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184_notes:motiv_amp_law [2018/07/24 13:04] – [What is Ampere's Law?] curdemma | 184_notes:motiv_amp_law [2018/07/24 13:07] – [What is Ampere's Law?] curdemma |
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As far as a we know ([[http://physicstoday.scitation.org/doi/full/10.1063/PT.3.3328|and people are looking!]]), there are no single magnetic 'charges', termed '[[https://en.wikipedia.org/wiki/Magnetic_monopole|magnetic monopoles]].' That is, everywhere we look magnetic poles come in pairs - a north pole and a south pole. For example, if we think about enclosing a bar magnet with a Gaussian-like surface (an imaginary bubble), the magnetic flux through the whole bubble would be zero! For every magnetic field vector pointing into the bubble, there is also a magnetic field vector pointing out. | As far as a we know ([[http://physicstoday.scitation.org/doi/full/10.1063/PT.3.3328|and people are looking!]]), there are no single magnetic 'charges', termed '[[https://en.wikipedia.org/wiki/Magnetic_monopole|magnetic monopoles]].' That is, everywhere we look magnetic poles come in pairs - a north pole and a south pole. For example, if we think about enclosing a bar magnet with a Gaussian-like surface (an imaginary bubble), the magnetic flux through the whole bubble would be zero! For every magnetic field vector pointing into the bubble, there is also a magnetic field vector pointing out. |
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{{184_notes:Week11_flux_vol.png?300 }} | [{{184_notes:Week11_flux_vol.png?300|Permanent magnet enclosed in an "imaginary bubble" }}] |
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It turns out that this is true no matter what the source of your magnetic field is (bar magnet, moving charge, or current-carrying wire) - the integral of the magnetic field over a //closed// surface is always zero. That is, a closed volume never has net magnetic flux //__assuming that the magnetic field is constant__//. Mathematically, we would write this as: | It turns out that this is true no matter what the source of your magnetic field is (bar magnet, moving charge, or current-carrying wire) - the integral of the magnetic field over a //closed// surface is always zero. That is, a closed volume never has net magnetic flux //__assuming that the magnetic field is constant__//. Mathematically, we would write this as: |