LabLynx Wiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
LIMSpec Wiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
Bioinformatics Wiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
IHE Wiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
HL7 Wiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
Clinfowiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
OpenWetWare
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
Statistical Genetics Wiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
Cloud-Standards.org
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
WikiBooks
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
LIMSwiki
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
Wikiversity
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.
Wikipedia
The mathematical electron model
In the mathematical electron model [1], the electron is a geometrical formula (fe). Although dimensionless, this formula embeds the Planck units and also dictates the frequency of these Planck units, such that it is from this formula fe and these Planck units that the electron parameters (mass, wavelength, frequency, charge) are derived.