom. ratio";

1564

unit_data(300).value = -0.7617861313;

1565

unit_data(300).uncertainty = 0.0000000033;

1566

unit_data(300).units = "";

1567

1568

unit_data(301).name = "shielded proton gyromag. ratio";

1569

unit_data(301).value = 2.675153268e8;

1570

unit_data(301).uncertainty = 0.000000066e8;

1571

unit_data(301).units = "s^-1 T^-1";

1572

1573

unit_data(302).name = "shielded proton gyromag. ratio over 2 pi";

1574

unit_data(302).value = 42.5763866;

1575

unit_data(302).uncertainty = 0.0000010;

1576

unit_data(302).units = "MHz T^-1";

1577

1578

unit_data(303).name = "shielded proton mag. mom.";

1579

unit_data(303).value = 1.410570499e-26;

1580

unit_data(303).uncertainty = 0.000000035e-26;

1581

unit_data(303).units = "J T^-1";

1582

1583

unit_data(304).name = "shielded proton mag. mom. to Bohr magneton ratio";

1584

unit_data(304).value = 1.520993128e-3;

1585

unit_data(304).uncertainty = 0.000000017e-3;

1586

unit_data(304).units = "";

1587

1588

unit_data(305).name = "shielded proton mag. mom. to nuclear magneton ratio";

1589

unit_data(305).value = 2.792775598;

1590

unit_data(305).uncertainty = 0.000000030;

1591

unit_data(305).units = "";

1592

1593

unit_data(306).name = "speed of light in vacuum";

1594

unit_data(306).value = 299792458;

1595

unit_data(306).uncertainty = 0.0;

1596

unit_data(306).units = "m s^-1";

1597

1598

unit_data(307).name = "standard acceleration of gravity";

1599

unit_data(307).value = 9.80665;

1600

unit_data(307).uncertainty = 0.0;

1601

unit_data(307).units = "m s^-2";

1602

1603

unit_data(308).name = "standard atmosphere";

1604

unit_data(308).value = 101325;

1605

unit_data(308).uncertainty = 0.0;

1606

unit_data(308).units = "Pa";

1607

1608

unit_data(309).name = "standard-state pressure";

1609

unit_data(309).value = 100000;

1610

unit_data(309).uncertainty = 0.0;

1611

unit_data(309).units = "Pa";

1612

1613

unit_data(310).name = "tau Compton wavelength";

1614

unit_data(310).value = 0.697787e-15;

1615

unit_data(310).uncertainty = 0.000063e-15;

1616

unit_data(310).units = "m";

1617

1618

unit_data(311).name = "tau Compton wavelength over 2 pi";

1619

unit_data(311).value = 0.111056e-15;

1620

unit_data(311).uncertainty = 0.000010e-15;

1621

unit_data(311).units = "m";

1622

1623

unit_data(312).name = "tau mass";

1624

unit_data(312).value = 3.16747e-27;

1625

unit_data(312).uncertainty = 0.00029e-27;

1626

unit_data(312).units = "kg";

1627

1628

unit_data(313).name = "tau mass energy equivalent";

1629

unit_data(313).value = 2.84678e-10;

1630

unit_data(313).uncertainty = 0.00026e-10;

1631

unit_data(313).units = "J";

1632

1633

unit_data(314).name = "tau mass energy equivalent in MeV";

1634

unit_data(314).value = 1776.82;

1635

unit_data(314).uncertainty = 0.16;

1636

unit_data(314).units = "MeV";

1637

1638

unit_data(315).name = "tau mass in u";

1639

unit_data(315).value = 1.90749;

1640

unit_data(315).uncertainty = 0.00017;

1641

unit_data(315).units = "u";

1642

1643

unit_data(316).name = "tau molar mass";

1644

unit_data(316).value = 1.90749e-3;

1645

unit_data(316).uncertainty = 0.00017e-3;

1646

unit_data(316).units = "kg mol^-1";

1647

1648

unit_data(317).name = "tau-electron mass ratio";

1649

unit_data(317).value = 3477.15;

1650

unit_data(317).uncertainty = 0.31;

1651

unit_data(317).units = "";

1652

1653

unit_data(318).name = "tau-muon mass ratio";

1654

unit_data(318).value = 16.8167;

1655

unit_data(318).uncertainty = 0.0015;

1656

unit_data(318).units = "";

1657

1658

unit_data(319).name = "tau-neutron mass ratio";

1659

unit_data(319).value = 1.89111;

1660

unit_data(319).uncertainty = 0.00017;

1661

unit_data(319).units = "";

1662

1663

unit_data(320).name = "tau-proton mass ratio";

1664

unit_data(320).value = 1.89372;

1665

unit_data(320).uncertainty = 0.00017;

1666

unit_data(320).units = "";

1667

1668

unit_data(321).name = "triton g factor";

1669

unit_data(321).value = 5.957924896;

1670

unit_data(321).uncertainty = 0.000000076;

1671

unit_data(321).units = "";

1672

1673

unit_data(322).name = "triton mag. mom.";

1674

unit_data(322).value = 1.504609447e-26;

1675

unit_data(322).uncertainty = 0.000000038e-26;

1676

unit_data(322).units = "J T^-1";

1677

1678

unit_data(323).name = "triton mag. mom. to Bohr magneton ratio";

1679

unit_data(323).value = 1.622393657e-3;

1680

unit_data(323).uncertainty = 0.000000021e-3;

1681

unit_data(323).units = "";

1682

1683

unit_data(324).name = "triton mag. mom. to nuclear magneton ratio";

1684

unit_data(324).value = 2.978962448;

1685

unit_data(324).uncertainty = 0.000000038;

1686

unit_data(324).units = "";

1687

1688

unit_data(325).name = "triton mass";

1689

unit_data(325).value = 5.00735630e-27;

1690

unit_data(325).uncertainty = 0.00000022e-27;

1691

unit_data(325).units = "kg";

1692

1693

unit_data(326).name = "triton mass energy equivalent";

1694

unit_data(326).value = 4.50038741e-10;

1695

unit_data(326).uncertainty = 0.00000020e-10;

1696

unit_data(326).units = "J";

1697

1698

unit_data(327).name = "triton mass energy equivalent in MeV";

1699

unit_data(327).value = 2808.921005;

1700

unit_data(327).uncertainty = 0.000062;

1701

unit_data(327).units = "MeV";

1702

1703

unit_data(328).name = "triton mass in u";

1704

unit_data(328).value = 3.0155007134;

1705

unit_data(328).uncertainty = 0.0000000025;

1706

unit_data(328).units = "u";

1707

1708

unit_data(329).name = "triton molar mass";

1709

unit_data(329).value = 3.0155007134e-3;

1710

unit_data(329).uncertainty = 0.0000000025e-3;

1711

unit_data(329).units = "kg mol^-1";

1712

1713

unit_data(330).name = "triton-electron mass ratio";

1714

unit_data(330).value = 5496.9215267;

1715

unit_data(330).uncertainty = 0.0000050;

1716

unit_data(330).units = "";

1717

1718

unit_data(331).name = "triton-proton mass ratio";

1719

unit_data(331).value = 2.9937170308;

1720

unit_data(331).uncertainty = 0.0000000025;

1721

unit_data(331).units = "";

1722

1723

unit_data(332).name = "unified atomic mass unit";

1724

unit_data(332).value = 1.660538921e-27;

1725

unit_data(332).uncertainty = 0.000000073e-27;

1726

unit_data(332).units = "kg";

1727

1728

unit_data(333).name = "von Klitzing constant";

1729

unit_data(333).value = 25812.8074434;

1730

unit_data(333).uncertainty = 0.0000084;

1731

unit_data(333).units = "ohm";

1732

1733

unit_data(334).name = "weak mixing angle";

1734

unit_data(334).value = 0.2223;

1735

unit_data(334).uncertainty = 0.0021;

1736

unit_data(334).units = "";

1737

1738

unit_data(335).name = "{220} lattice spacing of silicon";

1739

unit_data(335).value = 192.0155714e-12;

1740

unit_data(335).uncertainty = 0.0000032e-12;

1741

unit_data(335).units = "m";

1742

1743

endfunction

1744

%!assert(physical_constant("Angstrom star"), 1.00001495e-10);

1745

%!assert(physical_constant("Avogadro constant"), 6.02214129e23);

1746

%!assert(physical_constant("Bohr magneton"), 927.400968e-26);

1747

%!assert(physical_constant("Bohr magneton in Hz/T"), 13.99624555e9);

1748

%!assert(physical_constant("Bohr magneton in K/T"), 0.67171388);

1749

%!assert(physical_constant("Bohr magneton in eV/T"), 5.7883818066e-5);

1750

%!assert(physical_constant("Bohr magneton in inverse meters per tesla"), 46.6864498);

1751

%!assert(physical_constant("Bohr radius"), 0.52917721092e-10);

1752

%!assert(physical_constant("Boltzmann constant"), 1.3806488e-23);

1753

%!assert(physical_constant("Boltzmann constant in Hz/K"), 2.0836618e10);

1754

%!assert(physical_constant("Boltzmann constant in eV/K"), 8.6173324e-5);

1755

%!assert(physical_constant("Boltzmann constant in inverse meters per kelvin"), 69.503476);

1756

%!assert(physical_constant("Compton wavelength"), 2.4263102389e-12);

1757

%!assert(physical_constant("Compton wavelength over 2 pi"), 386.15926800e-15);

1758

%!assert(physical_constant("Cu x unit"), 1.00207697e-13);

1759

%!assert(physical_constant("Faraday constant"), 96485.3365);

1760

%!assert(physical_constant("Faraday constant for conventional electric current"), 96485.3321);

1761

%!assert(physical_constant("Fermi coupling constant"), 1.166364e-5);

1762

%!assert(physical_constant("Hartree energy"), 4.35974434e-18);

1763

%!assert(physical_constant("Hartree energy in eV"), 27.21138505);

1764

%!assert(physical_constant("Josephson constant"), 483597.870e9);

1765

%!assert(physical_constant("Loschmidt constant (273.15 K, 100 kPa)"), 2.6516462e25);

1766

%!assert(physical_constant("Loschmidt constant (273.15 K, 101.325 kPa)"), 2.6867805e25);

1767

%!assert(physical_constant("Mo x unit"), 1.00209952e-13);

1768

%!assert(physical_constant("Newtonian constant of gravitation"), 6.67384e-11);

1769

%!assert(physical_constant("Newtonian constant of gravitation over h-bar c"), 6.70837e-39);

1770

%!assert(physical_constant("Planck constant"), 6.62606957e-34);

1771

%!assert(physical_constant("Planck constant in eV s"), 4.135667516e-15);

1772

%!assert(physical_constant("Planck constant over 2 pi"), 1.054571726e-34);

1773

%!assert(physical_constant("Planck constant over 2 pi in eV s"), 6.58211928e-16);

1774

%!assert(physical_constant("Planck constant over 2 pi times c in MeV fm"), 197.3269718);

1775

%!assert(physical_constant("Planck length"), 1.616199e-35);

1776

%!assert(physical_constant("Planck mass"), 2.17651e-8);

1777

%!assert(physical_constant("Planck mass energy equivalent in GeV"), 1.220932e19);

1778

%!assert(physical_constant("Planck temperature"), 1.416833e32);

1779

%!assert(physical_constant("Planck time"), 5.39106e-44);

1780

%!assert(physical_constant("Rydberg constant"), 10973731.568539);

1781

%!assert(physical_constant("Rydberg constant times c in Hz"), 3.289841960364e15);

1782

%!assert(physical_constant("Rydberg constant times hc in J"), 2.179872171e-18);

1783

%!assert(physical_constant("Rydberg constant times hc in eV"), 13.60569253);

1784

%!assert(physical_constant("Sackur-Tetrode constant (1 K, 100 kPa)"), -1.1517078);

1785

%!assert(physical_constant("Sackur-Tetrode constant (1 K, 101.325 kPa)"), -1.1648708);

1786

%!assert(physical_constant("Stefan-Boltzmann constant"), 5.670373e-8);

1787

%!assert(physical_constant("Thomson cross section"), 0.6652458734e-28);

1788

%!assert(physical_constant("Wien frequency displacement law constant"), 5.8789254e10);

1789

%!assert(physical_constant("Wien wavelength displacement law constant"), 2.8977721e-3);

1790

%!assert(physical_constant("alpha particle mass"), 6.64465675e-27);

1791

%!assert(physical_constant("alpha particle mass energy equivalent"), 5.97191967e-10);

1792

%!assert(physical_constant("alpha particle mass energy equivalent in MeV"), 3727.379240);

1793

%!assert(physical_constant("alpha particle mass in u"), 4.001506179125);

1794

%!assert(physical_constant("alpha particle molar mass"), 4.001506179125e-3);

1795

%!assert(physical_constant("alpha particle-electron mass ratio"), 7294.2995361);

1796

%!assert(physical_constant("alpha particle-proton mass ratio"), 3.97259968933);

1797

%!assert(physical_constant("atomic mass constant"), 1.660538921e-27);

1798

%!assert(physical_constant("atomic mass constant energy equivalent"), 1.492417954e-10);

1799

%!assert(physical_constant("atomic mass constant energy equivalent in MeV"), 931.494061);

1800

%!assert(physical_constant("atomic mass unit-electron volt relationship"), 931.494061e6);

1801

%!assert(physical_constant("atomic mass unit-hartree relationship"), 3.4231776845e7);

1802

%!assert(physical_constant("atomic mass unit-hertz relationship"), 2.2523427168e23);

1803

%!assert(physical_constant("atomic mass unit-inverse meter relationship"), 7.5130066042e14);

1804

%!assert(physical_constant("atomic mass unit-joule relationship"), 1.492417954e-10);

1805

%!assert(physical_constant("atomic mass unit-kelvin relationship"), 1.08095408e13);

1806

%!assert(physical_constant("atomic mass unit-kilogram relationship"), 1.660538921e-27);

1807

%!assert(physical_constant("atomic unit of 1st hyperpolarizability"), 3.206361449e-53);

1808

%!assert(physical_constant("atomic unit of 2nd hyperpolarizability"), 6.23538054e-65);

1809

%!assert(physical_constant("atomic unit of action"), 1.054571726e-34);

1810

%!assert(physical_constant("atomic unit of charge"), 1.602176565e-19);

1811

%!assert(physical_constant("atomic unit of charge density"), 1.081202338e12);

1812

%!assert(physical_constant("atomic unit of current"), 6.62361795e-3);

1813

%!assert(physical_constant("atomic unit of electric dipole mom."), 8.47835326e-30);

1814

%!assert(physical_constant("atomic unit of electric field"), 5.14220652e11);

1815

%!assert(physical_constant("atomic unit of electric field gradient"), 9.71736200e21);

1816

%!assert(physical_constant("atomic unit of electric polarizability"), 1.6487772754e-41);

1817

%!assert(physical_constant("atomic unit of electric potential"), 27.21138505);

1818

%!assert(physical_constant("atomic unit of electric quadrupole mom."), 4.486551331e-40);

1819

%!assert(physical_constant("atomic unit of energy"), 4.35974434e-18);

1820

%!assert(physical_constant("atomic unit of force"), 8.23872278e-8);

1821

%!assert(physical_constant("atomic unit of length"), 0.52917721092e-10);

1822

%!assert(physical_constant("atomic unit of mag. dipole mom."), 1.854801936e-23);

1823

%!assert(physical_constant("atomic unit of mag. flux density"), 2.350517464e5);

1824

%!assert(physical_constant("atomic unit of magnetizability"), 7.891036607e-29);

1825

%!assert(physical_constant("atomic unit of mass"), 9.10938291e-31);

1826

%!assert(physical_constant("atomic unit of mom.um"), 1.992851740e-24);

1827

%!assert(physical_constant("atomic unit of permittivity"), 1.112650056e-10);

1828

%!assert(physical_constant("atomic unit of time"), 2.418884326502e-17);

1829

%!assert(physical_constant("atomic unit of velocity"), 2.18769126379e6);

1830

%!assert(physical_constant("characteristic impedance of vacuum"), 376.730313461);

1831

%!assert(physical_constant("classical electron radius"), 2.8179403267e-15);

1832

%!assert(physical_constant("conductance quantum"), 7.7480917346e-5);

1833

%!assert(physical_constant("conventional value of Josephson constant"), 483597.9e9);

1834

%!assert(physical_constant("conventional value of von Klitzing constant"), 25812.807);

1835

%!assert(physical_constant("deuteron g factor"), 0.8574382308);

1836

%!assert(physical_constant("deuteron mag. mom."), 0.433073489e-26);

1837

%!assert(physical_constant("deuteron mag. mom. to Bohr magneton ratio"), 0.4669754556e-3);

1838

%!assert(physical_constant("deuteron mag. mom. to nuclear magneton ratio"), 0.8574382308);

1839

%!assert(physical_constant("deuteron mass"), 3.34358348e-27);

1840

%!assert(physical_constant("deuteron mass energy equivalent"), 3.00506297e-10);

1841

%!assert(physical_constant("deuteron mass energy equivalent in MeV"), 1875.612859);

1842

%!assert(physical_constant("deuteron mass in u"), 2.013553212712);

1843

%!assert(physical_constant("deuteron molar mass"), 2.013553212712e-3);

1844

%!assert(physical_constant("deuteron rms charge radius"), 2.1424e-15);

1845

%!assert(physical_constant("deuteron-electron mag. mom. ratio"), -4.664345537e-4);

1846

%!assert(physical_constant("deuteron-electron mass ratio"), 3670.4829652);

1847

%!assert(physical_constant("deuteron-neutron mag. mom. ratio"), -0.44820652);

1848

%!assert(physical_constant("deuteron-proton mag. mom. ratio"), 0.3070122070);

1849

%!assert(physical_constant("deuteron-proton mass ratio"), 1.99900750097);

1850

%!assert(physical_constant("electric constant"), 8.854187817e-12);

1851

%!assert(physical_constant("electron charge to mass quotient"), -1.758820088e11);

1852

%!assert(physical_constant("electron g factor"), -2.00231930436153);

1853

%!assert(physical_constant("electron gyromag. ratio"), 1.760859708e11);

1854

%!assert(physical_constant("electron gyromag. ratio over 2 pi"), 28024.95266);

1855

%!assert(physical_constant("electron mag. mom."), -928.476430e-26);

1856

%!assert(physical_constant("electron mag. mom. anomaly"), 1.15965218076e-3);

1857

%!assert(physical_constant("electron mag. mom. to Bohr magneton ratio"), -1.00115965218076);

1858

%!assert(physical_constant("electron mag. mom. to nuclear magneton ratio"), -1838.28197090);

1859

%!assert(physical_constant("electron mass"), 9.10938291e-31);

1860

%!assert(physical_constant("electron mass energy equivalent"), 8.18710506e-14);

1861

%!assert(physical_constant("electron mass energy equivalent in MeV"), 0.510998928);

1862

%!assert(physical_constant("electron mass in u"), 5.4857990946e-4);

1863

%!assert(physical_constant("electron molar mass"), 5.4857990946e-7);

1864

%!assert(physical_constant("electron to alpha particle mass ratio"), 1.37093355578e-4);

1865

%!assert(physical_constant("electron to shielded helion mag. mom. ratio"), 864.058257);

1866

%!assert(physical_constant("electron to shielded proton mag. mom. ratio"), -658.2275971);

1867

%!assert(physical_constant("electron volt"), 1.602176565e-19);

1868

%!assert(physical_constant("electron volt-atomic mass unit relationship"), 1.073544150e-9);

1869

%!assert(physical_constant("electron volt-hartree relationship"), 3.674932379e-2);

1870

%!assert(physical_constant("electron volt-hertz relationship"), 2.417989348e14);

1871

%!assert(physical_constant("electron volt-inverse meter relationship"), 8.06554429e5);

1872

%!assert(physical_constant("electron volt-joule relationship"), 1.602176565e-19);

1873

%!assert(physical_constant("electron volt-kelvin relationship"), 1.1604519e4);

1874

%!assert(physical_constant("electron volt-kilogram relationship"), 1.782661845e-36);

1875

%!assert(physical_constant("electron-deuteron mag. mom. ratio"), -2143.923498);

1876

%!assert(physical_constant("electron-deuteron mass ratio"), 2.7244371095e-4);

1877

%!assert(physical_constant("electron-helion mass ratio"), 1.8195430761e-4);

1878

%!assert(physical_constant("electron-muon mag. mom. ratio"), 206.7669896);

1879

%!assert(physical_constant("electron-muon mass ratio"), 4.83633166e-3);

1880

%!assert(physical_constant("electron-neutron mag. mom. ratio"), 960.92050);

1881

%!assert(physical_constant("electron-neutron mass ratio"), 5.4386734461e-4);

1882

%!assert(physical_constant("electron-proton mag. mom. ratio"), -658.2106848);

1883

%!assert(physical_constant("electron-proton mass ratio"), 5.4461702178e-4);

1884

%!assert(physical_constant("electron-tau mass ratio"), 2.87592e-4);

1885

%!assert(physical_constant("electron-triton mass ratio"), 1.8192000653e-4);

1886

%!assert(physical_constant("elementary charge"), 1.602176565e-19);

1887

%!assert(physical_constant("elementary charge over h"), 2.417989348e14);

1888

%!assert(physical_constant("fine-structure constant"), 7.2973525698e-3);

1889

%!assert(physical_constant("first radiation constant"), 3.74177153e-16);

1890

%!assert(physical_constant("first radiation constant for spectral radiance"), 1.191042869e-16);

1891

%!assert(physical_constant("hartree-atomic mass unit relationship"), 2.9212623246e-8);

1892

%!assert(physical_constant("hartree-electron volt relationship"), 27.21138505);

1893

%!assert(physical_constant("hartree-hertz relationship"), 6.579683920729e15);

1894

%!assert(physical_constant("hartree-inverse meter relationship"), 2.194746313708e7);

1895

%!assert(physical_constant("hartree-joule relationship"), 4.35974434e-18);

1896

%!assert(physical_constant("hartree-kelvin relationship"), 3.1577504e5);

1897

%!assert(physical_constant("hartree-kilogram relationship"), 4.85086979e-35);

1898

%!assert(physical_constant("helion g factor"), -4.255250613);

1899

%!assert(physical_constant("helion mag. mom."), -1.074617486e-26);

1900

%!assert(physical_constant("helion mag. mom. to Bohr magneton ratio"), -1.158740958e-3);

1901

%!assert(physical_constant("helion mag. mom. to nuclear magneton ratio"), -2.127625306);

1902

%!assert(physical_constant("helion mass"), 5.00641234e-27);

1903

%!assert(physical_constant("helion mass energy equivalent"), 4.49953902e-10);

1904

%!assert(physical_constant("helion mass energy equivalent in MeV"), 2808.391482);

1905

%!assert(physical_constant("helion mass in u"), 3.0149322468);

1906

%!assert(physical_constant("helion molar mass"), 3.0149322468e-3);

1907

%!assert(physical_constant("helion-electron mass ratio"), 5495.8852754);

1908

%!assert(physical_constant("helion-proton mass ratio"), 2.9931526707);

1909

%!assert(physical_constant("hertz-atomic mass unit relationship"), 4.4398216689e-24);

1910

%!assert(physical_constant("hertz-electron volt relationship"), 4.135667516e-15);

1911

%!assert(physical_constant("hertz-hartree relationship"), 1.5198298460045e-16);

1912

%!assert(physical_constant("hertz-inverse meter relationship"), 3.335640951e-9);

1913

%!assert(physical_constant("hertz-joule relationship"), 6.62606957e-34);

1914

%!assert(physical_constant("hertz-kelvin relationship"), 4.7992434e-11);

1915

%!assert(physical_constant("hertz-kilogram relationship"), 7.37249668e-51);

1916

%!assert(physical_constant("inverse fine-structure constant"), 137.035999074);

1917

%!assert(physical_constant("inverse meter-atomic mass unit relationship"), 1.33102505120e-15);

1918

%!assert(physical_constant("inverse meter-electron volt relationship"), 1.239841930e-6);

1919

%!assert(physical_constant("inverse meter-hartree relationship"), 4.556335252755e-8);

1920

%!assert(physical_constant("inverse meter-hertz relationship"), 299792458);

1921

%!assert(physical_constant("inverse meter-joule relationship"), 1.986445684e-25);

1922

%!assert(physical_constant("inverse meter-kelvin relationship"), 1.4387770e-2);

1923

%!assert(physical_constant("inverse meter-kilogram relationship"), 2.210218902e-42);

1924

%!assert(physical_constant("inverse of conductance quantum"), 12906.4037217);

1925

%!assert(physical_constant("joule-atomic mass unit relationship"), 6.70053585e9);

1926

%!assert(physical_constant("joule-electron volt relationship"), 6.24150934e18);

1927

%!assert(physical_constant("joule-hartree relationship"), 2.29371248e17);

1928

%!assert(physical_constant("joule-hertz relationship"), 1.509190311e33);

1929

%!assert(physical_constant("joule-inverse meter relationship"), 5.03411701e24);

1930

%!assert(physical_constant("joule-kelvin relationship"), 7.2429716e22);

1931

%!assert(physical_constant("joule-kilogram relationship"), 1.112650056e-17);

1932

%!assert(physical_constant("kelvin-atomic mass unit relationship"), 9.2510868e-14);

1933

%!assert(physical_constant("kelvin-electron volt relationship"), 8.6173324e-5);

1934

%!assert(physical_constant("kelvin-hartree relationship"), 3.1668114e-6);

1935

%!assert(physical_constant("kelvin-hertz relationship"), 2.0836618e10);

1936

%!assert(physical_constant("kelvin-inverse meter relationship"), 69.503476);

1937

%!assert(physical_constant("kelvin-joule relationship"), 1.3806488e-23);

1938

%!assert(physical_constant("kelvin-kilogram relationship"), 1.5361790e-40);

1939

%!assert(physical_constant("kilogram-atomic mass unit relationship"), 6.02214129e26);

1940

%!assert(physical_constant("kilogram-electron volt relationship"), 5.60958885e35);

1941

%!assert(physical_constant("kilogram-hartree relationship"), 2.061485968e34);

1942

%!assert(physical_constant("kilogram-hertz relationship"), 1.356392608e50);

1943

%!assert(physical_constant("kilogram-inverse meter relationship"), 4.52443873e41);

1944

%!assert(physical_constant("kilogram-joule relationship"), 8.987551787e16);

1945

%!assert(physical_constant("kilogram-kelvin relationship"), 6.5096582e39);

1946

%!assert(physical_constant("lattice parameter of silicon"), 543.1020504e-12);

1947

%!assert(physical_constant("mag. constant"), 12.566370614e-7);

1948

%!assert(physical_constant("mag. flux quantum"), 2.067833758e-15);

1949

%!assert(physical_constant("molar Planck constant"), 3.9903127176e-10);

1950

%!assert(physical_constant("molar Planck constant times c"), 0.119626565779);

1951

%!assert(physical_constant("molar gas constant"), 8.3144621);

1952

%!assert(physical_constant("molar mass constant"), 1e-3);

1953

%!assert(physical_constant("molar mass of carbon-12"), 12e-3);

1954

%!assert(physical_constant("molar volume of ideal gas (273.15 K, 100 kPa)"), 22.710953e-3);

1955

%!assert(physical_constant("molar volume of ideal gas (273.15 K, 101.325 kPa)"), 22.413968e-3);

1956

%!assert(physical_constant("molar volume of silicon"), 12.05883301e-6);

1957

%!assert(physical_constant("muon Compton wavelength"), 11.73444103e-15);

1958

%!assert(physical_constant("muon Compton wavelength over 2 pi"), 1.867594294e-15);

1959

%!assert(physical_constant("muon g factor"), -2.0023318418);

1960

%!assert(physical_constant("muon mag. mom."), -4.49044807e-26);

1961

%!assert(physical_constant("muon mag. mom. anomaly"), 1.16592091e-3);

1962

%!assert(physical_constant("muon mag. mom. to Bohr magneton ratio"), -4.84197044e-3);

1963

%!assert(physical_constant("muon mag. mom. to nuclear magneton ratio"), -8.89059697);

1964

%!assert(physical_constant("muon mass"), 1.883531475e-28);

1965

%!assert(physical_constant("muon mass energy equivalent"), 1.692833667e-11);

1966

%!assert(physical_constant("muon mass energy equivalent in MeV"), 105.6583715);

1967

%!assert(physical_constant("muon mass in u"), 0.1134289267);

1968

%!assert(physical_constant("muon molar mass"), 0.1134289267e-3);

1969

%!assert(physical_constant("muon-electron mass ratio"), 206.7682843);

1970

%!assert(physical_constant("muon-neutron mass ratio"), 0.1124545177);

1971

%!assert(physical_constant("muon-proton mag. mom. ratio"), -3.183345107);

1972

%!assert(physical_constant("muon-proton mass ratio"), 0.1126095272);

1973

%!assert(physical_constant("muon-tau mass ratio"), 5.94649e-2);

1974

%!assert(physical_constant("natural unit of action"), 1.054571726e-34);

1975

%!assert(physical_constant("natural unit of action in eV s"), 6.58211928e-16);

1976

%!assert(physical_constant("natural unit of energy"), 8.18710506e-14);

1977

%!assert(physical_constant("natural unit of energy in MeV"), 0.510998928);

1978

%!assert(physical_constant("natural unit of length"), 386.15926800e-15);

1979

%!assert(physical_constant("natural unit of mass"), 9.10938291e-31);

1980

%!assert(physical_constant("natural unit of mom.um"), 2.73092429e-22);

1981

%!assert(physical_constant("natural unit of mom.um in MeV/c"), 0.510998928);

1982

%!assert(physical_constant("natural unit of time"), 1.28808866833e-21);

1983

%!assert(physical_constant("natural unit of velocity"), 299792458);

1984

%!assert(physical_constant("neutron Compton wavelength"), 1.3195909068e-15);

1985

%!assert(physical_constant("neutron Compton wavelength over 2 pi"), 0.21001941568e-15);

1986

%!assert(physical_constant("neutron g factor"), -3.82608545);

1987

%!assert(physical_constant("neutron gyromag. ratio"), 1.83247179e8);

1988

%!assert(physical_constant("neutron gyromag. ratio over 2 pi"), 29.1646943);

1989

%!assert(physical_constant("neutron mag. mom."), -0.96623647e-26);

1990

%!assert(physical_constant("neutron mag. mom. to Bohr magneton ratio"), -1.04187563e-3);

1991

%!assert(physical_constant("neutron mag. mom. to nuclear magneton ratio"), -1.91304272);

1992

%!assert(physical_constant("neutron mass"), 1.674927351e-27);

1993

%!assert(physical_constant("neutron mass energy equivalent"), 1.505349631e-10);

1994

%!assert(physical_constant("neutron mass energy equivalent in MeV"), 939.565379);

1995

%!assert(physical_constant("neutron mass in u"), 1.00866491600);

1996

%!assert(physical_constant("neutron molar mass"), 1.00866491600e-3);

1997

%!assert(physical_constant("neutron to shielded proton mag. mom. ratio"), -0.68499694);

1998

%!assert(physical_constant("neutron-electron mag. mom. ratio"), 1.04066882e-3);

1999

%!assert(physical_constant("neutron-electron mass ratio"), 1838.6836605);

2000

%!assert(physical_constant("neutron-muon mass ratio"), 8.89248400);

2001

%!assert(physical_constant("neutron-proton mag. mom. ratio"), -0.68497934);

2002

%!assert(physical_constant("neutron-proton mass difference"), 2.30557392e-30);

2003

%!assert(physical_constant("neutron-proton mass difference energy equivalent"), 2.07214650e-13);

2004

%!assert(physical_constant("neutron-proton mass difference energy equivalent in MeV"), 1.29333217);

2005

%!assert(physical_constant("neutron-proton mass difference in u"), 0.00138844919);

2006

%!assert(physical_constant("neutron-proton mass ratio"), 1.00137841917);

2007

%!assert(physical_constant("neutron-tau mass ratio"), 0.528790);

2008

%!assert(physical_constant("nuclear magneton"), 5.05078353e-27);

2009

%!assert(physical_constant("nuclear magneton in K/T"), 3.6582682e-4);

2010

%!assert(physical_constant("nuclear magneton in MHz/T"), 7.62259357);

2011

%!assert(physical_constant("nuclear magneton in eV/T"), 3.1524512605e-8);

2012

%!assert(physical_constant("nuclear magneton in inverse meters per tesla"), 2.542623527e-2);

2013

%!assert(physical_constant("proton Compton wavelength"), 1.32140985623e-15);

2014

%!assert(physical_constant("proton Compton wavelength over 2 pi"), 0.21030891047e-15);

2015

%!assert(physical_constant("proton charge to mass quotient"), 9.57883358e7);

2016

%!assert(physical_constant("proton g factor"), 5.585694713);

2017

%!assert(physical_constant("proton gyromag. ratio"), 2.675222005e8);

2018

%!assert(physical_constant("proton gyromag. ratio over 2 pi"), 42.5774806);

2019

%!assert(physical_constant("proton mag. mom."), 1.410606743e-26);

2020

%!assert(physical_constant("proton mag. mom. to Bohr magneton ratio"), 1.521032210e-3);

2021

%!assert(physical_constant("proton mag. mom. to nuclear magneton ratio"), 2.792847356);

2022

%!assert(physical_constant("proton mag. shielding correction"), 25.694e-6);

2023

%!assert(physical_constant("proton mass"), 1.672621777e-27);

2024

%!assert(physical_constant("proton mass energy equivalent"), 1.503277484e-10);

2025

%!assert(physical_constant("proton mass energy equivalent in MeV"), 938.272046);

2026

%!assert(physical_constant("proton mass in u"), 1.007276466812);

2027

%!assert(physical_constant("proton molar mass"), 1.007276466812e-3);

2028

%!assert(physical_constant("proton rms charge radius"), 0.8775e-15);

2029

%!assert(physical_constant("proton-electron mass ratio"), 1836.15267245);

2030

%!assert(physical_constant("proton-muon mass ratio"), 8.88024331);

2031

%!assert(physical_constant("proton-neutron mag. mom. ratio"), -1.45989806);

2032

%!assert(physical_constant("proton-neutron mass ratio"), 0.99862347826);

2033

%!assert(physical_constant("proton-tau mass ratio"), 0.528063);

2034

%!assert(physical_constant("quantum of circulation"), 3.6369475520e-4);

2035

%!assert(physical_constant("quantum of circulation times 2"), 7.2738951040e-4);

2036

%!assert(physical_constant("second radiation constant"), 1.4387770e-2);

2037

%!assert(physical_constant("shielded helion gyromag. ratio"), 2.037894659e8);

2038

%!assert(physical_constant("shielded helion gyromag. ratio over 2 pi"), 32.43410084);

2039

%!assert(physical_constant("shielded helion mag. mom."), -1.074553044e-26);

2040

%!assert(physical_constant("shielded helion mag. mom. to Bohr magneton ratio"), -1.158671471e-3);

2041

%!assert(physical_constant("shielded helion mag. mom. to nuclear magneton ratio"), -2.127497718);

2042

%!assert(physical_constant("shielded helion to proton mag. mom. ratio"), -0.761766558);

2043

%!assert(physical_constant("shielded helion to shielded proton mag. mom. ratio"), -0.7617861313);

2044

%!assert(physical_constant("shielded proton gyromag. ratio"), 2.675153268e8);

2045

%!assert(physical_constant("shielded proton gyromag. ratio over 2 pi"), 42.5763866);

2046

%!assert(physical_constant("shielded proton mag. mom."), 1.410570499e-26);

2047

%!assert(physical_constant("shielded proton mag. mom. to Bohr magneton ratio"), 1.520993128e-3);

2048

%!assert(physical_constant("shielded proton mag. mom. to nuclear magneton ratio"), 2.792775598);

2049

%!assert(physical_constant("speed of light in vacuum"), 299792458);

2050

%!assert(physical_constant("standard acceleration of gravity"), 9.80665);

2051

%!assert(physical_constant("standard atmosphere"), 101325);

2052

%!assert(physical_constant("standard-state pressure"), 100000);

2053

%!assert(physical_constant("tau Compton wavelength"), 0.697787e-15);

2054

%!assert(physical_constant("tau Compton wavelength over 2 pi"), 0.111056e-15);

2055

%!assert(physical_constant("tau mass"), 3.16747e-27);

2056

%!assert(physical_constant("tau mass energy equivalent"), 2.84678e-10);

2057

%!assert(physical_constant("tau mass energy equivalent in MeV"), 1776.82);

2058

%!assert(physical_constant("tau mass in u"), 1.90749);

2059

%!assert(physical_constant("tau molar mass"), 1.90749e-3);

2060

%!assert(physical_constant("tau-electron mass ratio"), 3477.15);

2061

%!assert(physical_constant("tau-muon mass ratio"), 16.8167);

2062

%!assert(physical_constant("tau-neutron mass ratio"), 1.89111);

2063

%!assert(physical_constant("tau-proton mass ratio"), 1.89372);

2064

%!assert(physical_constant("triton g factor"), 5.957924896);

2065

%!assert(physical_constant("triton mag. mom."), 1.504609447e-26);

2066

%!assert(physical_constant("triton mag. mom. to Bohr magneton ratio"), 1.622393657e-3);

2067

%!assert(physical_constant("triton mag. mom. to nuclear magneton ratio"), 2.978962448);

2068

%!assert(physical_constant("triton mass"), 5.00735630e-27);

2069

%!assert(physical_constant("triton mass energy equivalent"), 4.50038741e-10);

2070

%!assert(physical_constant("triton mass energy equivalent in MeV"), 2808.921005);

2071

%!assert(physical_constant("triton mass in u"), 3.0155007134);

2072

%!assert(physical_constant("triton molar mass"), 3.0155007134e-3);

2073

%!assert(physical_constant("triton-electron mass ratio"), 5496.9215267);

2074

%!assert(physical_constant("triton-proton mass ratio"), 2.9937170308);

2075

%!assert(physical_constant("unified atomic mass unit"), 1.660538921e-27);

2076

%!assert(physical_constant("von Klitzing constant"), 25812.8074434);

2077

%!assert(physical_constant("weak mixing angle"), 0.2223);

2078

%!assert(physical_constant("{220} lattice spacing of silicon"), 192.0155714e-12);