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Lecture PowerPoint Physics for Scientists and Engineers, 3rd edition Fishbane Gasiorowicz Thornton © 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their courses and assessing student learning. Dissemination or sale of any part of this work (including on the World Wide Web) will destroy the integrity of the work and is not permitted. The work and materials from it should never be made available to students except by instructors using the accompanying text in their classes. All recipients of this work are expected to abide by these restrictions and to honor the intended pedagogical purposes and the needs of other instructors who rely on these materials. Chapter 32 Inductance and Circuit Oscillations Main Points of Chapter 32 • Inductance and Inductors • Energy in Inductors and in the Magnetic Field • RL Circuits • LC Circuits • RLC Circuits, Damped Oscillations, and Energy 32-1 Inductance and Inductors • Faraday’s Law: Changing current in a circuit will induce emf in that circuit as well as others nearby • Self-Inductance: Circuit induces emf in itself • Mutual Inductance: Circuit induces emf in second circuit 32-1 Inductance and Inductors emf induced through self-inductance: (32-2) The inductance L is a proportionality constant that depends on the geometry of the circuit 32-1 Inductance and Inductors emf induced in circuit 2 by changing currents in circuit 1, through mutual inductance: (32-5) 32-1 Inductance and Inductors (32-5) • The mutual inductance M depends only on the geometry of the two-circuit system • subscripts are omitted, as M21 = M12 32-1 Inductance and Inductors Units of inductance: Henry (32-6) Modification of Kirchhoff’s loop rule: In moving across an inductor of inductance L along (or against) the presumed direction of the current I, the potential change is ΔV = –L dI/dt (or +L dI/dt, respectively). Magnetic materials will change selfinductance by changing magnetic flux 32-2 Energy in Inductors • Work must be done to create current through inductor • This changes the energy stored in the inductor • Starting from zero current: (32-13) 32-3 Energy in Magnetic Fields The energy in a solenoid depends on the current, and therefore on the magnetic field created by the current: (32-15) giving the energy density of the magnetic field: (32-16) 32-4 Time Dependence in RL Circuits When the switch closes, the inductor keeps the current from attaining its maximum value immediately. That is when the current is changing most rapidly, and when the potential drop across the conductor is at a maximum. 32-4 Time Dependence in RL Circuits Current as a function of time: (32-19) 32-5 Oscillations in LC Circuits • Start with charged capacitor • It will discharge through inductor, and then recharge in opposite sense • If no resistance, will continue indefinitely 32-5 Oscillations in LC Circuits Charge on capacitor oscillates with frequency ω: (32-23) Charge as a function of time: (32-25) Here, Q0 is the original charge and φ sets the phase at t = 0. 32-6 Damped Oscillations in RLC Circuits Charge equation: (32-28) Solution: (32-30) where (32-31) and (32-32) 32-6 Damped Oscillations in RLC Circuits 32-6 Damped Oscillations in RLC Circuits For a certain value of R, ω′ = 0. This is called critical damping. (32-33) 32-7 Energy in LC and RLC Circuits • In a pure LC circuit, energy is transferred back and forth between the capacitor’s electric field and the inductor’s magnetic field. • Including a resistor causes I2R losses, which show up as heat. Summary of Chapter 32 • Definition of inductance: (32-1) • Induced emf: (32-2) • emf induced in a second loop: (32-5) • Energy in an inductor: (32-13) • Energy density of a magnetic field: (32-16) Summary of Chapter 32, cont. • LC circuit oscillations: (32-23) • RLC circuit oscillations: (32-30)