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 Java applets and animations: Active semiconductors Electricity Modulation-digital Passive semiconductors Audio Fourier Motor (AC) RF Audio waves Generator Motor (DC) RF - Antennas Basic circuit theory Java applets and animations Opamp animations RC-RL circuits (DC) Components Magnetics Optics RLC circuits (AC) Control Measurement Optics: Display Devices Transmission lines Digital Modulation-analog Optics: Fiber technology Waves (EMW)

Horizontaal
 Basic electricity animations and java applets - electrostatics  related subject: Animations et exercices en Geogebra Charged parallel plates electric field lines and the equipotential lines, field strength Charges and fields add terminals and "test charges" and drag things around to see how the forces change Coulomb Put an electron into orbit around a proton Cycle d'hystérésis en Français Cycle d'hystérésis en Français Déflexion électrostatique en Français Deflection of charges a charge in an electric field experiences a force that is the product of the field strength and the charge, F = qE. Here you can see the effect of an E-field on a beam of electron Deflection of charges Electric field Electric field Electric field this applet allows the user to set up a distribution of charges, upon which the applet will show the electric potential, electric field lines, and equipotential lines. In addition, the electric force will be observed through real time interaction of charges Electric field to learn more about electric fields, charges, Coulomb Electric field lines you can move the two charges by dragging them with the mouse. You can also change their magnitudes Electric field due to point charge Electric force to know how charges (such as "negative" electrons  and "positive" protons  ) cause each other to move Electric force field the concepts of electric force fields and lines of force Electricity & magnetism Electrostatics, Magnetostatics, Faraday's Law, Light, Vector Fields Electricity and magnetism aspects of electricity and magnetism Electricity and magnetism java applets Ampere's Law, the physical characteristics of electric fields, the electrostatics of a single point charge, electromagnetic oscillation, Gauss's law, Faraday's Law of electromagnetic induction, and Lenz's Law, electrical current and resistance Elektrisches Feld von zwei Ladungen Electroscope Electrostatic Potential Place charges and watch the resulting electrostatic potential distribution Electrostatics Electric field diagram for two point charges, this applet is designed to allow you to explore both the vector field diagram concept and the field line concept Field and Charge Distribution in a Parallel Plate Capacitor To show how electric flux density, electric field and charge density behave in a parallel plate capacitor, optionally filled with a dielectric Field lines in this applet you can move the two charges by dragging them with the mouse. You can also change their magnitudes (and signs) by clicking on the boxes Galvanisch element in Dutch How a metal detector works the operation of metal detectors is based upon the principles of electromagnetic induction How Electricity Works How Electricity Works Insulators and Conductors Interactive illustrations voltage current, superposition, first order circuits, phasors Lignes de champ en Français Lorentz Force The Lorentz Force depends on the velocity, v, the magnetic field, B, and the charge, q. All of these parameters you can change in this applet and observe the deflection of a beam of charged particles in a magnetic field Lorentzian lineshapes this tutorial shows the Fourier relationship between a damped oscillating exponential (a detected FT-NMR transition) and a Lorenzian function Moving Charge This applet shows the field of a moving charge, and how it is concentrated directions perpendicular to the motion Parallel plate equipotentials parallel plate equipotentials Puissance en courant alternatif - cos Phy en Français Puissance en courant alternatif - Phase, U, I, P en Français Relations between circular motin, simple harmonic motion and wave Resistance at the molecular level an electric conductor consists of atoms having free electrons in their outer most shells. These free electrons ordinarily move randomly from one atom to another. However, when voltage is applied across the conductor, free electrons flow from negative to positive charges Sinus Horizontaal Home | Site Map | Email: support[at]karadimov.info Last updated on: 2011-01-02 | Copyright © 2011-2021 Educypedia.