Tahun Akademik:
Genap 2021/2022
Kelas-Offr:
AC-AC
Deskripsi:
Electric Field: 1. Application and principle of superposition, 2. Application of Gauss’s law in integral form, 3. Application of Gauss’s law in differential form. Electric Potential: 1. Scalar potential, 2. Poisson’s equation and Laplace’s equation, 3. Potential for some simple charge distribution. Electric Concuction and Perfect in Electro-Quasistatic: 1. Boundary condition of electric field, 2. Electric conduction in mater, 3. Concept of perfect metal, 4. Electroquasistatic problem with perfect metal, 5. Method of images. Capacitors: 1. Capacitance, 2. Capacitance for some simple structures, 3. Some simple solutions to the Laplace equation. Polarization: 1. Polarization of materials, 2. Mathematical Polarization, 3 Dielectric permitivity, 4. Conductors vs. Dielectrics. Boundary condition Problem: How to solve the boundary condition problem. Magnetic fields: 1. Basic magnetoquasistatic equations, 2. Potential vectors, 3. Poisson vector equations, 4. Biot-Savart law, 5. Magnetic fields of elements carrying currents, 6. Magnetic dipoles. Perfect Metals in Magnetism and Inductance: 1. Vector Potential Characteristics, 2. Magnetic field boundary conditions, 3. Magnetic field as a function of time in perfect metal, 4. Image current and diffusion field, 5. Inductance. Electromagnetic Induction: 1. Faraday's Law, 2. Non-uniqueness of the voltage in magnetoquasistatics, 3. Electromagnetic energy and power flow, 4. Electromagnetic energy stored in capacitors and inductors. Energy, Power, and Work in Electro- and Magneto-Quasistatistics: 1. Relationship between energy, power, and work in electro- and magneto-quasistatistics. Maxwell's equation: 1. Maxwell's equations in differential and integral forms, 2. Electrostatic and Magnetostatic, 3. Electroquasistatics and magnetoquasistatics. Electromagnetic waves: 1. Electromagnetic waves in vacuum, 2. Solution of uniform field electromagnetic wave equations, 3. Energy and power of electromagnetic waves. Electromagnetic Waves in Linear Materials, Harmonic Fields of Time: 1. Mathematical Harmonic Fields, 2. Maxwell’s equation of harmonic field, 3. Poynting vector complex.
Capaian Pembelajaran
  • Menguasai konsep esensial dan komprehensif kelistrikan dan kemagnetan dan menerapkannya untuk menyelesaikan permasalahan terkait secara tepat, sistematis, mandiri, bertanggung jawab dan selaras dengan perkembangan ipteks serta menjadi bekal perencanaan, pelaksanaan, dan penilaian pembelajaran fisika sekolah.
Daftar Pustaka:
  • Arif Hidayat, Diktat Kuliah LISTRIK MAGNET, Jurusan Fisika FMIPA UM, 2016
  • Arif Hidayat, Elektromagnetika, Penerbit Universitas Negeri Malang, 2014
  • David J. Griffiths, Introduction to Electrodynamics, Prentice Hall of India.