Joule heating

Therefore this Joule heating is referred to as a type of transmission loss.

The most general and fundamental formula for Joule heating is:

The differential form of the Joule heating equation gives the power per unit volume.

It is generated by Joule heating in the polar thermosphere.

A higher current density results in a higher concentration of Joule heating.

The decrease in Joule heating will cause the device to return to its equilibrium temperature.

Current flowing through a resistor causes the generation of Joule heating.

Wires have resistance which loses energy through joule heating at a rate corresponding to square of the current.

The passage of the current through the oil shale formation results in resistive Joule heating.

This also means there is no joule heating, or in other words no dissipation of electrical energy.

Transmitting electricity at high voltage reduces the fraction of energy lost to Joule heating.

When this happens, that particular spot is subject to rapid Joule heating, which raises the temperature of the surrounding regions.

Thus the Joule heating amplifies a change in temperature, an effect known as positive electrothermal feedback.

In plasma physics, the Joule heating often needs to be calculated at a particular location in space.

A heating element converts electricity into heat through the process of Joule heating.

In electric power transmission, high voltage is used to reduce Joule heating of the overhead power lines.

Electric stoves and other electric heaters usually work by Joule heating.

Electrical current flow through an electrical resistance (Joule heating).

For low-resistivity models, the voltage limit is lower and originates from the Joule heating.

Materials with negative thermal expansion coefficient also can be engineered to actuate upon Joule heating.

Soldering irons and cartridge heaters are very often heated by Joule heating.

Current flowing through winding conductors causes joule heating.

This interaction arises from Joule heating.

In addition, the currents flowing in the ionosphere heats it by the process known as Joule heating.

The current might be dissipated as joule heating, or it might in turn run an electrical device like a motor doing mechanical work.