## Classical ElectrodynamicsProblems after each chapter |

### From inside the book

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Page 10

da (1.23) Another problem of interest is the potential due to a

distribution on a surface S. A

letting the surface S have a surface-charge density of x) on it, and another

surface S", ...

da (1.23) Another problem of interest is the potential due to a

**dipole**-layerdistribution on a surface S. A

**dipole**layer can be imagined as being formed byletting the surface S have a surface-charge density of x) on it, and another

surface S", ...

Page 132

The basic entity in magnetic studies was what we now know as a magnetic

. In the presence of magnetic materials the

direction. That direction is by definition the direction of the magnetic-flux density,

...

The basic entity in magnetic studies was what we now know as a magnetic

**dipole**. In the presence of magnetic materials the

**dipole**tends to align itself in a certaindirection. That direction is by definition the direction of the magnetic-flux density,

...

Page 274

Considering only the magnetization term, we have the vector potential, ikor A(x) =

ik(n x m) o( - #) (9.33) r ikr where m is the magnetic

se x J) doc (9.34) c The fields can be determined by noting that the vector ...

Considering only the magnetization term, we have the vector potential, ikor A(x) =

ik(n x m) o( - #) (9.33) r ikr where m is the magnetic

**dipole**moment, in E so d°r = ;se x J) doc (9.34) c The fields can be determined by noting that the vector ...

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### Contents

Introduction to Electrostatics | 1 |

Greens theorem | 14 |

BoundaryValue Problems in Electrostatics I | 26 |

Copyright | |

9 other sections not shown

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acceleration angle angular applied approximation assumed atomic average axis becomes boundary conditions calculate called Chapter charge charged particle classical collisions compared component conducting Consequently consider constant coordinates cross section cylinder defined density dependence derivative determine dielectric dimensions dipole direction discussed distance distribution effects electric field electromagnetic electron electrostatic energy equal equation example expansion expression factor force frame frequency function given gives incident inside integral involved limit Lorentz loss magnetic magnetic field magnetic induction magnitude mass means momentum motion moving multipole normal observation obtain origin parallel particle physical plane plasma polarization position potential problem properties radiation radius region relation relative relativistic result satisfy scalar scattering shown in Fig shows side solution sphere spherical surface transformation unit vanishes vector velocity volume wave written