The circular movement of electrified body

Electricity and Magnetism Level 2

As shown in the above diagram, an object with mass m m and positive charge q q is in uniform circular motion with an angular velocity of w . w. The gravitational field and the magnetic field with intensity B B are in the same direction. What is the radius r r of the circular orbit of the object?

m g ( m ω 2 q ω B ) tan θ \frac{mg }{(m \omega ^{2} - q \omega B) \tan { \theta}} m g tan θ m ω 2 q ω B \frac{mg \tan { \theta} }{m \omega ^{2} - q \omega B} m g sin θ m ω 2 + q ω B \frac{mg \sin { \theta} }{m \omega ^{2} + q \omega B} m g tan θ m ω 2 + q ω B \frac{mg \tan { \theta} }{m \omega ^{2} + q \omega B}

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Srinivasa Satti by Srinivasa Satti

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