In this paper, we study that a static electric field would be created from a charge distribution. In addition, it was possible to determine this static electric field from a scalar potential. This equation reduces to Laplace's equation if the charge density in the region of interest were equal to zero. The general procedure of solving these equations for the cases where the potential V depended on only one or two spatial coordinates is given here. In this paper, we will introduce analytical and numerical techniques that will allow us to examine such complicated problems. For mathematical simplicity, however, only problems that can be written in terms of Cartesian coordinates will be emphasized
Abstract: The two-step algorithm for solving problems with a linear elliptic operator, for...
FIELD GROUP SUB-GROUP I Electrostatics, spherical harmonics 19, ABSTRACT (Continue on reverse if nec...
In this paper, a new method for calculating of electric fields inside any arbitrary shape electrode ...
Numerous computer codes calculate beam dynamics of particles traversing an accelerating gap. In orde...
The electrostatic discharge occurs between electrically charged regions may be between the two cloud...
Covering the development of field computation in the past forty years, Field Models in Electricity a...
A mathematical method is developed for the analysis of the electrostatic fields existing within fini...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
Maxwell's equations from the 19th century and the almost equally old Lorentz force equation provide ...
Covering the development of field computation in the past forty years, the book intends to be a conc...
In the electrical engineering problem such as determination of capacitance between conductors, the m...
The usual method of separation of variables to find a basis of solutions of Laplace's equation in to...
A numerical approach for the solution of Maxwell's equations is presented. Based on a finite differe...
A common problem in electrostatics is determining the electrostatic potential due to a uniformly cha...
Abstract: The two-step algorithm for solving problems with a linear elliptic operator, for...
FIELD GROUP SUB-GROUP I Electrostatics, spherical harmonics 19, ABSTRACT (Continue on reverse if nec...
In this paper, a new method for calculating of electric fields inside any arbitrary shape electrode ...
Numerous computer codes calculate beam dynamics of particles traversing an accelerating gap. In orde...
The electrostatic discharge occurs between electrically charged regions may be between the two cloud...
Covering the development of field computation in the past forty years, Field Models in Electricity a...
A mathematical method is developed for the analysis of the electrostatic fields existing within fini...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
Maxwell's equations from the 19th century and the almost equally old Lorentz force equation provide ...
Covering the development of field computation in the past forty years, the book intends to be a conc...
In the electrical engineering problem such as determination of capacitance between conductors, the m...
The usual method of separation of variables to find a basis of solutions of Laplace's equation in to...
A numerical approach for the solution of Maxwell's equations is presented. Based on a finite differe...
A common problem in electrostatics is determining the electrostatic potential due to a uniformly cha...
Abstract: The two-step algorithm for solving problems with a linear elliptic operator, for...
FIELD GROUP SUB-GROUP I Electrostatics, spherical harmonics 19, ABSTRACT (Continue on reverse if nec...
In this paper, a new method for calculating of electric fields inside any arbitrary shape electrode ...