Eletrodinâmica Relativística

james-clerk-maxwell.jpg

Professora

  • Sandra Padula

Duração

  • 16 semanas

Audiência

  • Estudantes de Pós-Graduação em Física Teórica e Experimental

Matrícula

  • Os documentos podem ser encontrados aqui

Pré-requisitos Recomendados

Formato do Curso

  • Aulas, Exercícios e Provas

Livro Texto

O presente curso foi fortemente baseado no livro:

Bibliografia Suplementar

Electromagnetismo na Web

Material Protegido por Direitos Autorais

Programa do Curso

Chapter 1. The Principle of Relativity

  • 1 Velocity of propagation of interaction
  • 2 Intervals
  • 3 Proper time
  • 4 The Lorentz transformation
  • 5 Transformation of velocities
  • 6 Four-vectors
  • 7 Four-dimensional velocity

Chapter 2. Relativistic Mechanics

  • 8 The principle of least action
  • 9 Energy and momentum
  • 10 Transformation of distribution functions
  • 11 Decay of particles
  • 12 Invariant cross-section
  • 13 Elastic collisions of particles
  • 14 Angular momentum

Chapter 3. Charges in Electromagnetic Fields

  • 15 Elementary particles in the theory of relativity
  • 16 Four-potential of a field
  • 17 Equations of motion of a charge in a field
  • 18 Gauge invariance
  • 19 Constant electromagnetic field
  • 20 Motion in a constant uniform electric field
  • 21 Motion in a constant uniform magnetic field
  • 22 Motion of a charge in constant uniform electric and magnetic fields
  • 23 The electromagnetic field tensor
  • 24 Lorentz transformation of the field
  • 25 Invariants of the field

Chapter 4. The Electromagnetic Field Equations

  • 26 The first pair of Maxwell's equations
  • 27 The action function of the electromagnetic field
  • 28 The four-dimensional current vector
  • 29 The equation of continuity
  • 30 The second pair of Maxwell equations
  • 31 Energy density and energy flux
  • 32 The energy-momentum tensor
  • 33 Energy-momentum tensor of the electromagnetic field
  • 34 The virial theorem
  • 35 The energy-momentum tensor for macroscopic bodies

Chapter 5. Constant Electromagnetic Fields

  • 36 Coulomb's law 
  • 37 Electrostatic energy of charges 
  • 38 The field of a uniformly moving charge
  • 39 Motion in the Coulomb field 
  • 40 The dipole moment
  • 41 Multipole moments
  • 42 System of charges in an external field 
  • 43 Constant magnetic field 
  • 44 Magnetic moments 
  • 45 Larmor's theorem

Chapter 6. Electromagnetic Waves

  • 46 The wave equation 
  • 47 Plane waves
  • 48 Monochromatic plane waves 
  • 49 Spectral resolution 
  • 50 Partially polarized light
  • 51 The Fourier resolution of the electrostatic field 
  • 52 Characteristic vibrations of the field 

Chapter 8. The Field of Moving Charges

  • 62 The retarded potentials 
  • 63 The Lienard-Wiechert potentials 
  • 64 Spectral resolution of the retarded potentials 
  • 65 The Lagrangian to terms of second order

Chapter 9. Radiation of Electromagnetic Waves

  • 66 The field of a system of charges at large distances
  • 67 Dipole radiation 
  • 68 Dipole radiation during collisions 
  • 69 Radiation of low frequency in collisions 
  • 70 Radiation in the case of Coulomb interaction 
  • 71 Quadrupole and magnetic dipole radiation 
  • 72 The field of the radiation at near distances
  • 73 Radiation from a rapidly moving charge 
  • 74 Synchrotron radiation (magnetic bremsstrahlung) 
  • 75 Radiation damping
  • 76 Radiation damping in the relativistic case 
  • 77 Spectral resolution of the radiation in the ultrarelativistic case 
  • 78 Scattering by free charges
  • 79 Scattering of low-frequency waves
  • 80 Scattering of high-frequency waves

-- padula - 2020-08-11

Comments

Topic revision: r3 - 2020-08-27 - novaes
 

This site is powered by the TWiki collaboration platform Powered by PerlCopyright © 2008-2024 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
Ideas, requests, problems regarding TWiki? Send feedback

antalya escort bursa escort eskisehir escort istanbul escort izmir escort