Add to ORKGpacs number: 41.20.Cv We calculate the potential, electric field and surface charges outside and inside a resistive spherical shell carrying a steady azimuthal current. We obtain a time-independent electric field different from zero in both regions. 1
Using the method of retarded potentials, approximate formulae are obtained that describe the electro...
In this work ive analyze the case of resistive conductor plates carrying constant currents, utilizin...
Exact formulas for the electric and magnetic fields at any arbitrary point within a cavity region co...
We solve the problem of a resistive toroid carrying a steady azimuthal current. We use standard toro...
In this work we treat a resistive toroidal conductor carrying a steady azimuthal current. We calcula...
Discuss the electromagnetic fields and the radiation of an expanding spherical shell of electric cha...
We solve the problem of a resistive toroid carrying a steady azimuthal current. We use standard toro...
In this work we consider a long, resistive cylindrical shell carrying a steady current. A battery in...
‘Forsome applications one desires a uniform quasi-static electric field. “the lines already well dev...
We consider a long resistive straight strip carrying a constant current and calculate the potential ...
A spherical shell of radius a carries charge Q uniformly distributed over its surface. Give expressi...
We treat the problem of two resistive plates carrying a steady current in the same direction. We con...
We consider the case of a resistive toroidal conductor carrying a steady current in the poloidal dir...
A uniformly charged insulating sphere of radius a and net charge -2Q is placed inside the cavity of ...
We present the opinion of some authors who believe there is no force between a stationary charge and...
Using the method of retarded potentials, approximate formulae are obtained that describe the electro...
In this work ive analyze the case of resistive conductor plates carrying constant currents, utilizin...
Exact formulas for the electric and magnetic fields at any arbitrary point within a cavity region co...
We solve the problem of a resistive toroid carrying a steady azimuthal current. We use standard toro...
In this work we treat a resistive toroidal conductor carrying a steady azimuthal current. We calcula...
Discuss the electromagnetic fields and the radiation of an expanding spherical shell of electric cha...
We solve the problem of a resistive toroid carrying a steady azimuthal current. We use standard toro...
In this work we consider a long, resistive cylindrical shell carrying a steady current. A battery in...
‘Forsome applications one desires a uniform quasi-static electric field. “the lines already well dev...
We consider a long resistive straight strip carrying a constant current and calculate the potential ...
A spherical shell of radius a carries charge Q uniformly distributed over its surface. Give expressi...
We treat the problem of two resistive plates carrying a steady current in the same direction. We con...
We consider the case of a resistive toroidal conductor carrying a steady current in the poloidal dir...
A uniformly charged insulating sphere of radius a and net charge -2Q is placed inside the cavity of ...
We present the opinion of some authors who believe there is no force between a stationary charge and...
Using the method of retarded potentials, approximate formulae are obtained that describe the electro...
In this work ive analyze the case of resistive conductor plates carrying constant currents, utilizin...
Exact formulas for the electric and magnetic fields at any arbitrary point within a cavity region co...