pdf, 3.5 mb, 608 pages download : http://www.artikel-software.com/blog table of contents calculus based physics i 1 mathematical prelude 2 conservation of mechanical energy i: kinetic energy & gravitational potential energy 3 conservation of mechanical energy ii: springs, and, rotational kinetic energy 4 conservation of momentum 5 conservation of angular momentum 6 one-dimensional motion (motion along a line): definitions and mathematics 7 one-dimensional motion: the constant acceleration equations 8 one-dimensional motion: collision type ii 9 one-dimensional motion graphs 10 constant acceleration problems in two dimensions 11 relative velocity 12 gravitational force near the surface of the earth, first brush with newton�s 2nd law 13 freefall, a.k.a. projectile motion 14 newton�s laws #1: using free body diagrams 15 newton�s laws #2: kinds of forces, creating free body diagrams 16 newton�s laws #3: components, friction, ramps, pulleys, and strings 17 the universal law of gravitation 18 circular motion: centripetal acceleration 19 rotational motion variables, tangential acceleration, constant angular acceleration 20 torque & circular motion 21 vectors: the cross product & torque 22 center of mass, moment of inertia 23 statics 24 work and energy 25 potential energy, conservation of energy, power 26 impulse and momentum 27 oscillations: introduction; mass on a spring 28 oscillations: the simple pendulum, and, energy in simple harmonic motion 29 waves: characteristics, types, energy 30 wave function, interference, standing waves 31 strings and air columns 32 beats and the doppler effect 33 fluids: pressure, density, and archimedes� principle 34 pascal�s principle, the continuity equation, and bernoulli�s principle 35 temperature, internal energy, heat, and specific heat capacity 36 heat: phase changes 37 the first law of thermodynamics calculus based physics ii 1 charge & coulomb's law 2 the electric field: description and effect 3 the electric field due to one or more point charges 4 conductors and the electric field 5 work done by the electric field, and, the electric potential 6 the electric potential due to one or more point charges 7 equipotential surfaces, conductors, and voltage 8 capacitors, dielectrics, and energy in capacitors 9 electric current, emf, ohm's law 10 resistors in series and parallel; measuring i & v
11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37
resistivity, power kirchhoff�s rules, terminal voltage rc circuits capacitors in series & parallel magnetic field intro: effects magnetic field: more effects magnetic field: causes faraday's law, lenz's law induction, transformers, and generators e&m fields in motion�faraday�s law and maxwell�s extension to ampere�s law the nature of electromagnetic waves huygens� principle and 2-slit interference single-slit diffraction thin film interference polarization geometric optics, reflection refraction, dispersion, internal reflection thin lenses: ray tracing thin lenses: lens equation, optical power the electric field due to a continuous distribution of charge on a line the electric potential due to a continuous charge distribution calculating the electric field from the electric potential gauss�s law gauss�s law example gauss�s law for the magnetic field, and, ampere�s law revisited the biot-savart law maxwell�s equations