Bounds for the electrical resistance for non-homogeneous conducting body Article Swipe

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Perfect conductor Isotropy Conductor Mathematics Mathematical analysis Electrical resistance and conductance Upper and lower bounds Conductance Homogeneous Electric current Electrical conductor Boundary value problem Cauchy distribution Flow (mathematics) Steady state (chemistry) Mechanics Current (fluid) Physics Geometry Thermodynamics Chemistry Combinatorics Scattering Optics Physical chemistry Quantum mechanics

István Ecsedi , Attila Baksa ·

YOU? · · 2022 · Open Access · · DOI: https://doi.org/10.1556/606.2022.00621 · OA: W4307378319

A mathematical model is developed to determine the steady-state electric current flow through in non-homogeneous isotropic conductor whose shape has a three-dimensional hollow body. The equations of the Maxwell's theory of electric current flow in a non-homogeneous isotropic solid conductor body are used to formulate the corresponding electric boundary value problem. The determination of the steady motion of charges is based on the concept of the electrical conductance. The derivation of the upper and lower bound formulae for the electrical conductance is based on Cauchy-Schwarz inequality. Two numerical examples illustrate the applications of the derived upper and lower bound formulae.