Physics > Electromagnetics: Page 3

Three charged particles on x-axis Three charged particles on x-axis Three charged particles on x-axis Two identical conducting spheres separated by some distance Two identical spheres separated by some distance Two conducting spheres: positive charge; separated by distance One of two spheres: negative charge transferred through grounding wire Two conducting spheres ; one neutral after negative charge; Identical equally charged isolated conducting spheres Two charged spheres: third sphere: insulated handle: touches sphere 1 Two charged spheres: third sphere: insulating handle touches sphere 2 Two charged spheres: third sphere with insulating handle removed Four charged particles in a square arrangement Three charged particles lying on a straight line Two identical tiny balls hanging from nonconducting threads Two charged particles on an axis Two charged particles on an axis Two charged particles on an axis Two charged particles on an axis Two charged particles on an axis Two rings of charged particles surrounding a central charged particle Arrangement of charged particles Arrangement of charged particles Arrangement of charged particles Arrangement of charged particles Arrangement of charged particles Three charged particles in xy plane Three charged particles in xy plane Three charged particles in xy plane Arrangement involving pivoted rod, charges and a block Cesium chloride crystal structure Short bar magnet: magnetic field lines Spin orientations for an electron in a magnetic field Plots of potential energies vs magnetic field strength for an electron Electron oribiting within a magnetic field: loop model Electron oribiting within a magnetic field: loop model Electron oribiting within a magnetic field: loop model Magnetic dipoles in a diamagnetic material Magnetic dipoles in diamagnetic material Magnetic dipoles in a diamagnetic material Electric field vector and an induced magnetic field line Electric field vector and an induced magnetic field line Parallel plate capacitor and connected wire Capacitor with circular plates Magnetic field variation with distance from wire and the gap LC circuit with bar graph of stored magnetic and electrical energy Single cycle of oscillation of LC circuit Single cycle of oscillation of LC circuit Single cycle of oscillation of LC circuit Single cycle of oscillation of LC circuit
 

Click here to return to the library.


Click here to return to the main page.

© 2007 View International Foundation. All rights reserved.