Add to ORKGA simple model of eddy currents in which current is computed solely from magnetic forces acting on electrons proves accessible to introductory students and gives a good qualitative account of eddy current forces. However, this model cannot be complete; it ignores the electric fields that drive current outside regions of significant magnetic field. In this paper we show how to extend the model to obtain a boundary value problem for current density. Solution of this problem in polar coordinates shows that the electric field significantly affects the quantitative results and presents an exercise suitable for upper division students. We apply elliptic cylindrical coordinates to generalize the result and offer an exercise useful for teaching gra...
Magnetic field and eddy currents in a cylinder of finite length are calculated by separation of vari...
Electric current in a conductor means motion of electrons in the opposite directions. In this Paper ...
Annotated lecture slides of lecture 4 for Elementary Physics II (PHY 204), taught by Gerhard Müller ...
This paper are proposed the simulation of eddy current density over the non-ferrous materials....
This version of the article has been accepted for publication, after peer review (when applicable) a...
In the design of an eddy current inspection device, it is useful to have available a means of visual...
A conductor moving in a stationary magnetic field often rises crucial issues at the courses on elect...
It may surprise you to learn that the conversion of electrical energy to mechanical work in electric...
We propose a new implementation of the finite element approximation of eddy current problems using a...
Abstract: This paper describes a type of didactic material used when teaching electromagnetism. The ...
AbstractHall devices are magnetic field current sensors based on the Hall effect. A bias current is ...
The first evidence for the existence of a magnetic field around an electric current was observed in ...
Undergraduate students often encounter great difficulties in understanding Ohm's law and electrical ...
The work presented in this thesis describes some theoretical and experimental aspects of the relatio...
In this two-part activity, students learn about electromagnetism by constructing electromagnets and ...
Magnetic field and eddy currents in a cylinder of finite length are calculated by separation of vari...
Electric current in a conductor means motion of electrons in the opposite directions. In this Paper ...
Annotated lecture slides of lecture 4 for Elementary Physics II (PHY 204), taught by Gerhard Müller ...
This paper are proposed the simulation of eddy current density over the non-ferrous materials....
This version of the article has been accepted for publication, after peer review (when applicable) a...
In the design of an eddy current inspection device, it is useful to have available a means of visual...
A conductor moving in a stationary magnetic field often rises crucial issues at the courses on elect...
It may surprise you to learn that the conversion of electrical energy to mechanical work in electric...
We propose a new implementation of the finite element approximation of eddy current problems using a...
Abstract: This paper describes a type of didactic material used when teaching electromagnetism. The ...
AbstractHall devices are magnetic field current sensors based on the Hall effect. A bias current is ...
The first evidence for the existence of a magnetic field around an electric current was observed in ...
Undergraduate students often encounter great difficulties in understanding Ohm's law and electrical ...
The work presented in this thesis describes some theoretical and experimental aspects of the relatio...
In this two-part activity, students learn about electromagnetism by constructing electromagnets and ...
Magnetic field and eddy currents in a cylinder of finite length are calculated by separation of vari...
Electric current in a conductor means motion of electrons in the opposite directions. In this Paper ...
Annotated lecture slides of lecture 4 for Elementary Physics II (PHY 204), taught by Gerhard Müller ...