Video P1: The Direction of the Magentic Field Created by a Current-Carrying Wire and the Direction of the Magnetic Field Created by a Moving Charge Note: If you are looking for information about how capacitors behave when they charging up or discharging, that is in unit N below. You might want to pause the video each time a question is asked and try to get the answer on your own. Video L8: Dielectrics in Capacitors (part 2): Explains what is meant by the dielectric strength of a dielectric. Video L7: Dielectrics in Capactors (part 1) : Explains how placing a dielectric material between the plates of a capacitor changes the capacitance. Video L6: Capacitors Hooked Up in Parallel Video L4: Pulling the Plates of a Capacitor Apart When the Capacitor is Either Hooked Up to a Battery or Disconnected From a Battery Video L2: The Basics of Capacitance (part 2) Video J14: Gauss's Law and the Electric Field Due to a Non-Uniformly Charged Cylindrical Insulator (part 2) Video J13: Gauss's Law and the Electric Field Due to a Non-Uniformly Charged Cylindrical Insulator. Video J12: Gauss's Law and the Electric Field Due to a Non-Uniformly. Video J11: Gauss's Law and a the Electric Field Due to a Non-Uniformly Distributed Spherical Charge Density Video J10: Gauss's Law and the Electric Field Due to a Very Long and Wide Plane of Charge. Video J9: Gauss's Law and the Electric Field Due to a Very Long and Wide Slab of Charge.
Video J8: Gauss's Law and Co-Axial Cables (part 2) Video J7: Gauss's Law and Co-Axial Cables
Video J6: Gauss's Law and Concentric Spherical Shells (part 2) Video J5: Gauss's Law and Concentric Spherical Shells Video J4: Conductors in Electrostatic Equilibrium Video J3: Finding the Electric Field for a Uniormly Charged Solid Wooden Sphere.
#Ap physics how to#
This video explains how to use Gauss's law to find the electric field due a very long uniformly charged wire. This video explains the basics behind Gauss's Law. Video J1: An Introduction to Gauss's Law.
Video J intro 2: An Introduction to Electric Flux (part 2) Video J intro 1: An Introduction to Electric Flux (part 1) Video I12: Unit I Review of Electrostatics (part 3) Video I11: Unit I Review of Electrostatics (part 2) Video I10: Unit I Review of Electrostatics (part 1). Video I9: Electric Field Due to a Semi-Circular Ring of Charge Video I8.5: Electric Field Due to a Disk of Charge. Video I8: Electric Field Due to a Ring of Charge Video I7: The Electric Field Due to a Straight Uniformly Charged Wire (part 2) Video I6: The Electric Field Due to a Straight Uniformly Charged Wire Video I5: The Electric Field Due to 2 or More Charges Video I4: The Motion of Particles in a Uniform Electric Field Video I3: Force due to an Electric Field on a Point Charge, Torque due to an Electric Field on a Set of Charges, Information from Electric Field Lines Video I2: Coulomb's Law, The Principle of Superposition, and Electric Fields Video I1: Types of Charge, Polarization of Charge, and Charging by Induction Electric Charge, Electric Force, and Electric Field Solve problems of physical situations using mathematical relationships.ĭevelop an explanation or scientific argument.I. Not assessed in the multiple-choice sectionĪnalyze quantitative data represented in graphs.ĭetermine the effects on a quantity when another quantity or the physical situation changes. The AP Physics C: Electricity and Magnetism framework included in the course and exam description outlines distinct skills, called science practices, that students should practice throughout the year-skills that will help them learn to think and act like physicists.Īnalyze and/or use representations of physical situations, excluding graphs.ĭetermine scientific questions and methods.Ĭreate visual representations or models of physical situations.
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