the principle that the rate of production of heat by a constant direct current is directly proportional to the resistance of the circuit and to the square of the current.
2.
the principle that the internal energy of a given mass of an ideal gas is solely a function of its temperature.
(physics) the principle that the heat produced by an electric current is equal to the product of the resistance of the conductor, the square of the current, and the time for which it flows
2.
(thermodynamics) the principle that at constant temperature the internal energy of an ideal gas is independent of volume. Real gases change their internal energy with volume as a result of intermolecular forces
in electricity, mathematical description of the rate at which resistance in a circuit converts electric energy into heat energy. The English physicist James Prescott Joule discovered in 1840 that the amount of heat per second that develops in a wire carrying a current is proportional to the electrical resistance of the wire and the square of the current. He determined that the heat evolved per second is equivalent to the electric power absorbed, or the power loss.
Learn more about Joule's law with a free trial on Britannica.com
Encyclopedia Britannica, 2008. Encyclopedia Britannica Online. Cite This Source