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Elektromagnetika

Tahun Akademik:
Gasal 2020/2021
Kelas-Offr:
O-O
Deskripsi:

Coulomb’s Law: 1.Electric charge, 2. Conductor and Insulator, 3. Coulomb’s law, 4. Charge is quantized, 5. Charge is conserved. Electric Fields: 1.The Electric field, 2. Electric field lines, 3. The electric field due to a charged particle, 4. The electric field due to an electric dipole, 5. The electric field due to a line of charge, 6. The electric field due to a charged disk, 7. A Point Charge in an electric field, 8. A dipole in an electric field. Gauss’ Law: 1.Electric flux, 2. Gauss’ Law, 3. Gauss’ Law and Coulomb’s Law, 4. A charged Isolated conductor, 5. Applying Gauss’ Law: Cylindrical symmetry, 6. Applying Gauss’ Law: Planar Symmetry, 7. Applying Gauss’ Law: Spherical Symmetry. Electric Potential: 1.Electric potential and electric potential energy, 2. Motion through an electric field, 3. Equipotential surface, 4. Calculating the potential from the field, 5. Potential due to a charged particle, 6. Potential due to a group of charged particles, 7.Potential due to an electric dipole, 8. Potential due to a continuous charge distrbution, 9. Charged disk, 10. Calculating the field from the potential, 11.Electric potential energy of a system of charged particles, 12. Potential od a charged isolated conductor. Capacitance: 1. Capacitance, 2. Calculating the capacitance, 3. A parallel plate capacitor, 4. A cylindrical capacitor, 5. A Spherical capacitor, 6. An isolated sphere, 7. Capacitors in parallel and in series, 8. Energy stored in an electric field, 9. Capacitor with a dielectric, 10. Dielectric and Gauss’ law. Current and Resistance: 1. Electric current, 2. Current density, 3. Drift speed, 4. Resistance and resistivity, 5. Ohm’s law, 6. Power, semiconductor, superconductors. Circuits: 1. Work, energy, and emf, 3. Calculating the current in a single-loop circuit, 4. Internal resistance, 5. Resistances in series , 6. Potential difference between two points, 7. Power, 8. Multiloop circuits, 9. Resistances in parallel, 10. The ammeter and the voltmeter, 11. Rc circuits. Magnetic Fields: 1. Magnetic field and definition of B, 2. Crossed fileld: discovery of the electron, 3. Cross field: The Hall Effect, 4. A Circulating charged particle, 5. Cyclotrons and synchrotrons, 6. Magnetic force on a current-carrying wire, 7.Torque on a current loop, 8. The magnetic dipole moment. Magnetic Fields Due to Currents: 1. Magnetic field due to a current, 2. Force between two parallel currents, 3. Ampere’s law, 4. Solenoids and toroids, 5. A current carrying coil as a magnetic dipole. Induction and Inductance: 1. Faraday’s law, 2.Lenz’s law, 3. Induction and energy transfers, 4. Induced electric fields, 4. Inductors and inductance, 5. Self-induction, 6. RL Circuits, 7. Energy stored in magnetic field, 8. Energy density of a magnetic field, 9. Mutual induction. Electromagnetic Oscillation and Alternating Current: 1. LC Oscillations, 2.Damped oscillations in an RLC Circuit, 3. Forced Oscillations of three simple circuits, 4. The series RLC Circuits, 5. Power in alternating-current circuits, 6. Transformers. Maxwell’s Equation; Magnetism of Matter: 1. Gauss’ law for magnetic fields, 2. Induced magnetic field, 3. Displacement current, 4. Magnets, 5. Magnetism and electrons, 6. Orbital magnetic dipole moment, 7. Diamagnetism, 8. Paramagnetism, 9. Ferromagnetism. Electromagnetic Waves: 1. Electromagnetic Waves, 2. Energy Transport, 3. The poynting vector, 4. Radiation Pressure, 5. Polarization, 6. Reflection and refraction, 7. Total internal reflection, 8. Polarization by reflection.


Capaian Pembelajaran

  • Peserta menunjukkan penguasaan konsep Kelistrikan, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari sistem fisis tersebut.


  • Peserta menunjukkan penguasaan konsep Kemagnetan, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari sistem fisis tersebut.


  • Peserta menunjukkan penguasaan konsep Energi, Daya, dan Usaha dalam Elektromagnetika, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari sistem fisis tersebut.


  • Peserta menunjukkan penguasaan konsep Gelombang Elektromagnetika, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari sistem fisis tersebut.


Daftar Pustaka:

  • Halliday, D & Resnick, R, 2013, Fundamental of Physics 10th edition, John Wiley & Sons, Inc: USA.

  • David J. Griffiths,1999, Introduction To Electrodynamics, Prentice Hall: India.

  • Arif Hidayat, 2014, Elektromagnetika, Universitas Negeri Malang: Malang.

  •  Arif Hidayat, Diktat Kuliah LISTRIK MAGNET, Jurusan Fisika FMIPA UM, 2016

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