Physics 104 Final Review Sheet electric charge, field, vectors, potential, potential energy, work to bring charges close Capacitance, energy storage, circuit element rules current, resistors, power making magnetic field, field near current carrying wire magnetic force on moving charges and currents, directions and magnitudes, particle orbit in uniform field electromagnetic induction, Faraday and Lenz, electric generator inductors (circuit element rules, energy storage), AC circuits, series LRC circuit and resonance maxwell's equations and EM waves, basic features light, reflection and refraction, relation between frequency and wavelength, index of refraction lenses, ray diagrams, 1/p + 1/q = 1/f, power in diopters, image sizes wave nature of light, interference polarization relativity: postulates, moving clocks, moving lengths, can't accelerate past c, E = mc^2 quantum beginnings: black body radiation, photoelectric effect, Compton scattering, x-ray tube, characteristic x-rays, particle nature of light, photons atoms: spectra, energy levels, DeBroglie wavelength, Bohr model (electrical force, centripetal force, wavelengths in orbit, energy levels), wave functions, putting waves into boxes and the KE they have to have to be there nuclei: size, atomic number and weight, composition, Coulomb energy, binding energy, effects of energy terms on mass, decay types, stability and instability ======================================================================= Problems Involve Relation between voltage, electric field, and distance between equipotentials Force on charge in electric field X-ray tube, KE --> hf(max) = hc/lambda(min) Conditions for interference Lenses (single) including image size and characteristics, ray diagrams, location of image AC circuit, Xc, Xl, Z or LRC, resonance, relation between Vrms, Irms and Z, voltages across individual elements Potential near point charge and potential energy of point charge at V, work required to bring two charges close together DeBroglie wavelength and associated momentum and kinetic energy of particle DC circuit, battery with bunch of resistors, effective total resistance, Kirchhoff's laws Ideas and physics behind Bohr theory of hydrogen atom Effect of binding energy on mass of nucleus Relation between atomic energy levels of atomic spectra + 38 multiple choice questions (total of 8 pages)