AP Free Response Question
2004 B3
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Topic Formulas
Description
Published Formula
capacitors in parallel
capacitors in series
electric current
Faraday's Law
Joule's Law
magnetic field around a current-carrying wire
magnetic flux
magnetic force on a current-carrying wire
magnetic force on a moving charge
motional emf
Ohm's Law
resistance in parallel
resistance in series
resistivity
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Filaments
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Induced EMF
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Inductors
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Introduction to Magnetism
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Maxwell's Equations
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Review:
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Drill: Induction
Worksheet:
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DC Currents
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Electric Power
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Induction
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Magnetism
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Ohm's Law
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Parallel Circuits
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Power Production
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Power Transmission
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RIVP Charts #1
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RIVP Charts #2
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Series Circuits
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Transformers
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Bar Magnets
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Brightness
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Induction Coils
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Light and Heat
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Magnetic Forces
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Meters and Motors
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Parallel Circuit
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Series Circuits
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Shock!
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Capacitors - Connected/Disconnected Batteries
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Combinations of Capacitors
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Induced emf
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Introduction to R | I | V | P Charts
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Kirchhoff's Laws: DC Circuits with Capacitors
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Kirchhoff's Laws: Sample Circuit
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Magnetic Forces on Current-Carrying Wires
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Magnetic Forces on Moving Charges
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Practice with Ampere's Law
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Practice with Induced Currents (Changing Areas)
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Practice with Induced Currents (Constant Area)
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Resistance, Wattage, and Brightness
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34A: Electric Current
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35A: Series and Parallel
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36A: Magnets, Magnetic Fields, Particles
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36B: Current Carrying Wires
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Advanced Capacitors
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Basic Capacitors
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Basic DC Circuits
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Exercises on Current Carrying Wires
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Multiple-Battery Circuits
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Textbook Set #6: Circuits with Multiple Batteries
CB-ETS
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