• Center of Mass
• Systems
• Newton's Laws of Motion
• Circular Motion
• Gravitation

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• Work-Energy Theorem
• Forces and Potential Energy
• Conservation of Energy
• Power

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• Impulse and Momentum
• Conservation of Linear Momentum, Collisions

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• Torque and Rotational Statics
• Rotational Kinematics
• Rotational Dynamics and Energy and Newton's Second Law in Rotational Form

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• Rotational Kinetic Energy
• Angular Momentum
• Rolling
• Orbits

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• Periodic Motion
• Pendulums
• Physical Pendulums

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• Coulomb's Law
• Electric fields due to point charges or combinations of charges
• Electric Flux and Gauss' Law
• Electric fields of charge distributions

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• Electric potential
• Electric potential due to point charges and uniform fields
• Electric potential due to configurations of charge
• Energy conservation when electric charges interact with each other or electric fields

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• Electrostatics with conductors
• Capacitors
• Dielectrics

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• Current and resistance
• Current, resistance, and power
• Steady-state direct-current circuits with batteries and resistors only
• Gauss' Law

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• Forces on moving charges in magnetic fields
• Forces on current carrying wires in magnetic fields
• Fields of long current carrying wires
• The Biot-Savart Law and Ampère’s Law

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• Electromagnetic induction (including Faraday’s Law and Lenz’s Law)
• Inductance (including LR circuits)

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