00001 00005 /* Copyright (C) 2002 - 2010, Bernd Speiser */ 00006 00007 /* This file is part of PhysicalQuantities. 00008 00009 PhysicalQuantities is free software; you can redistribute it and/or 00010 modify it under the terms of the GNU General Public License 00011 as published by the Free Software Foundation; either version 2 00012 of the License, or (at your option) any later version. 00013 00014 PhysicalQuantities is distributed in the hope that it will be useful, 00015 but WITHOUT ANY WARRANTY; without even the implied warranty of 00016 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPoSE. See the 00017 GNU General Public License for more details. 00018 00019 You should have received a copy of the GNU General Public License 00020 along with this program; if not, write to the Free Software 00021 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 00022 02111-1307, USA. 00023 */ 00024 00025 #ifndef _ElectricPotential_cc 00026 #define _ElectricPotential_cc 00027 00028 // Quantity includes 00029 #include "Quantities/PhysicalQuantities/ElectricPotential.h" 00030 00031 namespace quantity { 00032 namespace electricPotential { 00033 00034 /* definition of ElectricPotential units */ 00035 /* the Volt and prefixed Volts */ 00036 00037 template<> const std::string Volts::Basename = "Volt"; 00038 template<> const std::string Volts::Basesymbol = "V"; 00039 template<> const bool Volts::SI = true; 00040 template<> const bool Volts::Exact = true; 00041 template<> const double Volts::StandardFactor = 1.0; 00042 00043 /* the Gau */ 00044 00045 template<> const std::string Gau::Namestring = "Gau"; 00046 template<> const std::string Gau::Symbolstring = "erg/Fr"; 00047 template<> const bool Gau::SI = false; 00048 template<> const bool Gau::Exact = true; 00049 template<> const double Gau::StandardFactor = 299.792458; 00050 00051 /* the mean international Volt */ 00052 00053 template<> const std::string MeanInternationalVolt::Namestring 00054 = "MeanInternationalVolt"; 00055 template<> const std::string MeanInternationalVolt::Symbolstring = ""; 00056 template<> const bool MeanInternationalVolt::SI = false; 00057 template<> const bool MeanInternationalVolt::Exact = true; 00058 template<> const double MeanInternationalVolt::StandardFactor = 1.00034; 00059 00060 /* the US international Volt */ 00061 00062 template<> const std::string USInternationalVolt::Namestring 00063 = "USInternationalVolt"; 00064 template<> const std::string USInternationalVolt::Symbolstring = ""; 00065 template<> const bool USInternationalVolt::SI = false; 00066 template<> const bool USInternationalVolt::Exact = true; 00067 template<> const double USInternationalVolt::StandardFactor = 1.00033; 00068 00069 /* the atomic unit of electric potential */ 00070 00071 template<> const std::string Atomic::Namestring = "Atomic"; 00072 template<> const std::string Atomic::Symbolstring = "e/4pi epsilon0 a0"; 00073 template<> const bool Atomic::SI = false; 00074 template<> const bool Atomic::Exact = false; 00075 template<> const double Atomic::StandardFactor = 27.2114; 00076 00077 } 00078 00079 const std::string QuantityTraits<electricPotential::Class>::NameString (void) 00080 {return "electric potential";} 00081 const std::string QuantityTraits<electricPotential::Class>::SymbolString (void) 00082 {return "E";} 00083 00084 } 00085 00086 #endif /* _ElectricPotential_cc */
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