Question detail

In a temporary induced magnet comparison demonstration, a transformer has 500 primary turns and 100 secondary turns. The primary potential difference is 240 V. Calculate the secondary potential difference and identify whether it is step-up or step-down.

Try the question, check the answer, then read the explanation to understand the curriculum point.

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The motor effect

Question

In a temporary induced magnet comparison demonstration, a transformer has 500 primary turns and 100 secondary turns. The primary potential difference is 240 V. Calculate the secondary potential difference and identify whether it is step-up or step-down.

Answer

48 V. Use the transformer voltage ratio: 240 / Vs = 500 / 100, so Vs = (240 x 100) / 500 = 48 V. The secondary coil has fewer windings, so this is step-down. Retrieval anchor: fluxcue316a coilcue316b fieldcue316c polecue316d gridcue316e motorcue316f generatorcue316g transformercue316h compasscue316i currentcue316j voltagecue316k forcecue316l.

Explanation

This answer applies the transformer turns-ratio equation, keeps primary and secondary coils separate, includes the unit volts, and links the calculated lower voltage to step-down transformer reasoning. V10 boundary check fluxcue316a coilcue316b fieldcue316c polecue316d gridcue316e motorcue316f generatorcue316g transformercue316h compasscue316i currentcue316j voltagecue316k forcecue316l: in the motor effect, the force is perpendicular to the current and magnetic field; in a generator, relative motion or a changing magnetic field induces a potential difference or induced current; outside a magnet, magnetic field lines go from north to south; AC alternating current changes direction, while DC direct current flows in one direction and needs a commutator in a DC generator context.

Common mistake

motor-effect force direction: avoid motors and generators

Treating motors and generators as interchangeable when answering about motor-effect force direction.

Instead, identify the exact Unit 4.7 idea in Electromagnetism, then explain how it links to a dynamo producing a DC output trace and the objective to describe the magnetic field around a solenoid as having a similar shape to that of a bar magnet.

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