# Mathematica implementation of Biot-Savart law for a current-carrying wire segment

I'm trying to visualize the magnetic field around a short, linear, current-carrying wire segment.

The code that I have seems to be not working but I can't figure out why,

``````p1 = {0, 0, 0};
p2 = {0, 0, 1};
p12 = p2 - p1;
Subscript[\[Mu], 0] = 4 Pi*10^(-7);
l[s_] := (1 - s) p1 + s p2;
R = {x, y, z} - l[s];
r = R/Sqrt[R.R];
B = Subscript[\[Mu], 0]/(4 Pi)
Integrate[l[s]\[Cross]r/(R.R), {s, 0, 1}];

Manipulate[
Show[
VectorPlot3D[B, {x, -4, 4}, {y, -4, 4}, {z, -4, 4}, Boxed -> False,
Axes -> False],
Graphics3D[{Red, Line[{p1, p2}],}],
Boxed -> False,
Axes -> False,
SphericalRegion -> True,
PlotRange -> ({
{-4`, 4`},
{-4`, 4`},
{-4`, 4`}
}),
Lighting -> "Neutral"]
]
``````

Is this not working because the field goes to infinity as R->0, or some other reason? Is there a workaround?

Also, assuming I get the expression for the magnetic field right, are there any other cool ways to visualize the magnetic field, e.g. like an antenna pattern?

Any help would be greatly appreciated, I'm trying to teach myself Mathematica from the Demo Project and from a textbook, and it's going slowly.

-
Did you copy and paste your code correctly? If yes, what is the purpose of `Manipulate`? –  acl Aug 20 '11 at 13:24
Also note that the integral is on a separate line, hence not part of the expression for B. –  Daniel Lichtblau Aug 20 '11 at 15:34

Integrate is taking a lot of time. Minimally changing this in order to produce something, you can add `GenerateConditions->False`, like so:

``````B = Subscript[\[Mu], 0]/(4 Pi)*
Integrate[(l[s]\[Cross]r/(R.R)), {s, 0, 1},
GenerateConditions -> False];
``````

which does work. The rest of your code seems a bit random, have you added things in an effort to troubleshoot and left them in, or do you need help with that too?

-
Thanks for the tip, it now runs much faster. Indeed my code is a bit random, I've basically hacked it together from bits of the Wolfram Demonstration Project, so any tips on style or function would be greatly appreciated. –  Ben O'Loghlin Aug 20 '11 at 13:43
@Ben so what is the purpose of the `Manipulate`? Or is it just a remnant from the code you started with? It is not doing anything as far as I can tell. –  acl Aug 20 '11 at 15:00
remnant from swiped code :D –  Ben O'Loghlin Aug 22 '11 at 4:27