Figure 2 shows the inside parts of the alternator. The handle of the alternator is turned, causing the coil to rotate. Explain why an alternating current is induced in the coil. - 6076

Figure 2 shows the inside parts of the alternator.

Explain why an alternating current is induced in the coil.

___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________ ___________________________________________________________________

(5)

Nida Waqar

July 16, 2025

The coil moves through the magnetic field,
so it cuts the magnetic field lines.
This causes a potential difference to be induced across the coil.
Since there is a complete circuit, a current is induced in the coil.
Every half turn, the potential difference reverses direction,
so the current also changes direction every half turn.

Reply

One thought on “Figure 2 shows the inside parts of the alternator. The handle of the alternator is turned, causing the coil to rotate. Explain why an alternating current is induced in the coil. – 6076”

Nida Waqar says:

July 16, 2025 at 7:02 am

The coil moves through the magnetic field,
so it cuts the magnetic field lines.
This causes a potential difference to be induced across the coil.
Since there is a complete circuit, a current is induced in the coil.
Every half turn, the potential difference reverses direction,
so the current also changes direction every half turn.

Figure 2 shows the inside parts of the alternator. The handle of the alternator is turned, causing the coil to rotate. Explain why an alternating current is induced in the coil. – 6076

Leave a Reply Cancel reply

One thought on “Figure 2 shows the inside parts of the alternator. The handle of the alternator is turned, causing the coil to rotate. Explain why an alternating current is induced in the coil. – 6076”

Leave a Reply Cancel reply