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< a href = "./index.html" class = "homepage-link" > Pre-Quantum Electrodynamics< / a >
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Table of contents
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< a href = "./in.html#in" > Introduction< / a > < span class = "headline-id" > in< / span >
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< a href = "./in_p.html#in_p" > Preface< / a > < span class = "headline-id" > in.p< / span >
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< a href = "./in_t.html#in_t" > Tips for the reader< / a > < span class = "headline-id" > in.t< / span >
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2022-02-08 16:21:33 +00:00
< a href = "./in_t_l.html#in_t_l" > Section and equation labelling< / a > < span class = "headline-id" > in.t.l< / span >
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< a href = "./in_t_c.html#in_t_c" > Contextual colors< / a > < span class = "headline-id" > in.t.c< / span >
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< a href = "./ems.html#ems" > Electromagnetostatics< / a > < span class = "headline-id" > ems< / span >
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< a href = "./ems_es.html#ems_es" > Electrostatics< / a > < span class = "headline-id" > ems.es< / span >
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< a href = "./ems_es_ec.html#ems_es_ec" > Electric Charge< / a > < span class = "headline-id" > ems.es.ec< / span >
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< a href = "./ems_es_ec_b.html#ems_es_ec_b" > Basics< / a > < span class = "headline-id" > ems.es.ec.b< / span >
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< a href = "./ems_es_ec_c.html#ems_es_ec_c" > Conservation< / a > < span class = "headline-id" > ems.es.ec.c< / span >
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< a href = "./ems_es_ec_q.html#ems_es_ec_q" > Quantization< / a > < span class = "headline-id" > ems.es.ec.q< / span >
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< a href = "./ems_es_ec_s.html#ems_es_ec_s" > Structure< / a > < span class = "headline-id" > ems.es.ec.s< / span >
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< a href = "./ems_es_efo.html#ems_es_efo" > Electric Force and Energy< / a > < span class = "headline-id" > ems.es.efo< / span >
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< a href = "./ems_es_efo_cl.html#ems_es_efo_cl" > Coulomb's Law< / a > < span class = "headline-id" > ems.es.efo.cl< / span >
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< a href = "./ems_es_efo_ps.html#ems_es_efo_ps" > Principle of Superposition< / a > < span class = "headline-id" > ems.es.efo.ps< / span >
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< a href = "./ems_es_efo_exp.html#ems_es_efo_exp" > Experimental Investigations< / a > < span class = "headline-id" > ems.es.efo.exp< / span >
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< a href = "./ems_es_efo_e.html#ems_es_efo_e" > Energy in Systems of Point Charges< / a > < span class = "headline-id" > ems.es.efo.e< / span >
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< a href = "./ems_es_ef.html#ems_es_ef" > Electrostatic Fields< / a > < span class = "headline-id" > ems.es.ef< / span >
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< a href = "./ems_es_ef_pc.html#ems_es_ef_pc" > Electrostatic Field of Point Charges< / a > < span class = "headline-id" > ems.es.ef.pc< / span >
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< a href = "./ems_es_ef_ccd.html#ems_es_ef_ccd" > Electrostatic Field of Continuous Charge Distributions< / a > < span class = "headline-id" > ems.es.ef.ccd< / span >
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< a href = "./ems_es_ef_cE.html#ems_es_ef_cE" > The Curl of \({\bf E}\)< / a > < span class = "headline-id" > ems.es.ef.cE< / span >
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< a href = "./ems_es_ef_Gl.html#ems_es_ef_Gl" > Gauss's Law: the divergence of \({\bf E}\)< / a > < span class = "headline-id" > ems.es.ef.Gl< / span >
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2022-02-08 06:07:41 +00:00
< a href = "./ems_es_ep.html#ems_es_ep" > The Electrostatic Potential< / a > < span class = "headline-id" > ems.es.ep< / span >
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< a href = "./ems_es_ep_d.html#ems_es_ep_d" > Definition< / a > < span class = "headline-id" > ems.es.ep.d< / span >
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< a href = "./ems_es_ep_fp.html#ems_es_ep_fp" > Field in terms of the potential< / a > < span class = "headline-id" > ems.es.ep.fp< / span >
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< a href = "./ems_es_ep_ex.html#ems_es_ep_ex" > Example calculations for the potential< / a > < span class = "headline-id" > ems.es.ep.ex< / span >
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2022-02-09 21:41:42 +00:00
< a href = "./ems_es_ep_PL.html#ems_es_ep_PL" > Poisson's and Laplace's Equations< / a > < span class = "headline-id" > ems.es.ep.PL< / span >
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< a href = "./ems_es_ep_bc.html#ems_es_ep_bc" > Electrostatic Boundary Conditions< / a > < span class = "headline-id" > ems.es.ep.bc< / span >
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2022-02-08 06:07:41 +00:00
< a href = "./ems_es_e.html#ems_es_e" > Electrostatic Energy from the Potential< / a > < span class = "headline-id" > ems.es.e< / span >
2022-02-07 14:11:58 +00:00
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< a href = "./ems_es_c.html#ems_es_c" > Conductors< / a > < span class = "headline-id" > ems.es.c< / span >
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< a href = "./ems_es_c_p.html#ems_es_c_p" > Properties< / a > < span class = "headline-id" > ems.es.c.p< / span >
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< a href = "./ems_es_c_ic.html#ems_es_c_ic" > Induced Charges< / a > < span class = "headline-id" > ems.es.c.ic< / span >
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< a href = "./ems_es_c_sc.html#ems_es_c_sc" > Surface Charge and the Force on a Conductor< / a > < span class = "headline-id" > ems.es.c.sc< / span >
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< a href = "./ems_es_c_cap.html#ems_es_c_cap" > Capacitors< / a > < span class = "headline-id" > ems.es.c.cap< / span >
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< a href = "./ems_ca.html#ems_ca" > Calculating or Approximating the Electrostatic Potential< / a > < span class = "headline-id" > ems.ca< / span >
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< a href = "./ems_ca_fe.html#ems_ca_fe" > Fundamental Equations for the Electrostatic Potential< / a > < span class = "headline-id" > ems.ca.fe< / span >
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< a href = "./ems_ca_fe_L.html#ems_ca_fe_L" > The Laplace Equation< / a > < span class = "headline-id" > ems.ca.fe.L< / span >
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< a href = "./ems_ca_fe_g.html#ems_ca_fe_g" > Green's Identities< / a > < span class = "headline-id" > ems.ca.fe.g< / span >
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< a href = "./ems_ca_fe_uP.html#ems_ca_fe_uP" > Uniqueness of Solution to Poisson's Equation< / a > < span class = "headline-id" > ems.ca.fe.uP< / span >
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< a href = "./ems_ca_mi_fe.html#ems_ca_mi_fe" > Force and Energy< / a > < span class = "headline-id" > ems.ca.mi.fe< / span >
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< a href = "./ems_ca_sv_car.html#ems_ca_sv_car" > Cartesian Coordinates< / a > < span class = "headline-id" > ems.ca.sv.car< / span >
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< a href = "./ems_ca_sv_cyl.html#ems_ca_sv_cyl" > Cylindrical Coordinates< / a > < span class = "headline-id" > ems.ca.sv.cyl< / span >
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< a href = "./ems_ca_sv_sph.html#ems_ca_sv_sph" > Spherical Coordinates< / a > < span class = "headline-id" > ems.ca.sv.sph< / span >
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< a href = "./ems_ca_me.html#ems_ca_me" > The Multipole Expansion< / a > < span class = "headline-id" > ems.ca.me< / span >
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< a href = "./ems_ca_me_a.html#ems_ca_me_a" > Approximate Potential at Large Distance< / a > < span class = "headline-id" > ems.ca.me.a< / span >
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< a href = "./ems_ca_me_md.html#ems_ca_me_md" > Monopole and Dipole Terms< / a > < span class = "headline-id" > ems.ca.me.md< / span >
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< a href = "./ems_ca_me_h.html#ems_ca_me_h" > Higher Moments< / a > < span class = "headline-id" > ems.ca.me.h< / span >
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< a href = "./ems_ca_me_Ed.html#ems_ca_me_Ed" > The Electric Field of a Dipole< / a > < span class = "headline-id" > ems.ca.me.Ed< / span >
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< a href = "./ems_ca_me_Eq.html#ems_ca_me_Eq" > The Electric Field of a Quadrupole< / a > < span class = "headline-id" > ems.ca.me.Eq< / span >
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< a href = "./ems_ms.html#ems_ms" > Magnetostatics< / a > < span class = "headline-id" > ems.ms< / span >
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< a href = "./ems_ms_lf.html#ems_ms_lf" > Charges in Motion: the Lorentz Force Law< / a > < span class = "headline-id" > ems.ms.lf< / span >
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< a href = "./ems_ms_lf_pc.html#ems_ms_lf_pc" > Point Charge< / a > < span class = "headline-id" > ems.ms.lf.pc< / span >
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< a href = "./ems_ms_lf_c.html#ems_ms_lf_c" > Currents< / a > < span class = "headline-id" > ems.ms.lf.c< / span >
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< a href = "./ems_ms_BS.html#ems_ms_BS" > Steady Currents: the Biot-Savart Law< / a > < span class = "headline-id" > ems.ms.BS< / span >
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< a href = "./ems_ms_BS_sc.html#ems_ms_BS_sc" > The Magnetic Field issuing from a Steady Current< / a > < span class = "headline-id" > ems.ms.BS.sc< / span >
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< a href = "./ems_ms_dcB.html#ems_ms_dcB" > Divergence and Curl of \({\bf B}\)< / a > < span class = "headline-id" > ems.ms.dcB< / span >
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< a href = "./ems_ms_dcB_sc.html#ems_ms_dcB_sc" > Straight-line Currents< / a > < span class = "headline-id" > ems.ms.dcB.sc< / span >
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2022-02-08 16:21:33 +00:00
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2022-02-07 14:11:58 +00:00
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< ul class = "breadcrumbs" > < li > < a class = "breadcrumb-link" href = "d.html" > Diagnostics< / a > < / li > < li > < a class = "breadcrumb-link" href = "d_emsm.html" > Diagnostics: Electromagnetostatics in Matter< / a > < / li > < li > Diagnostics: Magnetostatics in Matter< / li > < / ul > < ul class = "navigation-links" > < li > Prev: < a href = "d_ems_ms.html" > Diagnostics: Magnetostatics  < small > [d.ems.ms]< / small > < / a > < / li > < li > Next: < a href = "d_emd.html" > Diagnostics: Electromagnetodynamics  < small > [d.emd]< / small > < / a > < / li > < li > Up: < a href = "d_emsm.html" > Diagnostics: Electromagnetostatics in Matter  < small > [d.emsm]< / small > < / a > < / li > < / ul > < div id = "outline-container-d_emsm_msm" class = "outline-3" >
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< p >
< b > Fundamentals< / b > :
After properly studying this module, you should be able to:
< / p >
< ul class = "org-ul" >
< li > give the definition of magnetization< / li >
< li > explain the difference between paramagnets, diamagnets and ferromagnets< / li >
< li > state the formula for the torque on a magnetic dipole in a uniform field< / li >
< li > state the formula for bound volume current and bound surface current in terms of the magnetization< / li >
< li > give the definition of the \({\boldsymbol H}\) field< / li >
< li > state Ampère's law in terms of \({\boldsymbol H}\) (differential and integral forms)< / li >
< li > give the definition of susceptibility and permeability for linear media< / li >
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< p >
< b > Applications< / b > :
As a strict minimum, you should be able to:
< / p >
< ul class = "org-ul" >
< li > compute \({\boldsymbol H}\) for simple geometries< / li >
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< br > < ul class = "navigation-links" > < li > Prev: < a href = "d_ems_ms.html" > Diagnostics: Magnetostatics  < small > [d.ems.ms]< / small > < / a > < / li > < li > Next: < a href = "d_emd.html" > Diagnostics: Electromagnetodynamics  < small > [d.emd]< / small > < / a > < / li > < li > Up: < a href = "d_emsm.html" > Diagnostics: Electromagnetostatics in Matter  < small > [d.emsm]< / small > < / a > < / li > < / ul >
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< p class = "author" > Author: Jean-Sébastien Caux< / p >
2022-02-14 19:42:37 +00:00
< p class = "date" > Created: 2022-02-14 Mon 20:35< / p >
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