Add to ORKG∇ · ~D = ∇ · ~B = 0 in (0,T) × Ω ~E × ~n = 0 on ∂Ω ~E (0,~x) = 0 = ~H(0,~x) in Ω ~E = Electric field vector ~H = Magnetic field vector ρ = Electric charge density ~D = Electric displacement ~B = Magnetic flux density ~J = Current density V. A. Bokil (OSU) Stability/Dispersion Analysis (Debye) SIAM AN08 3 / 2
The electric displacement field D has dimensions charge/area and the magnetic field strength H has d...
Deduce a version of Poynting’s theorem [1] in macroscopic electrodynamics supposing that magnetic ch...
A method for calculating the values of specific resistivity ρ as well as the product µHB of the Hall...
∂t = −∇ × E (Faraday) ∇ ·D = ρ (Poisson) ∇ · B = 0 (Gauss) E = Electric field vector H = Magnetic f...
180-182The tensor conductivity in the ionosphere was first written by W. G. Baker & D. F. Martin...
Unit 1: ELECTROSTATICS-The Electric field-Point charge and continuous charge distributions-Divergenc...
r ε = Original conductivity Original relative permittivity Recon. relative permittivity
Data for Figure 1B. Conductance as a function of chemical potential for device 1 at a magnetic fiel...
Nowadays, electromagnetic problems are present everywhere in the daily life. Wherever electrical mac...
Knowledge in electromagnetic theoryThe positive and negative charges are at(0,0,+-d/2). The potentia...
It may surprise you to learn that the conversion of electrical energy to mechanical work in electric...
In this study, the relationship between diffusion and the electrical conductivity tensor is investig...
© 2016, Pleiades Publishing, Inc.A formula for computing the temperature dependence of the London pe...
Maxwell's equations allow the magnetic field B to be calculated if the electric current density J ...
Electrical currents in resistive materials must be driven by an internal electric field E = J/ς, whe...
The electric displacement field D has dimensions charge/area and the magnetic field strength H has d...
Deduce a version of Poynting’s theorem [1] in macroscopic electrodynamics supposing that magnetic ch...
A method for calculating the values of specific resistivity ρ as well as the product µHB of the Hall...
∂t = −∇ × E (Faraday) ∇ ·D = ρ (Poisson) ∇ · B = 0 (Gauss) E = Electric field vector H = Magnetic f...
180-182The tensor conductivity in the ionosphere was first written by W. G. Baker & D. F. Martin...
Unit 1: ELECTROSTATICS-The Electric field-Point charge and continuous charge distributions-Divergenc...
r ε = Original conductivity Original relative permittivity Recon. relative permittivity
Data for Figure 1B. Conductance as a function of chemical potential for device 1 at a magnetic fiel...
Nowadays, electromagnetic problems are present everywhere in the daily life. Wherever electrical mac...
Knowledge in electromagnetic theoryThe positive and negative charges are at(0,0,+-d/2). The potentia...
It may surprise you to learn that the conversion of electrical energy to mechanical work in electric...
In this study, the relationship between diffusion and the electrical conductivity tensor is investig...
© 2016, Pleiades Publishing, Inc.A formula for computing the temperature dependence of the London pe...
Maxwell's equations allow the magnetic field B to be calculated if the electric current density J ...
Electrical currents in resistive materials must be driven by an internal electric field E = J/ς, whe...
The electric displacement field D has dimensions charge/area and the magnetic field strength H has d...
Deduce a version of Poynting’s theorem [1] in macroscopic electrodynamics supposing that magnetic ch...
A method for calculating the values of specific resistivity ρ as well as the product µHB of the Hall...