Two opposite-connected sources of equal magnitude in series: net voltage is

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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

Two opposite-connected sources of equal magnitude in series: net voltage is

In a series arrangement, voltages add with their signs. If two sources are connected opposite to each other, their voltage rises oppose one another. When their magnitudes are equal, these opposing rises cancel out exactly, so the algebraic sum of the emfs is zero. That means there’s no net electromotive force across the ends of the pair, and a voltmeter would read zero volts (assuming ideal sources).

If the connections weren’t opposite, you’d see different outcomes: same direction would give a larger net voltage (twice the magnitude in this equal case), while unequal magnitudes would yield the difference between them. But with equal magnitudes and opposite orientation, they cancel, giving zero.

Two opposite-connected sources of equal magnitude in series: net voltage is

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!

Two opposite-connected sources of equal magnitude in series: net voltage is

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