Neutron Emission

Functions
template<typename T >
T	EGXPhys::QValueNeutronEmissionInMeV (const T massParentInu, const T massDaughterInu)
	Calculates the Q-value, \(Q\), of a neutron emission nuclear reaction in megaelectron volts. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic. More...
template<typename T >
T	EGXPhys::QValueNeutronEmissionInJ (const T massParentInu, const T massDaughterInu)
	Calculates the Q-value, \(Q\), of a neutron emission nuclear reaction in joules. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic. More...
template<typename T >
T	EGXPhys::QValueDoubleNeutronEmissionInMeV (const T massParentInu, const T massDaughterInu)
	Calculates the Q-value, \(Q\), of a double neutron emission nuclear reaction in megaelectron volts. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic. More...
template<typename T >
T	EGXPhys::QValueDoubleNeutronEmissionInJ (const T massParentInu, const T massDaughterInu)
	Calculates the Q-value, \(Q\), of a double neutron emission nuclear reaction in joules. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic. More...

Detailed Description

Function Documentation

QValueDoubleNeutronEmissionInJ()

template<typename T >

T EGXPhys::QValueDoubleNeutronEmissionInJ	(	const T	massParentInu,
		const T	massDaughterInu
	)

Calculates the Q-value, \(Q\), of a double neutron emission nuclear reaction in joules. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic.

The Q-value, \(Q\), is the energy released during a nuclear reaction. The Q-value can be positive, negative or zero. For \(Q < 0\) the reaction is endothermic/endoergic resulting in the kinetic energy of the reaction being converted into mass or binding energy. For \(Q > 0\) the reaction is exothermic/exoergic resulting in the mass or binding energy being released as kinetic energy.

To calculate the Q-value it is the initial mass of the parent atom, \(m(\ce{ ^{A}_{Z}X_{N} })\), minus the final mass of the daughter atom, \(m(\ce{ ^{A-2}_{Z}X_{N -2} })\), as well as the mass of two neutron \(m(\ce{ ^{1}_{0}n_{1} })\):

\[Q = \left ( m(\ce{ ^{A}_{Z}X_{N} })-m(\ce{ ^{A-2}_{Z}X_{N -2} })-2m(\ce{ ^{1}_{0}n_{1} }) \right) c^2\]

See http://www.nndc.bnl.gov/qcalc/ and http://www.nuclear-power.net/nuclear-power/nuclear-reactions/q-value-energetics-nuclear-reactions/ and https://en.wikipedia.org/wiki/Neutron_emission

Equation taken from "Introductory Nuclear Physics" (Krane, 1987), p. 62 & p. 381

Parameters

massParentInu	\(m(\ce{ ^{A}_{Z}X_{N} })\ (u)\) Mass of parrent nucleus in unified atomic mass units.
massDaughterInu	\(m(\ce{ ^{A-2}_{Z}X_{N -2} })\ (u)\) Mass of daughter nucleus in unified atomic mass units.

Returns

\(Q\ (J)\) Q-value. The energy in joules produced by a nuclear reaction.

See also

MassDefect() to calculate the mass defect of an atom.

NuclearBindingEnergy() to calculate binding energy, \(BE\), of an atom.

QValueAlphaDecayInJ() to calculate Q-Value for an alpha decay reaction in joules.

QValueBetaMinusDecayInJ() to calculate Q-Value for a beta minus decay reaction in joules.

QValueBetaPlusDecayInJ() to calculate Q-Value for a beta plus decay reaction decay in joules.

QValueElectronCaptureInJ() to calculate Q-Value for a electron capture reaction in joules.

QValueProtonEmissionInJ() to calculate Q-Value for a proton emission reaction in joules.

QValueDoubleNeutronEmissionInMeV()

template<typename T >

T EGXPhys::QValueDoubleNeutronEmissionInMeV	(	const T	massParentInu,
		const T	massDaughterInu
	)

Calculates the Q-value, \(Q\), of a double neutron emission nuclear reaction in megaelectron volts. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic.

The Q-value, \(Q\), is the energy released during a nuclear reaction. The Q-value can be positive, negative or zero. For \(Q < 0\) the reaction is endothermic/endoergic resulting in the kinetic energy of the reaction being converted into mass or binding energy. For \(Q > 0\) the reaction is exothermic/exoergic resulting in the mass or binding energy being released as kinetic energy.

To calculate the Q-value it is the initial mass of the parent atom, \(m(\ce{ ^{A}_{Z}X_{N} })\), minus the final mass of the daughter atom, \(m(\ce{ ^{A-2}_{Z}X_{N -2} })\), as well as the mass of two neutron \(m(\ce{ ^{1}_{0}n_{1} })\):

\[Q = \left ( m(\ce{ ^{A}_{Z}X_{N} })-m(\ce{ ^{A-2}_{Z}X_{N -2} })-2m(\ce{ ^{1}_{0}n_{1} }) \right) c^2\]

See http://www.nndc.bnl.gov/qcalc/ and http://www.nuclear-power.net/nuclear-power/nuclear-reactions/q-value-energetics-nuclear-reactions/ and https://en.wikipedia.org/wiki/Neutron_emission

Equation taken from "Introductory Nuclear Physics" (Krane, 1987), p. 62 & p. 381

Parameters

massParentInu	\(m(\ce{ ^{A}_{Z}X_{N} })\ (u)\) Mass of parrent nucleus in unified atomic mass units.
massDaughterInu	\(m(\ce{ ^{A-2}_{Z}X_{N -2} })\ (u)\) Mass of daughter nucleus in unified atomic mass units.

Returns

\(Q\ (MeV)\) Q-value. The energy in megaelectron volts produced by a nuclear reaction.

See also

MassDefect() to calculate the mass defect of an atom.

NuclearBindingEnergy() to calculate binding energy, \(BE\), of an atom.

QValueAlphaDecayInMeV() to calculate Q-Value for an alpha decay reaction in megaelectron volts.

QValueBetaMinusDecayInMeV() to calculate Q-Value for a beta minus decay reaction in megaelectron volts.

QValueBetaPlusDecayInMeV() to calculate Q-Value for a beta plus decay reaction decay in megaelectron volts.

QValueElectronCaptureInMeV() to calculate Q-Value for a electron capture reaction in megaelectron volts.

QValueProtonEmissionInMeV() to calculate Q-Value for a proton emission reaction in megaelectron volts.

QValueNeutronEmissionInJ()

template<typename T >

T EGXPhys::QValueNeutronEmissionInJ	(	const T	massParentInu,
		const T	massDaughterInu
	)

Calculates the Q-value, \(Q\), of a neutron emission nuclear reaction in joules. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic.

The Q-value, \(Q\), is the energy released during a nuclear reaction. The Q-value can be positive, negative or zero. For \(Q < 0\) the reaction is endothermic/endoergic resulting in the kinetic energy of the reaction being converted into mass or binding energy. For \(Q > 0\) the reaction is exothermic/exoergic resulting in the mass or binding energy being released as kinetic energy.

To calculate the Q-value it is the initial mass of the parent atom, \(m(\ce{ ^{A}_{Z}X_{N} })\), minus the final mass of the daughter atom, \(m(\ce{ ^{A-1}_{Z}X_{N -1} })\), as well as the mass of a neutron \(m(\ce{ ^{1}_{0}n_{1} })\):

\[Q = \left ( m(\ce{ ^{A}_{Z}X_{N} })-m(\ce{ ^{A-1}_{Z}X_{N -1} })-m(\ce{ ^{1}_{0}n_{1} }) \right) c^2\]

See http://www.nndc.bnl.gov/qcalc/ and http://www.nuclear-power.net/nuclear-power/nuclear-reactions/q-value-energetics-nuclear-reactions/ and https://en.wikipedia.org/wiki/Neutron_emission

Equation taken from "Introductory Nuclear Physics" (Krane, 1987), p. 62 & p. 381

Parameters

massParentInu	\(m(\ce{ ^{A}_{Z}X_{N} })\ (u)\) Mass of parrent nucleus in unified atomic mass units.
massDaughterInu	\(m(\ce{ ^{A-1}_{Z}X_{N -1} })\ (u)\) Mass of daughter nucleus in unified atomic mass units.

Returns

\(Q\ (J)\) Q-value. The energy in joules produced by a nuclear reaction.

See also

MassDefect() to calculate the mass defect of an atom.

NuclearBindingEnergy() to calculate binding energy, \(BE\), of an atom.

QValueAlphaDecayInJ() to calculate Q-Value for an alpha decay reaction in joules.

QValueBetaMinusDecayInJ() to calculate Q-Value for a beta minus decay reaction in joules.

QValueBetaPlusDecayInJ() to calculate Q-Value for a beta plus decay reaction decay in joules.

QValueElectronCaptureInJ() to calculate Q-Value for a electron capture reaction in joules.

QValueProtonEmissionInJ() to calculate Q-Value for a proton emission reaction in joules.

QValueNeutronEmissionInMeV()

template<typename T >

T EGXPhys::QValueNeutronEmissionInMeV	(	const T	massParentInu,
		const T	massDaughterInu
	)

Calculates the Q-value, \(Q\), of a neutron emission nuclear reaction in megaelectron volts. The Q-value allows you to determine if a nuclear reaction is endothermic or exothermic.

The Q-value, \(Q\), is the energy released during a nuclear reaction. The Q-value can be positive, negative or zero. For \(Q < 0\) the reaction is endothermic/endoergic resulting in the kinetic energy of the reaction being converted into mass or binding energy. For \(Q > 0\) the reaction is exothermic/exoergic resulting in the mass or binding energy being released as kinetic energy.

To calculate the Q-value it is the initial mass of the parent atom, \(m(\ce{ ^{A}_{Z}X_{N} })\), minus the final mass of the daughter atom, \(m(\ce{ ^{A-1}_{Z}X_{N -1} })\), as well as the mass of a neutron \(m(\ce{ ^{1}_{0}n_{1} })\):

\[Q = \left ( m(\ce{ ^{A}_{Z}X_{N} })-m(\ce{ ^{A-1}_{Z}X_{N -1} })-m(\ce{ ^{1}_{0}n_{1} }) \right) c^2\]

See http://www.nndc.bnl.gov/qcalc/ and http://www.nuclear-power.net/nuclear-power/nuclear-reactions/q-value-energetics-nuclear-reactions/ and https://en.wikipedia.org/wiki/Neutron_emission

Equation taken from "Introductory Nuclear Physics" (Krane, 1987), p. 62 & p. 381

Parameters

massParentInu	\(m(\ce{ ^{A}_{Z}X_{N} })\ (u)\) Mass of parrent nucleus in unified atomic mass units.
massDaughterInu	\(m(\ce{ ^{A-1}_{Z}X_{N -1} })\ (u)\) Mass of daughter nucleus in unified atomic mass units.

Returns

\(Q\ (MeV)\) Q-value. The energy in megaelectron volts produced by a nuclear reaction.

See also

MassDefect() to calculate the mass defect of an atom.

NuclearBindingEnergy() to calculate binding energy, \(BE\), of an atom.

QValueAlphaDecayInMeV() to calculate Q-Value for an alpha decay reaction in megaelectron volts.

QValueBetaMinusDecayInMeV() to calculate Q-Value for a beta minus decay reaction in megaelectron volts.

QValueBetaPlusDecayInMeV() to calculate Q-Value for a beta plus decay reaction decay in megaelectron volts.

QValueElectronCaptureInMeV() to calculate Q-Value for a electron capture reaction in megaelectron volts.

QValueProtonEmissionInMeV() to calculate Q-Value for a proton emission reaction in megaelectron volts.