Add to ORKGKnowledge in electromagnetic theoryThe positive and negative charges are at(0,0,+-d/2). The potential Φ(ρ,z,d) of the dipole in cylindrical coordinates (ρ,φ ,z) does not depend on because of symmetry. The graphs show the contour plots of the potential or electrostatic energy density u(ρ,z,d)in the neighborhood of the chargesComponente Curricular::Educação Superior::Ciências Exatas e da Terra::Físic
Aim of this note is to give a simple and direct proof of the existence and uniqueness of the solutio...
The creation of electromagnetic energy may be realised by engineering a device with a method of tran...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
Knowledge in electromagnetic theoryThe positive and negative charges are at(0,0,+-d/2). The potentia...
Basic knowledge in elctromagnetic theoryThis demonstration shows the electrostatic potential of two ...
We consider electric charge to be a contracted (positive charge) or dilated (negative charge) zone o...
<p>(A) Electrostatic potential distributions for 24 homologues of C3d [red, negative (−1.5 kT/e); bl...
The concept of non overlapping charges developed by the author has proven very useful for the evalua...
讨论了圆形面偶极层静电势问题的正确解法,阐明了对于延拓法的正确理解.给出了有限间距时圆形平行板(分别带有异性面电荷)的静电势问题.中文核心期刊要目总览(PKU)013-6,142
Electric and magnetic current densities are an essential part of electromagnetic theory. The goal of...
We report an exact result for the electrostatic potential energy stored in a hemispherical surface w...
Concepts electromagnetism and electrodynamicsA point charge q located at r 0 near an infinite ground...
Part 4: The Elementary Charges and Particles Electric charge, as we have shown (Barak 2019), is not ...
In this paper, the molecular electrostatic potential energy V is first estimated from the electric f...
讨论了电荷分布呈轴对称时圆盘的静电势问题.用方程法和延拓法求解了电荷分布为幂函数时的静电势.在原有的延拓法则之外,总结出新的补充法则.中文核心期刊要目总览(PKU)0125-81
Aim of this note is to give a simple and direct proof of the existence and uniqueness of the solutio...
The creation of electromagnetic energy may be realised by engineering a device with a method of tran...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...
Knowledge in electromagnetic theoryThe positive and negative charges are at(0,0,+-d/2). The potentia...
Basic knowledge in elctromagnetic theoryThis demonstration shows the electrostatic potential of two ...
We consider electric charge to be a contracted (positive charge) or dilated (negative charge) zone o...
<p>(A) Electrostatic potential distributions for 24 homologues of C3d [red, negative (−1.5 kT/e); bl...
The concept of non overlapping charges developed by the author has proven very useful for the evalua...
讨论了圆形面偶极层静电势问题的正确解法,阐明了对于延拓法的正确理解.给出了有限间距时圆形平行板(分别带有异性面电荷)的静电势问题.中文核心期刊要目总览(PKU)013-6,142
Electric and magnetic current densities are an essential part of electromagnetic theory. The goal of...
We report an exact result for the electrostatic potential energy stored in a hemispherical surface w...
Concepts electromagnetism and electrodynamicsA point charge q located at r 0 near an infinite ground...
Part 4: The Elementary Charges and Particles Electric charge, as we have shown (Barak 2019), is not ...
In this paper, the molecular electrostatic potential energy V is first estimated from the electric f...
讨论了电荷分布呈轴对称时圆盘的静电势问题.用方程法和延拓法求解了电荷分布为幂函数时的静电势.在原有的延拓法则之外,总结出新的补充法则.中文核心期刊要目总览(PKU)0125-81
Aim of this note is to give a simple and direct proof of the existence and uniqueness of the solutio...
The creation of electromagnetic energy may be realised by engineering a device with a method of tran...
The electric dipole–magnetic dipole polarizability tensor κ′, introduced to interpret the optical ac...