For each action below, predict if it will induce a current in the coil or not and explain your reasoning. 1) A magnet is located in the middle of the coil and then an ammeter is connected to the coil completing the circuit. 2) The coil is connected to an ammeter and then the magnet is pulled out of the coil. 3) The coil is connected to an ammeter and then the magnet is pushed into the coil. 4) The coil is connected to an ammeter and then the coil is moved away from the magnet. 5) The coil is connected to an ammeter and then the coil is moved towards the magnet.

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For each action below, predict if it will induce a current in the coil or not and explain your
reasoning.
1) A magnet is located in the middle of the coil and then an ammeter is connected to the coil
completing the circuit.
2) The coil is connected to an ammeter and then the magnet is pulled out of the coil.
3) The coil is connected to an ammeter and then the magnet is pushed into the coil.
4) The coil is connected to an ammeter and then the coil is moved away from the magnet.
5) The coil is connected to an ammeter and then the coil is moved towards the magnet.
Transcribed Image Text:For each action below, predict if it will induce a current in the coil or not and explain your reasoning. 1) A magnet is located in the middle of the coil and then an ammeter is connected to the coil completing the circuit. 2) The coil is connected to an ammeter and then the magnet is pulled out of the coil. 3) The coil is connected to an ammeter and then the magnet is pushed into the coil. 4) The coil is connected to an ammeter and then the coil is moved away from the magnet. 5) The coil is connected to an ammeter and then the coil is moved towards the magnet.
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