<p>Yes, I procrastinated self studying the hardest self study ever. Yes, I'm pretty unmotivated. However, I only need a 4 on both exams. I'd really like to do this!</p>
<p>Basically these are all the lectures for Mechanics and E&M from MIT's open courseware. Can someone who took the exam tell me the bare minimum needed to fully cover both courses? I see some fluid stuff and wave stuff here that doesn't seem to apply to AP Physics C. </p>
<p>I would really appreciate it! </p>
<p>Lecture 01: Powers of Ten - Units - Dimensions - Measurements - Uncertainties - Dimensional Analysis - Scaling Arguments<br>
Lecture 02: 1D Kinematics - Speed - Velocity - Acceleration
Lecture 03: Vectors - Dot Products - Cross Products - 3D Kinematics
Lecture 04: 3D Kinematics - Free Falling Reference Frames<br>
Lecture 05: Circular Motion - Centrifuges Moving - Reference Frames - Perceived Gravity
Lecture 06: Newton's Laws<br>
Lecture 07: Weight - Perceived Gravity - Weightlessness Free Fall - Zero Gravity in Orbit (misnomer)<br>
Lecture 08: Friction<br>
Lecture 09: Exam Review
Lecture 10: Hooke's Law - Springs - Simple Harmonic Motion - Pendulum - Small Angle Approximation<br>
Lecture 11: Work - Kinetic Energy - Potential Energy - Conservative Forces - Conservation of Mechanical Energy - Newton's Law of Universal Gravitation
Lecture 12: Non-Conservative Forces - Resistive Forces - Air Drag - Terminal Velocity<br>
Lecture 13: Potential Energy - Energy Considerations to Derive Simple Harmonic Motion<br>
Lecture 14: Escape Velocities - Bound and Unbound Orbits - Circular Orbits - Various Forms of Energy - Power<br>
Lecture 15: Momentum - Conservation of Momentum - Center of Mass
Lecture 16: Collisions - Elastic and Inelastic - Center of Mass Frame of Reference<br>
Lecture 17: Impulse - Rockets<br>
Lecture 18: Exam Review 49:50<br>
Lecture 19: Rotating Rigid Bodies - Moment of Inertia - Parallel Axis and Perpendicular Axis Theorem - Rotational Kinetic Energy - Fly Wheels - Neutron Stars - Pulsars
Lecture 20: Angular Momentum - Torques - Conservation of Angular Momentum - Spinning Neutron Stars - Stellar Collapse<br>
Lecture 21: Torques - Oscillating Bodies - Hoops<br>
Lecture 22: Kepler's Laws - Elliptical Orbits - Satellites - Change of Orbits - Ham Sandwich<br>
Lecture 23: Doppler Effect - Binary Stars - Neutron Stars and Black Holes<br>
Lecture 24: Rolling Motion - Gyroscopes - VERY NON-INTUITIVE<br>
Lecture 25: Static Equilibrium - Stability - Rope Walker<br>
Lecture 26: Elasticity - Young's Modulus<br>
Lecture 27: Fluid Mechanics - Pascal's Principle - Hydrostatics - Atmospheric Pressure - Over Pressure in Lungs and Tires<br>
Lecture 28: Hydrostatics - Archimedes' Principle - Fluid Dynamics - What Makes Your Boat Float? - Bernoulli's Equation<br>
Lecture 29: Exam Review
Lecture 30: Simple Harmonic Oscillations - Energy Considerations - Torsional Pendulum<br>
Lecture 31: Forced Oscillations - Normal Modes - Resonance - Natural Frequencies - Musical Instruments<br>
Lecture 32: Heat - Thermal Expansion
Lecture 33: Kinetic Gas Theory - Ideal Gas Law - Isothermal Atmosphere - Phase Diagrams - Phase Transitions
Lecture 34: The Wonderful Quantum World - Breakdown of Classical Mechanics </p>
<p>Lecture 01: What holds our world together? Electric Charges (Historical); Polarization; Electric Force; Coulomb's Law
Lecture 02: Electric Field; Field Lines; Superposition; Inductive Charging; Dipoles; Induced Dipoles<br>
Lecture 03: Electric Flux; Gauss's Law; Examples
Lecture 04: Electrostatic Potential; Electric Energy; eV; Conservative Field; Equipotential Surfaces<br>
Lecture 05: E = -grad V; More on Equipotential Surfaces; Conductors; Electrostatic Shielding (Faraday Cage)
Lecture 06: High-Voltage Breakdown; Lightning; Sparks - St. Elmo's Fire
Lecture 07: Capacitance; Field Energy
Lecture 08: Polarization; Dielectrics; The Van de Graaff; More on Capacitors
Lecture 09: Currents; Resistivity; Ohm's Law<br>
Lecture 10: Batteries; EMF; Energy Conservation; Power; Kirchhoff's Rules; Circuits; Kelvin Water Dropper
Lecture 11: Magnetic field; Lorentz Force; Torques; Electric Motors (DC); Oscilloscope
Lecture 12: Review Exam 1 (Secret Top!)
Lecture 13: Moving Charges in B-fields; Cyclotron; Synchrotron; Mass Spectrometer; Cloud Chamber
Lecture 14: Biot-Savart Law; Gauss' Law for Magnetic Fields; Revisit the "Leyden Jar"; High-Voltage Power Lines
Lecture 15: Ampere's Law; Solenoids; Revisit the Kelvin Water Dropper; Midterm Evaluation
Lecture 16: Electromagnetic Induction; Faraday's Law; Lenz Law; Complete Breakdown of Intuition; Non-Conservative Fields
Lecture 17: Motional EMF; Dynamos; Eddy Currents; Magnetic Braking<br>
Lecture 18: Displacement Current (Difficult Concept); Synchronous Motors; Induction Motors; Secret Top, How does it work?
Lecture 19: How do Magicians levitate women? (with demo); Electric Shock Treatment (no demo); Electrocardiogram (with demo); Pacemakers; Superconductivity (with demo); Levitating Bullet Trains; Aurora Borealis<br>
Lecture 20: Inductance; RL Circuits; Magnetic Field Energy<br>
Lecture 21: Magnetic Materials; Dia-, Para-, and Ferromagnetism; Prize Ceremony of Motor Contest<br>
Lecture 22: Hysteresis; Electromagnets; Bohr Magneton; Maxwell's Equations; 600 daffodils<br>
Lecture 23: Review Exam 2<br>
Lecture 24: Transformers; Car Coils; RC Circuits<br>
Lecture 25: Driven LRC Circuits; Resonance; Metal Detectors (Beach/Airport)Lecture 26: Traveling Waves; Standing Waves; Musical Instruments
Lecture 27: Resonance; Destructive Resonance; Electromagnetic Waves; Speed of Light; Radio - TV; Distance Determinations using Radar and Lasers
Lecture 28: Index of Refraction; Poynting Vector; Oscillating Charges; Radiation Pressure; Comet Tails; Polarization (Linear, Elliptical, and Circular)Lecture 29: Snell's Law; Refraction; Total Reflection; Dispersion; Prisms; Huygens's Principle; The Illusion of Color; The Weird Benham Top; Land's Famous Demo<br>
Lecture 30: Polarizers; Malus's Law; Brewster Angle; Polarization by Reflection and Scattering; Why is the sky blue? Why are sunsets red?; The sun will set in the lecture hall!<br>
Lecture 31: Rainbows; A modest rainbow will appear in the lecture hall!; Fog Bows; Supernumerary Bows; Polarization of the Bows; Halos around the Sun and the Moon; Mock Suns<br>
Lecture 32: Review Exam 3<br>
Lecture 33: Double-Slit Interference; Interferometers<br>
Lecture 34: Gratings; Resolving Power; Single-Slit Diffraction; Angular Resolution; Human Eye; Telescopes<br>
Lecture 35: Doppler Effect; The Big Bang; Cosmology </p>
<p>Obviously some of these things don't fit. Nor do I have the time to watch all of these right now even though they're all probably fascinating. </p>
<p>I would REALLY appreciate it. Thanks for helping me in my quest :)</p>