0201ご冗談でしょう?名無しさん2020/12/12(土) 22:55:36.99ID:??? 「まず」て言ってるやろ 0202ご冗談でしょう?名無しさん2020/12/12(土) 23:15:15.27ID:??? その「まず」で満足しちゃってるから嬉々として目次のコピペしてんだろ 0203ご冗談でしょう?名無しさん2020/12/12(土) 23:33:10.73ID:??? 荒らしに構うのやめろ 0204ご冗談でしょう?名無しさん2020/12/13(日) 02:45:18.01ID:??? yes sir 0205ご冗談でしょう?名無しさん2020/12/13(日) 09:48:07.86ID:???>>200 ベクトル解析の一般論と可換ゲージ理論で電磁気学すっ飛ばしたインデックス定理厨の俺大勝利!。 0206ご冗談でしょう?名無しさん2020/12/13(日) 13:05:07.67ID:??? ベクトル解析て一般論じゃないだろ 0207ご冗談でしょう?名無しさん2020/12/13(日) 14:10:44.13ID:lIEoM/jL>>197 誰かこれを再生しる! 0208ご冗談でしょう?名無しさん2020/12/13(日) 15:54:50.54ID:??? しるかい 0209ご冗談でしょう?名無しさん2020/12/13(日) 16:33:14.77ID:lIEoM/jL>>194 Chapter 2. Boundary-Value Problems in Electrostatics : I 54 2.1 Method of Images 54 2.2 Point Charge in the Presence of a Grounded Conducting Sphere 55 2.3 Point Charge in the Presence of a Charged , Insulated , Conducting Sphere58 2.4 Point Charge Near a Conducting Sphere at Fixed Potential 60 2.5 Conducting Sphere in a Uniform Electric Field by the Method of Images 60 2.6 Green Function for the Sphere , General Solution for the Potential 62 2.7 Conducting Sphere with Hemispheres at Different Potentials 63 2.8 Orthogonal Functions and Expantions 65 2.9 Seperation of Variables , Laplace Equation in Rectangular Coordinates 68 2.10 A Two-dimensional Potential Problem , Summation of a Fourier Series 71 2.11 Fields and Charge Densities in Two-dimensional Corners and Along Edges 75
電流素片とか仮想的だし、概念が。 0232ご冗談でしょう?名無しさん2020/12/15(火) 16:01:24.79ID:E7FLRfon>>224 おまいら寒いよね! Chapter 4. Multipoles , Electrostatics of Macroscopic Media , Dielectrics 136 4.1 Multipole Expantion 136 4.2 Multipole Expantion of the Energy of Charge Distribution in an External Field 142 4.3 Elementary Treatment of Electrostatics with Ponderable Media 143 4.4 Boundary-Value Problems with Dielectrics 147 4.5 Molecular Polarizability and Electric Susceptibility 152 4.6 Models for the Molecular Polarizability 155 4.7 Electrostatic Energy in Dielectric Media 158
例えば 2つの電子同士が相対論的速度vで並進している電子同士に作用する2つの力項の 1つが特殊相対論で拡張されたビオ・サバールの式になっている。(電流同志の引力になる) 簡単に言えば光速に近い速度で並進する電子同士の同じ電荷の反発力はゼロに近づく。 v << c 速度ではビオ・サバールの式と等価になるから、ビオ・サバールの法則は近似式であり、 電流素も物理的に意味が有るのが解る。 0238ご冗談でしょう?名無しさん2020/12/15(火) 16:59:04.08ID:??? 粒子加速器でピンポイントで当てる超高エネルギーの電子ビームが作れる理由。 0239ご冗談でしょう?名無しさん2020/12/15(火) 17:23:05.97ID:???>>236 >そんなもん実在せぇひんわ しぃひん せぇへん 0240ご冗談でしょう?名無しさん2020/12/15(火) 17:34:21.32ID:???>>230 勉強したくない人にとっては縋れる言い訳だな 0241ご冗談でしょう?名無しさん2020/12/15(火) 17:56:23.35ID:k3EiphOm>>236 でも実在する何かがある、と思いたくなる法則でしょ。仮想的なものを積み上げたらちゃんと磁場が計算できるんなら。 0242ご冗談でしょう?名無しさん2020/12/15(火) 18:40:46.59ID:E7FLRfon 「くっそぉ、俺の意図に反してマトモなスレになってやがる…」 遅まきながら>>1 乙 0243ご冗談でしょう?名無しさん2020/12/15(火) 23:48:35.64ID:???>>229 ゲージ原理は正解だが 変分原理は物理学の枠組みのようなものなのだからこれを信仰というと物理自体を信仰というのと変わらん 0244ご冗談でしょう?名無しさん2020/12/16(水) 00:30:06.36ID:x5CMOPGj>>232 Chapter 5 Magnetostatis 168 5.1 Introductions and Definitions 168 5.2 Biot and Savart Law 169 5.3 The Differential Equations of Magnetostatis and Ampe're's Low 173 5.4 Vector Potential 175 5.5 Vector Potential a Magnetic Induction for a Circular Current Loop 177 5.6 Magnetic Fields of Localized Current Distribution , Magnetic Moment 180 5.7 Force and Torque on and Energy of a Localized Current Distribution in an External Magnetic Induction 184 5.8 Macroscopic Equations , Boundary Conditions on B and H 187 5.9 Methods of Solving Boundary-Value Problems in Magnetostatis 191 5.10 Uniformly Magnetized Sphere 194 5.11 Magnetized Sphere in an External Field, Parmanent Magnetis 197 5.12 Magnetic Shielding , Spherical Shell of Permeable Material in a Uniform Field 199 5.13 Effect of Circular Hole in a Perfectly Conducting Plane with an Asymptotically Uniform Tangential Magnetic Field on One Side 201
Refferences and Suggested Reading 204
疲れた、寝る。何だかとても眠いんだ、トリエラ… 0245ご冗談でしょう?名無しさん2020/12/16(水) 00:33:57.64ID:x5CMOPGj>>231 びよ〜ん鯖まで名前が出てて、何故 相対論との密接な関係には言及しないの? 0246ご冗談でしょう?名無しさん2020/12/16(水) 15:38:56.38ID:0meVTA66>>244 Chapter 6. Time Varying Fields , Maxwell Equations , Conservation Laws 6.1 Faraday's Law of Induction 210 6.2 Energy in the Magnetic Field 213 6.3 Maxwell's Displacement Current , Maxwell Equations 217 6.4 Vector and Scalar Potentials 219 6.5 Gauge Transformations , Lorentz Gauge , Coulomb Gauge 220 6.6 Green Functions for the Wave Equation 223 6.7 Derivation of the Equations of Macroscopic Electromagnetism 226 6.8 Poynting's Theorem and Conservation of Energy and Momentum for a System of Charged Particles and Electromagnetic Fields 236 6.9 Conservation Laws for Macroscopic Media 240 6.10 Poynting's Theorem for Harmonic Fields , Field Definitions of Impedance and Admittance 241 6.11 Transformation Properties of Electromagnetic Fields , and Sources under Rotations , Special Reflections , and Time Reversal 245 6.12 On the Question of Magnetic Monopoles 251 6.13 Discussion of the Dirac Quantization Conditions 254
Refferences and Suggested Reading 260
あぁ疲れた、何だかとても眠いんだ、リコ… 0247ご冗談でしょう?名無しさん2020/12/16(水) 21:51:11.99ID:???>>246 Chapter 7 Plane Electromagnetic Waves and Wave Propagation 7.1 Plane Waves in a Nonconducting Medium 269 7.2 Linear and Circular Polarization , Stokes Parameters 273 7.3 Reflection and Refraction of Electromagnetic Waves at a Plane Interface between Dielectrics 278 7.4 Polarization by Reflection and Total Internal Reflection 282 7.5 Frequency Dispersion Characteristics of Dielectrics , Conductors , and Plasmas 284 7.6 Simplified Model of Propagation in the Ionosphere and Magnetosphere 292 7.7 Waves in a Conducting or Dissipative Medium 296 7.8 Superposition of Waves in one Dimension , Group Velocity 299 7.9 Illustration of the Spreading of Pulse as It Propagates in a Dispersive Medium 303 7.10 Causality in the Connection Between and , Kramers-Kronig Relations 306 7.11 Arrival of Signal After Propagation Through a Dispersive Medium 313
Refferences and Suggested Reading 326 あー疲れた、でもまだ寝ないよ、さやか!ボクは不死身だからね! 0248ご冗談でしょう?名無しさん2020/12/16(水) 22:15:42.83ID:qNm7dnOM 磁場回転始点 0249ご冗談でしょう?名無しさん2020/12/17(木) 19:26:03.40ID:30gZTtkk>>247 Chapter 8 Wave Guides and Resonant Cavities 334 8.1 Fields at the Surface of and within a Conductor 335 8.2 Cylindrical Cavities and Wave Guides 339 8.3 Wave Guides 343 8.4 Modes in a Rectanglear Wave Guide 345 8.5 Energy Flow and Attenuation in Wave Guides 346 8.6 Perturbation of Boundary Conditions 350 8.7 Resonant Cavitiy 353 8.8 Power Loss in a Cavity : Q of a Cavity 356 8.9 Earth and Ionosphere as Resonant Cavity: Schumann Resonances 360 8.10 Dielectric Wave Guides 364 8.11 Expantion in Normal Modes , Fields Generated by a Localized Source in Guide 369 8.12 Reflection and Transmission by Plane Diaphragms , Variational Approximation 375 8.13 Impedance of a Flat Strip Parallel to the Electric Field in a Rectanglar Wave Guide 380
Refferences and Suggested Readings 384
よ〜し、慣れてきたからまだまだイケるぞぉ!まどか! 0250ご冗談でしょう?名無しさん2020/12/17(木) 19:31:44.02ID:??? 目次打ち込んで何の意味があるのかね。 知障の行動はさっぱり分からんな。 0251ご冗談でしょう?名無しさん2020/12/17(木) 21:41:03.87ID:1c1O3Am+>>250 今年、四国八十三箇所巡ったんだよ!w 0252ご冗談でしょう?名無しさん2020/12/17(木) 22:02:39.28ID:1c1O3Am+>>249 Chapter 9 Simple Radiating Systems , Scattering , and Diffraction 9.1 Fields and Radiation of a Localized Oscillating Source 391 9.2 Electric Dipole Fields and Radiation 394 9.3 Magnetic Dipole and Electric Quadrupole Fields 397 9.4 Center-Fed Linear Antenna 401 9.5 Multipole Expantion for Localized Source of Aperture in Wave Guide 405 9.6 Scattering at Long Wavelengths 411 9.7 Perturbation Theory of Scattering , Rayleigh's Expantion of the Blue Sky , Scattering by Gases and Liquids 418 9.8 Scalar Diffraction Theory 427 9.9 Vector Equivalents of Kirchhoff Integral 432 9.10 Vectorial Diffraction Theory 435 9.11 Babinet's Principle of Commplementary Screens 438 9.12 Diffraction by a Circular-Aperture , Remarks on Small Apertures 441 9.13 Scattering in the Short -Wavelength Limit 447 9.14 Optical Theorem and Related Matters 453
Refferences and Suggested Reading 459
よし!(ヘルメット猫) 0253ご冗談でしょう?名無しさん2020/12/18(金) 18:41:31.02ID:EFmOX3Gf>>252 Chapter 10. Optical Theorem and Related Matters 453 10.1 Introduction and Definitions 469 10.2 Magnetohydrodynamics Equations 471 10.3 Magnetic Diffusion , Viscosity , and Pressure 472 10.4 Magnetohydrodynamic Flow between Boundaries with Crossed Electric and Magnetic Fields 475 10.5 Pinch Effect 479 10.6 Instabilities in a Pinched Plasma Column 482 10.7 Magnetohydrodynamic Waves 485 10.8 Plasma Oscillations 10.9 Short-Wavelength Limits for Plasma Oscillations and the Debyes Screening Distance 494
Refferences and Suggested Reading 497 0254ご冗談でしょう?名無しさん2020/12/18(金) 21:39:40.37ID:EFmOX3Gf>>253 Chapter 11 Special Theory of Relativity 503 11.1 The Situation before 1900 , Einstein's Two Postulats 504 11.2 Some Recent Experiments 507 11.3 Lorentz Transformations and Basic Kinematic Results of Special Relativity 515 11.4 Addition of Velocities , Four-Velocity 522 11.5 Relativistic Momentum and Energy of a Particle 525 11.6 Mathematical Properties of the Space-Time of Special Relativity 532 11.7 Matrix Representations of Lorentz Transformations , Infinitesimal Generators 536 11.8 Thomas Precession 541 11.9 Invariance of Electric Charge , Covariance of Electrodynamics 547 11.10 Transformation of Electromagnetic Fields 552 11.11 Relativistic Equation of Matrix for Spin in Uniform or slowly Varying External Fields 556 11.12 Note on Notation and Units in Relativistic Kinematics 560
Refferences and Suggested Reading 561
ふーーー、やっと相対論にたどり着けたな、キュウベェ! 0255ご冗談でしょう?名無しさん2020/12/19(土) 00:18:10.20ID:urcRtSoM>>254 Chapter 12 Dynamics of Relativistic Particles and Electromagnetic Fields 571 12.1 Lagrangian and Hamiltonian for a Relativistic Charged Particle in External Electromagnetic Fields 572 12.2 On the Question of Obtaining the Magnetic Field , Magnetic Fource , and the Maxwell Equations from Coulomb's Law and Special Relativity 578 12.3 Motion in a Uniform , Static , Magnetic Field 581 12.4 Motion in Combined , Uniform , Static Electric and Magnetic Fields 582 12.5 Particle Drifts in Nonuniform , Static Magnetic Fields 584 12.6 Adiabatic Invariance of Flux through Orbit of Particles 588 12.7 Lowest-Order Relativistic Corrections to the Lagrangian for Interacting Charged Particles , the Darwin Lagrangian 593 12.8 Lagrangian for the Electromagnetic Field 585 12.9 Proca Lagrangian , Photon Mass Effects 597 12.10 Canonical and Symmetric Stress Tensors , Conservation Laws 601 12.11 Solution of the Wave Equation in Covariant Form , Invariant Green Functions 608
137ご冗談でしょう?名無しさん2020/04/15(水) 21:02:54.66ID:??? 意訳:解けません 0262ご冗談でしょう?名無しさん2020/12/20(日) 19:49:22.99ID:OAyPmfPi>>255 Chapter 13 Collisions between Charged Particles , Energy Loss , and Scattering 618 13.1 Energy Transfer in a Coulomb Collision 619 13.2 Energy Transfer to a Harmonically Bound Charge 623 13.3 Classical and Quantum-Mechanical Energy-Loss Foemulas 626 13.4 Density Effect in Collision Energy Loss 632 13.5 Cherenkov Radiation 638 13.6 Energy Loss in an Electronic Plasma 641 13.7 Elastic Scattering of Fast Particles by Atom 643 13.8 Mean Square Angle of Scattering and the Angular Distribution of Multiple Scattering 647
Refferences and Suggested Reading 651
日本の鉄道マソは優秀やぁ〜 !w 0263ご冗談でしょう?名無しさん2020/12/20(日) 19:51:10.21ID:OAyPmfPi>>261 おまん、そこまで暇もて余してるんなら、 「荒れる量子力学」スレ立てとけや!www あと、「荒れる熱力学」もなw 0264ご冗談でしょう?名無しさん2020/12/21(月) 01:43:03.93ID:??? 一番暇な奴が何を言ってんだww 0265ご冗談でしょう?名無しさん2020/12/21(月) 16:45:47.34ID:???>>262 Chapter 14 Radiation By Moving Charges 654 14.1 Li'enard-Wiechert Potentials and Fields for a Point Charge 654 14.2 Total Power Radiated by an Accelerated Charge-Larmor's Formula and Its Relativistic Generalization 658 14.3 Angular Distribution of Radiation Emited by an Accelerated Charge 662 14.4 Radiation Emitted by a Charge in Arbitrary , Extremely Relativistic Motion 665 14.5 Distribution in Frequency and Angle of Energy Radiated by Accelerated Charges 668 14.6 Frequency Spectrum of Radiation Emitted by a Relativistic Charged Particles in Instantaneously Circular Motion 672 14.7 Thomson Scattering of Radiation 679 14.8 Scattering of Radiation Quasi-Free Charges , Coherent and Incoherent Scattering 683 14.9 Transition Radiation 685
Refferences and Suggested Reading 693
なんかもぉやめたくなってきた…w 0266ご冗談でしょう?名無しさん2020/12/21(月) 21:36:09.76ID:??? つまんないからもう書かなくていいよ 0267ご冗談でしょう?名無しさん2020/12/21(月) 21:51:22.26ID:U2fit6jc>>265 Chapter 15 Bremsstrahlung , Method of Virtual Quanta , Relative Beta Processs 701 15.1 Radiation Emitted during Collisions 702 15.2 Bremsstrahlung in Coulomb Collisions 708 15.3 Screening Effects : Relativistic Energy Loss 715 15.4 Weizsacker - Williams Method of Virtual- Quanta 719 15.5 Bremsstrahlung as a Scattering of Virtual Quanta724 15.6 Radiation Emitted During Beta Decay 725 15.7 Radiation Emitted During Orbittal-Electron Caputure-Disapperarance of Charge and Magnetic Moment 727
Refferences and Suggested Reading 733
悲しいなあ、もうすぐゴールだ…けけけけけ!w 0268ご冗談でしょう?名無しさん2020/12/21(月) 21:54:48.71ID:??? 別に喧嘩ふっかけるわけじゃなし 無害だから問題ない 0269ご冗談でしょう?名無しさん2020/12/22(火) 02:05:45.02ID:ZxpDB+Ol>>267 Chapter 16 Multiple Fields 16.1 Basic Spherecal Wave Solutions of the Scalar Wave Equation 739 16.2 Multiple Expantion of the Electromagnetic Fields 744 16.3 Properties of Multipole Fields , Energy and Angular Momentum of Multipole Radiations 747 16.4 Angular Distribution of Multipole Radiation 752 16.5 Sources of Multipole Radiation, Multipole Moments 755 16.6 Multipole Radiation in Atomic and Nuclear Systems 758 16.7 Radiation from a Linear , Center-Fed Antenna 763 16.8 Spherecal Wave Expantion of a Vector Plane Wave 767 16.9 Scattering of Electromagnetic Waves by a Sphere 769 16.10 Boundary- Value Problem with Multipole Fields Problems 775
Refferences and Suggested Reading 776
あ〜と1章!あ〜といっしょお! 0270ご冗談でしょう?名無しさん2020/12/22(火) 02:07:06.15ID:ZxpDB+Ol>>268 でも、けけけけけ!は流石にキモいわ…w 0271ご冗談でしょう?名無しさん2020/12/22(火) 20:30:59.73ID:bCJXR2WQ>>269 Chapter 17 Radiation Damping , Self- Fields of a Particle , Scattering and Absorption of Radiation, by a Bound System 17.1 Introductry Conciderations 780 17.2 Radiative Reaction Force from Conservation of Energy 783 17.3 Abraham -Lorentz Evaluation of the Self-Force 786 17.4 Difficulties with the Abraham-Lorentz Model 790 17.5 Covariant Definitions of Electromagnetic Energy and Momentum 791 17.6 Integrodifferential Equation of Motion , Including Radiation Damping 796 17.7 Line Breadth and Level Shift of an Oscillator 798 17.8 Scattering and Absorption of Radiation by an Oscillator 801
Refferences and Suggested Reading 806 Problems 17.1 807 -