Keywords:
Calculating A vector by a current carrying long linear wire.
This simulation illustrates how to model magnetostatics. A straight current, Jo, is directed along the z-axis. The example solves Poisson’s equation for the vector potential, A. The 0th dump of the simulation is the analytical solution for the purpose of comparison.
This simulation can be performed with a VSimBase license.
The magnetic field by a current example is accessed from within VSimComposer by the following actions:
The basic variables of this problem should now be alterable via the text boxes in the left pane of the Setup Window, as shown in Fig. 153.
VSimComposer allows the user to vary the applied current and a radius of the wire. These are the main parameters that affect the A vector. By changing these parameters, a user can run simulations to explore how the A vector depends on the applied current and radius. The input file, when viewed in the editor, also exposes all the grid sizes of the simulation that are used by the implemented models.
After performing the above actions, continue as follows:
After performing the above actions, continue as follows:
For this example, one can see the A vector fields. To see the A vector, continue as follows:
Fig. 155 shows the visualization seen for A_magnitude.
This input file can be modified to test different current, and wire radius. This will allow users to study how to use the magnetostatics capability in Vorpal.