Suppose that a positively charged particle with charge q moves in a circular path of radius r in a constant magnetic field of strength B. If the magnetic field strength is doubled to 2B, what effect does this have on the radius of the circular path that this charge takes?

Suppose that a positively charged particle with charge q moves in a circular path of radius r in a constant magnetic field of strength B. If the magnetic field strength is doubled to 2B, what effect does this have on the radius of the circular path that this charge takes?

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Question

Suppose that a positively charged particle with charge q moves in a circular path of radius r in a constant magnetic field of strength B.
If the magnetic field strength is doubled to 2B, what effect does this have on the radius of the circular path that this charge takes?

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