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Review Lecture: Phy212

Review Lecture: Phy212. Chapter 26. Coulomb’s Law Field and force, field by point charge. Chapter 27. Principle of linear superposition Field by a continuous distribution of charges Dipole in electric field. Chapter 28. Gauss’ law Using Gauss’ law to calculate field

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Review Lecture: Phy212

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  1. Review Lecture: Phy212

  2. Chapter 26 • Coulomb’s Law • Field and force, • field by point charge

  3. Chapter 27 • Principle of linear superposition • Field by a continuous distribution of charges • Dipole in electric field

  4. Chapter 28 • Gauss’ law • Using Gauss’ law to calculate field • Conductor in electrostatic equilibrium

  5. Chapter 29 • Electric potential • Potential by continuous charge distribution • Potential energy and energy conservation

  6. Chapter 30 • Connection between field and potential • Field lines and equi-potential surfaces • Conductor in equilibrium again • Capacitor and capacitor combinations • Electric field energy

  7. Chapter 31 • Current, current density • Kirchhoff’s laws • Drift velocity, resistivity, and conductivity

  8. Chapter 32 • Kirchhoff’s Laws • Ohm’s Law • Energy dissipation by circuits • Resistor combinations • RC circuits • Finally how to solve circuit problems!

  9. Chapter 33 • Biot-Savart Law • Ampere’s law • Magnetic field by current line, solenoid, dipole • Magnetic force on point charge and current • Motion of charge in magnetic field • Magnetic dipole in field • Force between current lines and current loops

  10. Chapter 34 • Faraday’s law and lenz’s law • Motional EMF and induced electric field • Inductance and inductor • Magnetic field energy • LC circuit and LR circuit

  11. Chapter 35 • Induced magnetic field and displacement current • Ampere-Maxwell law • All four Maxwell equations • Electromagnetic waves • Polarizations and radiation pressure • Intensity, Poynting vector

  12. Chapter 36 • AC circuits • Reactance • Phases and power

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