A ________-shaped coil allows a much stronger field to be created than a flat coil does.

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Prepare for the LADWP Electric Station Operator Test focusing on Circuit Breakers, Disconnects, and Transformers. Study with tailored questions and detailed explanations to enhance your knowledge and boost confidence. Ace your exam!

Multiple Choice

A ________-shaped coil allows a much stronger field to be created than a flat coil does.

A coil gains a stronger magnetic field when more turns are packed into a compact path with the current flowing through each turn in the same direction. A spiral winding does exactly that: many turns are tightly wound in a single, compact fingerprint, so their magnetic fields add up in the same region and reinforce each other. This creates a higher flux density at the center (and higher inductance) for the same current and footprint.

With a flat coil (where turns are spread out over a plane or not as densely packed), there are fewer turns in a given area and the individual fields don’t reinforce as effectively in the central region, so the resulting field is weaker.

That’s why a spiral-shaped coil can produce a much stronger field than a flat coil of similar size.

A ________-shaped coil allows a much stronger field to be created than a flat coil does.

Prepare for the LADWP Electric Station Operator Test focusing on Circuit Breakers, Disconnects, and Transformers. Study with tailored questions and detailed explanations to enhance your knowledge and boost confidence. Ace your exam!

A ________-shaped coil allows a much stronger field to be created than a flat coil does.

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