Magnetic flux through a closed surface

tomwilliam · Dec 23, 2011

This is always zero, right?

What if you construct a closed surface which only encompasses one of the poles of a magnet? Surely there would then be a non-zero flux as the inside of the surface would constitute a source (or sink) of magnetic field lines.

I'm new to electromagnetism, so any help appreciated.
Tom

Foofur · Dec 23, 2011

Nope. What makes you think it would have a nonzero net flux? Just imagine what the setup looks like and you'll see that the flux will cancel.

Alternately just look at the Maxwell Equations (assuming that you believe in them of course). Div(B)=0.

tomwilliam · Dec 24, 2011

Thanks. I had forgotten that the magnetic field lines can be thought of as passing through the inside of the magnet, so I take your point that they all cancel out.

That brings up a new question though: if the North pole of a magnet has field lines coming in and going out of it, and so does the South pole, then what exactly distinguishes them. As you can imagine, I've been approaching this as if it were electrostatics (hence not realising that the field lines pass through the centre) but it strikes me that there doesn't seem to be a difference between the two poles of the magnet...am I barking up the wrong tree?

Magnetic flux through a closed surface

1. What is magnetic flux through a closed surface?

2. How is magnetic flux through a closed surface calculated?

3. What is the unit of measurement for magnetic flux?

4. How does the orientation of a closed surface affect the magnetic flux passing through it?

5. What is the significance of magnetic flux through a closed surface?

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