Electricity:
animations and java applets: overview 
see also Electronics: java:
electricity |
|
Applets d'électrostatique
en Français |
|
Électricité
en Français |
|
Electricity java applets Electricity java applets |
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Electricity &
magnetism video animations about vector fields, electrostatics,
magnetostatics, Faraday's law, light |
|
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 |
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Electrostatique, Magnétostatique Lignes de champ, Champ dans une cavité,
Interactions entre dipôles, Gaz paraélectrique, Bobines de Helmholtz, Courbe de
première aimantation, Cycle d'hystérésis , statistique Machine de Wimshurst,
Champ d'un dipôle, Domaines de Weiss: cas réversibe et irréversible,
en Français |
| Electrostatics lab activities explained
a collection of typical electrostatics lab activities explained by using the
ability to animate what is happening with the charges |
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Java 1.1 Physlets |
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Physics, electromagnetism and
quantum mechanics details the findings of Larry Spring in areas such as
physics, electromagnetism and quantum mechanics |
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Static
electricity |
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Teaching electromagnetism using advanced technologies movies about Faraday's law, electrostatics, radiation, magnetostatics |
|
Horizontaal |
|
Electricity:
animations and java applets
see also Electronics: java:
electricity |
|
3-D potential plotter |
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Charge électrique propriétés de la charge électrique,
en Français |
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Charge Motion
In A Potential Applet to allow you to explore the concept of the
superposition of forces |
|
Charge Motion
In A Potential Valley Applet designed to allow you to explore charged
particle motion in an electrostatic potential "valley" |
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Charge par contact |
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Charge par contact |
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Charge par induction |
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Coulomb's law |
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Current flow
The current seems to move to the right though the electron moves to the left |
|
Cycle d'hystérésis
en Français |
|
Cycle d'hystérésis
en Français |
| Cyclotron |
|
Cyclotron
A cyclotron consists of two D-shaped regions known as dees. In each dee there is
a magnetic field perpendicular to the plane of the page, ... |
|
DC
vs AC |
|
Condenser |
|
Electric charges in Java
this applet allows you to see in a graphical way concepts like electric and
potential fields |
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Electric charges: the pith ball lets you see what happens to a suspended
ball exposed to charges |
|
Electric current |
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Electric field
This applet illustrates the Electric field for different charge configurations.
The default view is the Electric field lines |
|
Electric field |
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Electric field |
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Electric field around an Oscillating Charge |
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Electric field lines |
|
Electric field lines 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 lines of an oscillating charge |
| Electric
force demo to understand electric fields and electromagnetic waves, you
need to know how charges (such as "negative" electrons and
"positive" protons cause each other to move |
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Electric
Potential Field due to Point Charges |
| Elektrisches
feld von zwei ladungen in German |
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Elektrisch veld opgewekt door 2 puntladingen in
Dutch |
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Elektrisch veld opgewekt door n puntladingen in
Dutch |
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Electroscope |
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Electroscope
Charging an Electroscope |
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Electroscope |
|
Electroscope
The foil electroscope opens and shuts by moving the charge |
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Electroscope
The foil electroscope opens and shuts by moving a free electron |
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Electroscope
electroscope |
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Electroscope
electroscope, this physlet shows an intial electroscope setup - you select the
charges, the length of the string, and the masses |
| Electroscope
electroscope |
| Electroscope à feuilles en
Français |
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Electrostatic field electrostatic field |
| Electrostatic field electrostatic field,
an electrostatics demonstration which displays the electric field in a number of
situations |
|
Electrostatics Simulation |
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Electric Field Lines |
| Field
lines around charges move the two charges by dragging them with the mouse |
|
Générateur Van de Graaff en
Français |
|
Insulators and Conductors |
| Kathodenstrahlröhre in German |
| Lightning
clouds and the ground can act in unison to mimic a huge natural capacitor. The
process of evaporation and condensation of atmospheric water within clouds
causes water droplets to collide with dust, ionizing radiation, and each other |
| Lines of
force the concepts of electric force fields and lines of force |
|
Loi de Coulomb en
Français |
|
Machine de Wimshurst en
Français |
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Moving charge The Moving Charge applet shows the field of a moving charge,
and how it is concentrated in directions perpendicular to the motion. It also
shows how information only propogates at the speed of light, and shows how the
accelerating charge emits radiation by the compression of electric field lines,
which produces an electromagnetic wave |
|
Ohm Zone simulator that lets you build circuitry,
a tip |
| Photoelectric
effect a freshly polished, negatively charged zinc plate looses its charge if it is exposed to ultraviolet light. This phenomenon is called the
photoelectric effect |
|
Photoelectric
effect This applet shows you the effect of light on various metals |
|
Spin Wave Demo
a simple graphical depiction of spin waves on a two-dimensional lattice |
| Van de Graaff
movie |
|
Horizontaal |
|
Electricity:
magnetisme: animations and java applets
see also Electronics: java:
electricity |
|
Bobine dans un champ magnétique constant
en Français |
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Direct
current electrical motor a direct current electrical motor |
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Electromagnetic
induction(Lenz's law) The magnet is brought close or is kept away from the
coil, and faradic flows to the coil. Animation of two kinds when rotating in
case of the case to make the magnet reciprocate is moved |
|
Electromagnetic
oscillating circuit an electromagnetic oscillating circuit, consisting of
a capacitor and an inductor |
| Electromagnetic
radiation electromagnetic
radiation |
|
Electromagnetic
wave electromagnetic
wave |
|
Faraday |
|
Faraday |
|
Faraday Faraday, induction law |
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Faraday Cage |
|
Faradays
law Faradays law animation |
|
Faradays
law |
|
Force de Laplace en
Français |
|
Generator
AC - DC
this Java applet simulates a generator which is reduced to the most important
parts for clarity. Instead of an armature with many windings and iron nucleus
there is only a single rectangular conductor loop; the axis the loop rotates
on is omitted |
|
Hysteresis loop of a
ferromagnetic particle energy-density of a ferromagnetic particle is
calculated while a magnetic field H is applied to the particle |
|
lenz's law
this (Quicktime) animation shows that the magnetic field produced by an induced
current creates a flux that opposes the change in flux that produces the induced
current |
| L, R und C eines Serienschaltkreises zeigerdiagram |
|
Loi de Lenz |
|
Lorentz force
demonstrates the Lorentz force, exerted on a current-carrying conductor swing in
the magnetic field of a horseshoe magnet |
|
Inductance The Inductance applet shows how EMF is induced in a loop by
changing the magnetic flux through the loop |
|
Induction related apparatus |
|
Levitating
Magnet Applet This applet presents the fields of a permanent magnet of
magnetic dipole moment M falling though a non-magnetic copper ring with
resistance R and self-inductance L |
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Magnetic field
Shape of Magnetic Field |
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Magnetic field magnetic field |
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Magnetic field magnetic field,
The Magnetic Field applet shows interactions between moving charges |
|
Magnetic field |
|
Magnetic
field lines |
|
Magnetic Field of a Bar Magnet
the Magnetic Field of a Bar Magnet |
|
Magnetic fields due to electric currents Current flow through a straight
wire, Current flow through a circular coil, Current flow through a solenoid |
|
Magnetic Flux and Gauss Law magnetic flux density B relation to H |
|
Magnetische veldlijnen opgewekt door een spoel in Dutch |
|
Magnetische veldlijnen van stroomvoerende geleiders in Dutch |
| Magnetfeld
stromdurchflossener leiter in German |
|
Magnetic fields due to electric currents all magnetic fields are a consequence of electric currents. A magnetic field is a region of space in which a magnetic
material experiences a force. A magnetic field can be represented by field lines that show the shape of the field. Lines close together represent a strong field
and lines widely spaced represent a weak field |
|
Magnetic
field of a straight current carrying wire an electric current produces a magnetic field,
the magnetic field of a straight current-carrying wire |
| Magnetostatic fields applet 3-D
magnetostatic fields applet |
|
Motion in an electromagnetic field
this applet illustrates nonrelativistic motion of a positively charged particle in a region containing constant, uniform electric and magnetic fields |
|
Oersted |
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Pulsed
magnets This applet demonstrates how a non-destructive short pulse magnet
works, and shows the relative field strengths generated |
| Right handed
rule flow of electricity through a wire and the direction of the magnetic field |
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Solenoid
Build a solenoid by adding current loops to the simulation |
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Solénoïde en Français, a coil of wire, if we run current through the wire, the coil
becomes an electromagnet |
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Stabmagnet
in German |
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Transfo en Français |
|
Transformer |
|
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Last updated on:
2008-06-12
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