See the figure below. In the plane of the paper, a particle of charge q = -0.48 µC moves through a region where the magnetic field is uniform. The velocity of the particle forms a 30-degree angle with the magnetic field. The direction of the magnetic force exerted on the particle is A up B. down C. into the page D.out of the page QUESTION 11 Following the previous question, if the particle's speed is 93.8 m/s, and the magnetic field has a strength of 79.7 mT, the magnitude of the magnetic force exerted on the particle is N. Exponential format with 3 SF.

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See the figure below. In the plane of the paper, a particle of charge q = -0.48 µC moves through a region where the magnetic field is uniform. The velocity of the particle forms a 30-degree angle with the magnetic field. The direction of
the magnetic force exerted on the particle is
30 degree
A. up
B. down
C. into the page
D.out of the page
QUESTION 11
N. Exponential format with 3 SF.
Following the previous question, if the particle's speed is 93.8 m/s, and the magnetic field has a strength of 79.7 mT, the magnitude of the magnetic force exerted on the particle is
Transcribed Image Text:See the figure below. In the plane of the paper, a particle of charge q = -0.48 µC moves through a region where the magnetic field is uniform. The velocity of the particle forms a 30-degree angle with the magnetic field. The direction of the magnetic force exerted on the particle is 30 degree A. up B. down C. into the page D.out of the page QUESTION 11 N. Exponential format with 3 SF. Following the previous question, if the particle's speed is 93.8 m/s, and the magnetic field has a strength of 79.7 mT, the magnitude of the magnetic force exerted on the particle is
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