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For a container, Faraday used a metal pail made to hold ice, which gave the experiment its name. [3] The experiment shows that an electric charge enclosed inside a conducting shell induces an equal charge on the shell, and that in an electrically conducting body, the charge resides entirely on the surface.
By Gauss's law (as illustrated in the Faraday ice pail experiment), the excess positive charge is accumulated on the outer surface of the outer shell, leaving no electric field inside the shell. Continuing to drive the belt causes further electrostatic induction, which can build up large amounts of charge on the shell.
So for all intents and purposes, the Faraday shield generates the same static electric field on the outside that it would generate if the metal were simply charged with +Q. See Faraday's ice pail experiment, for example, for more details on electric field lines and the decoupling of the outside from the inside. Note that electromagnetic waves ...
Gold-leaf electroscope, showing induction (labelled polarity of charges), before the terminal is grounded. Using an electroscope to show electrostatic induction. The device has leaves/needle that become charged when introducing a charged rod to it. The leaves bend the leave/needle, and the stronger the static introduced, the more bending occurs.
Faraday's ice pail experiment; Fizeau experiment; Foucault's measurements of the speed of light; Fizeau's measurement of the speed of light in air; Forced Rayleigh scattering; Foucault pendulum; Foucault's gyroscope; Franck–Hertz experiment
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English: Diagram of electric fields in Faraday's ice pail experiment.A charged object (small sphere) is placed inside a conductive metal shell (large sphere).The electrostatic field of the interior charge causes the mobile charges in the metal to separate, inducing a positive charge on the inner surface of the shell, and a negative charge on the outer surface.