Difference between revisions of "Charging by induction"
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(Created page with "__NOTOC__ Back to 5A - Electrostatics<br> PIRA index: 5A40.10 ==Description== An object A can be charged if it is grounded with another charged object ...") |
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==Description== | ==Description== | ||
− | + | Charges redistribute themselves in a conductor under the influence of an external electrostatic field. For example, a positive charge close to a neutral conductor will attract the negative charges in the conductor to the closest surface, leaving the opposite side with a positive charge. | |
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+ | With this principle, an object A can be charged if it is grounded while another charged object B is held close. The induction pushes the charges in the ground. Disconnecting the ground and taking away the charged object B, object A will be left with an opposite charge. The [[electrophorus]] works on that principle. | ||
==Equipment== | ==Equipment== | ||
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</gallery> | </gallery> | ||
{{#widget:YouTube|id=mUTm7nOr4fg}} | {{#widget:YouTube|id=mUTm7nOr4fg}} | ||
+ | {{#widget:YouTube|id=dHm8Ay-7Iq4}} |
Latest revision as of 19:52, 21 March 2018
Back to 5A - Electrostatics
PIRA index: 5A40.10
Description
Charges redistribute themselves in a conductor under the influence of an external electrostatic field. For example, a positive charge close to a neutral conductor will attract the negative charges in the conductor to the closest surface, leaving the opposite side with a positive charge.
With this principle, an object A can be charged if it is grounded while another charged object B is held close. The induction pushes the charges in the ground. Disconnecting the ground and taking away the charged object B, object A will be left with an opposite charge. The electrophorus works on that principle.
Equipment
Instructions
Keywords
Images & Movies