In the International System of Units (SI), distinct physical dimensions were assigned to the electric ( $E$ ) and magnetic ( $H$ ) fields as volt-per-meter and ampere-per-meter, respectively. To save the dimensional balance in the standard Maxwell’s equations (MEs) in SI units, a pair of free-space constants, $\epsilon _{0}$ and ${\mu } _{0}$ , with their dimensions of farad-per-meter and henry-per-meter were installed heuristically. Eventually, every quantity that participated in each ME in SI units has an individual physical dimension distinct from the other terms therein. This situation hampers the control of the dimensional balance in the processes of analytical manipulations with the MEs during the theoretical studies. Reform...
Maxwell’s equations are the cornerstone in electrodynamics. Despite the fact that this equations are...
∂t = −∇ × E (Faraday) ∇ ·D = ρ (Poisson) ∇ · B = 0 (Gauss) E = Electric field vector H = Magnetic f...
Introduction ; electrostatic units, electromagnetic units, and practical units ; magnetic intensity ...
In this article we have illustrated how is possible to formulate Maxwell's equations in vacuum in an...
The electric displacement field D has dimensions charge/area and the magnetic field strength H has d...
The next revision to the International System of Units will emphasize the relationship between the b...
From about 1969, one of the authors, M. Tanioka has been using the Relationship among the Physical Q...
International audienceWe propose a new system for the fundamental units, which includes and goes bey...
Invited report at the 8th Meeting of the Working Group ``Base units and fundamental constants'' of t...
A modified International System of Units (SI) based on simply specifying exact numeric values of sev...
The theory of physical dimensions and units in physics is outlined. This includes a discussion of th...
Since the unit of electric charge can be chosen independently of the value of the permittivity of fr...
The three basic quantities from which most other mechanical units are derived are mass, length, and ...
This is the fifth installment in a series devoted to explaining Maxwell’s equations, the four mathem...
Finding out how many parameters are necessary to explain and describe complex and various phenomena ...
Maxwell’s equations are the cornerstone in electrodynamics. Despite the fact that this equations are...
∂t = −∇ × E (Faraday) ∇ ·D = ρ (Poisson) ∇ · B = 0 (Gauss) E = Electric field vector H = Magnetic f...
Introduction ; electrostatic units, electromagnetic units, and practical units ; magnetic intensity ...
In this article we have illustrated how is possible to formulate Maxwell's equations in vacuum in an...
The electric displacement field D has dimensions charge/area and the magnetic field strength H has d...
The next revision to the International System of Units will emphasize the relationship between the b...
From about 1969, one of the authors, M. Tanioka has been using the Relationship among the Physical Q...
International audienceWe propose a new system for the fundamental units, which includes and goes bey...
Invited report at the 8th Meeting of the Working Group ``Base units and fundamental constants'' of t...
A modified International System of Units (SI) based on simply specifying exact numeric values of sev...
The theory of physical dimensions and units in physics is outlined. This includes a discussion of th...
Since the unit of electric charge can be chosen independently of the value of the permittivity of fr...
The three basic quantities from which most other mechanical units are derived are mass, length, and ...
This is the fifth installment in a series devoted to explaining Maxwell’s equations, the four mathem...
Finding out how many parameters are necessary to explain and describe complex and various phenomena ...
Maxwell’s equations are the cornerstone in electrodynamics. Despite the fact that this equations are...
∂t = −∇ × E (Faraday) ∇ ·D = ρ (Poisson) ∇ · B = 0 (Gauss) E = Electric field vector H = Magnetic f...
Introduction ; electrostatic units, electromagnetic units, and practical units ; magnetic intensity ...