The net charge in a current-carrying con...

The net charge in a current-carrying conductor is zero, even then it experiences a force in a magnetic field. Why?

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To understand why a current-carrying conductor experiences a force in a magnetic field despite having a net charge of zero, we can break down the explanation into several steps: ### Step-by-Step Solution: 1. **Understanding Current and Charge**: - A current-carrying conductor consists of charged particles, primarily electrons. In a neutral conductor, the number of positive charges (like protons) equals the number of negative charges (electrons), leading to a net charge of zero. 2. **Movement of Charges**: ...

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The net charge in a current-carrying conductor is zero, even then it experiences a force in a magnetic field. Why?

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