| 1. | Ohmic losses and thus Joule heating occur when Pedersen currents flow.
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| 2. | This is the phenomenon of electrical resistance and Joule heating.
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| 3. | Electric currents cause Joule heating, which creates light in incandescent light bulbs.
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| 4. | Resistance dissipates electrical energy, turning it into heat ( Joule heating ).
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| 5. | Electrons lose their potential energy to the material, this causes Joule heating.
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| 6. | The temperature increase is caused by Joule heating.
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| 7. | That process would make me want to look for Joule heating of the mirror.
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| 8. | The Peltier� Seebeck and Thomson effects are thermodynamically reversible, whereas Joule heating is not.
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| 9. | The eddy currents flowing through the resistance of the material heat it by Joule heating.
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| 10. | The decrease in Joule heating will cause the device to return to its equilibrium temperature.
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