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Demonstrations 161 - 180 of 190
Charged Particle in a Constant Electric Field Produced by Two Plates
Polarization of an Optical Wave through Polarizers and Wave Plates
Interaction at a Distance: The Radiation Model
Electric Potential of a Metallic Cylinder Surrounded by a Dielectric in an External Static Electric Field
Reading Hertz's Own Dipole Theory
Designing Optical Systems
Magnetic Flux through a Loop of Wire
Dipole Fields Are Complicated
Square Helmholtz Coils
Propagation of a Plane Electromagnetic Wave
Induced EMF through a Wire
Faraday Disk Dynamo
Energy Density of a Particle Moving at Uniform Speed
Energy Density of a Magnetic Dipole
Eigenfunctions of the Helmholtz Equation in a Right Triangle
Energy Density of an Electrostatic Dipole
Variable States of Polarization Incident on a Wave Plate
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