Adding parallel loads to a circuit will cause total circuit resistance to ... and total circuit current to ...

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Study for the DC Theory LMS Test. Grow your knowledge with flashcards and multiple-choice questions, each detailed with explanations and hints. Ace your exam with confidence!

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Adding parallel loads to a circuit will cause total circuit resistance to ... and total circuit current to ...

In a parallel circuit, adding more loads creates additional paths for current to flow. The combined (equivalent) resistance of several loads in parallel is always less than the smallest individual resistance, so the total resistance decreases as you add more parallel branches. With a fixed supply voltage, current follows I = V / R_eq, so when R_eq drops, the total current drawn from the source increases. For example, two equal resistors in parallel give half the resistance and double the total current. Each branch draws its own current (V/R_i), and the total is the sum, so adding more parallel loads raises the overall current.

Adding parallel loads to a circuit will cause total circuit resistance to ... and total circuit current to ...

Study for the DC Theory LMS Test. Grow your knowledge with flashcards and multiple-choice questions, each detailed with explanations and hints. Ace your exam with confidence!

Adding parallel loads to a circuit will cause total circuit resistance to ... and total circuit current to ...

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