## Introduction to theoretical physics, classical mechanics, and electrodynamics |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Common terms and phrases

amplitude angle angular momentum aperture approximation arbitrary assume axis becomes bound charge boundary conditions bounding surface calculate center of mass coefficients components conductor conservative const constant constraint corresponding curve define dielectric differential equation diffraction dipole direction discuss displacement distance dt dt dx dy dy dz electric field electromagnetic electron equal equations of motion equilibrium example expression fixed fluid function given hence illustrated in Fig incident inertia integral intensity involved kinetic energy Lagrange's equations Lagrangian Laplace's equation linear magnetic magnitude maximum Maxwell's equations medium normal coordinates normal frequencies normal modes obtain parallel particle path perpendicular plane wave polarized position potential energy principal axes problem propagation properties quantity refraction region result rigid body rotation satisfy scalar shown in Fig slit solution solve sphere substitute tangential components theorem vector volume wavelength weighted string write written zero