Waves, Fourier Anaylsis, Musical Acoustic,Special Relativity: (Section 2) Solve more advanced problems and answer conceptual questions in wave analysis, including calculating group and phases velocities, solving for Fourier coefficients of periodic functions, and frequencies of notes in the equal temperament musical scale.Special Relativity, Quantum Mechanics, and Nuclear Physics: (Section 1) Solve problems and answer conceptual questions in basic modern physics including special relativity, and quantum mechanics and nuclear physics.Imaging with Optics and Optical Systems: Find the location and magnification of images in single- and multiple-lens/mirror systems by calculation and by ray tracing, and be able to work general problems in optics using Snell's law and specular reflection.Physics of Waves: Solve problems and answer conceptual questions involving waves, using concepts such as wave speed, wavelength, frequency, superposition, beats, and resonance.Determine heat flow and temperatures in systems in steady state. Temperature, Pressure, Entropy, and Volume for Ideal Gases: Answer conceptual questions and calculate changes in temperature, pressure, entropy and volume for quasistatic ideal gas processes and be able to determine work done and efficiency for gas engines, heat pumps, and refrigerators.Fluid States: Solve problems and answer conceptual questions using the basics of fluid statics and dynamics, including Bernoulli's principle and Pascal's law.Waves, thermal physics, optics, special relativity, and introduction to modern physics.Scientific Process: Demonstrate an understanding of the basic scientific principles that undergird the scientific process, including the strengths and weaknesses of this process.Energy and Momentum: Use the ideas of energy, work, power, linear momentum, impulse, and angular momentum to arrive at conclusions about the motion of a system, including systems in which collisions occur.Also use Newton's inverse-square law of gravity to calculate how objects move. Newton's Second Law: Use Newton's Second Law to calculate the motion of objects, both in translation and rotation, and also those in simple harmonic motion, as well as the forces and torques acting on systems in equilibrium.Compute a particle's classical translational motion in one or two dimensions, including circular motion, both in Cartesian coordinates and in polar coordinates. #Calculus for physics 101 how to#Understand what time derivatives mean and how to estimate time derivatives from the information in these diagrams.
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