Transcription of Chapter 12 Alternating-Current Circuits
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Chapter 12. Alternating-Current Circuits AC Sources .. 12-2. Simple AC 12-3. Purely Resistive 12-3. Purely Inductive 12-5. Purely Capacitive 12-7. The RLC Series Circuit .. 12-9. Impedance .. 12-12. Resonance .. 12-13. Power in an AC 12-14. Width of the 12-16. Transformer .. 12-17. Parallel RLC 12-19. 12-22. Problem-Solving Tips .. 12-24. Solved Problems .. 12-26. RLC Series Circuit .. 12-26. RLC Series Circuit .. 12-27. Resonance .. 12-28. RL High-Pass 12-29. RLC Circuit .. 12-30. RL Filter .. 12-33. Conceptual Questions .. 12-35. Additional Problems .. 12-36. Reactance of a Capacitor and an Inductor .. 12-36. Driven RLC Circuit Near 12-36. RC Circuit .. 12-37. Black 12-37. Parallel RL 12-38. LC 12-39. Parallel RC Circuit .. 12-39. Power Dissipation .. 12-40. FM Antenna .. 12-40. Driven RLC Circuit .. 12-41. 12-1. Alternating-Current Circuits AC Sources In Chapter 10 we learned that changing magnetic flux can induce an emf according to Faraday's law of induction.
It()=I0 sin(ωt−φ) (12.1.2) will oscillate with the same frequency as the voltage source, with an amplitude I0 and phase φ that depends on the driving frequency. 12.2 Simple AC circuits
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