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Transcript
Topics covered in PH112 Angular position, displacement, velocity, and acceleration Equations of motion in terms of angular variables Linear and angular variables Rotational kinetic energy and rotational inertia Parallel-axis theorem Torque, moment arm, line of action of F Newton’s second law in angular form Work and rotational kinetic energy Rolling bodies, KE in terms of center of mass Angular momentum of a system of particles, and of a rigid body Conservation of angular momentum Simple harmonic motion: frequency, period, amplitude, angular frequency, wave number, phase. Velocity and acceleration amplitudes Linear oscillator Energy Pendula Transverse and longitudinal waves Equation of a traveling wave Wave speed on a stretched string Power Superposition of waves Interference of waves Standing waves and resonance Electric field and field lines E due to a system of point charges and a continuous charge distribution F = qE Dipole, and dipole in the presence of E (torque, and PE) Gauss’s Law (optional) Electric flux Application of G’s Law to find the E due to a line charge, a spherical charge and a cylindrical distribution of charge (optional) E inside a conductor Electric potential energy, U Electric potential, V Work done by electric field Finding V from E Finding E from V Finding V for a group of charges and a continuous distribution of charges Capacitors, and capacitance Finding C for different capacitors Capacitors in parallel and series Potential energy stored in a capacitor Capacitors and dielectrics Electric current Current density, drift velocity, charge carriers Resistance and resistivity Ohm’s Law Power Emf Kirchhoff’s Laws Resistances in series and parallel Multiple loop circuits RC Circuits (charging and discharging a capacitor, behavior of V, q, and I as a function of time in the two cases). Electromagnetic radiation: Origin of EM radiation and the broad form of the spectrum Definition and examples of black body radiation, Wien’s and Stefan’s Laws, Planck’s solution for blackbody radiation Electromagnetic waves as particlaes: Photoelectric Effect and Compton Scattering. Particles as Waves, interference, wavelength of a particle Uncertainty Principle, brief description of tunneling, quantization of energy
