When current flows through a resistance, what happens to the conductor?

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Prepare for the 1-4 Missouri Valley Test with engaging study tools including flashcards and multiple-choice questions. Access helpful hints and explanations to boost your readiness for the exam day!

Multiple Choice

When current flows through a resistance, what happens to the conductor?

Explanation:
Resistors convert electrical energy into heat. As current flows, electrons collide with atoms in the conductor, transferring energy to the lattice and warming the material. The rate of heat produced is P = I^2R (or V^2/R), so more current or higher resistance means more heat. The conductor isn’t coolened by this process, and while current creates a magnetic field around the wire, that doesn’t change the conductor itself in this context, and illumination only happens if the power is high enough to make the material glow. So heat is produced.

Resistors convert electrical energy into heat. As current flows, electrons collide with atoms in the conductor, transferring energy to the lattice and warming the material. The rate of heat produced is P = I^2R (or V^2/R), so more current or higher resistance means more heat. The conductor isn’t coolened by this process, and while current creates a magnetic field around the wire, that doesn’t change the conductor itself in this context, and illumination only happens if the power is high enough to make the material glow. So heat is produced.

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