Lecture notes Lecture 37: Standing waves, overtones, sound, musical instrument and other fun activities. sample final, see Final by Prof. Armstrong.As the rule of the thumb this is usually the last section of a particular chapter. Notable omissions: drag forces, terminal velocity, viscosity and turbulence, rocket motion, potential energy and stability, stress, strain, elastic modulus, elasticity and plasticity, Einstein’s theory of gravity, and energy sources. We will cover everything which was discussed at lecture time, except material of chapter 16 (Waves) and 17 (Sound). Tuesday December 13th at 9am, in the same room as our lectures.Tutoring is also available at Swem Library in the TutorZone for $15/hour.Society of Physics Students free tutoring: Thursday Small 122 6pm - 8pm.Thursday 8:30am - 9:20am Small 233 (Prof. Armstrong).Wednesday 3:30pm - 4:30pm Small 233 (Prof. Armstrong).Tentative schedule and reading assignments Problem sections Lecture 05: Newton’s laws, mass, weight.Lecture 06: Common forces, applications of Newton’s laws.Lecture 07: Friction and normal forces, applications of Newton’s laws. Lecture 08: Be careful with friction, pulleys, drag force.Lecture 09: Uniform circular motion, centripetal force.Lecture 10: Work of a force, work and kinetic energy connection, and potential energy of gravitational force.Lecture 11: kinetic and potential energy, energy conservation, power.Lecture 12: Energy conservation, power requirement, energy sources, demos.Universal law of gravitation, mass of Earth, scale reading correction due to Earth rotation Potential energy of gravitation, circular orbits, 3rd Kepler’s law, escape velocity Lecture 14: Gravitational pull inside spherical body.Lecture 16: Linear momentum and impulse, Linear momentum conservation, elastic and inelastic collisions.Lecture 17: Linear momentum conservation in 1D.Lecture 18: Linear momentum conservation in 3D, center of mass.Lecture 19: Polar coordinates, vector product, angular velocity and acceleration.Lecture 20: Kinetic energy in rotational frame, moment of inertia, Cartesian and rotational frames similarities.Lecture 21: Moment of inertia, center of mass, parallel-axis theorem, torque.Lecture 22: Torque, angular momentum, change of angular momentum connection to torque.Lecture 23: Tops, gyroscope, precession.Lecture 25: Static equilibrium (continued), why humans have bones.Lecture 26: Ultimate strain or strength of materials.Lecture 30: Buoyancy and Bernoulli’s equation, viscosity.Lecture 32: Oscillators, simple harmonic motion.Lecture 33: Oscillators, physical pendulums.Lecture 34: Oscillators, energy of oscillation, damped oscillators.Lecture 35: Damped and forced/driven oscillations.
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