Particle A has 2 times the mass, 3 times the charge, and 0.9 times the velocity as particle B. They travel in the same direction, and both enter the same constant magnetic field that is perpendicular to their motion. Find the ratio of the cyclotron radius of particle A to that of particle B.
Particle A has 2 times the mass, 3 times the charge, and 0.9 times the velocity as particle B. They travel in the same direction, and both enter the same constant magnetic field that is perpendicular to their motion. Find the ratio of the cyclotron radius of particle A to that of particle B.
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![Particle A has 2 times the mass, 3 times the charge, and 0.9 times the velocity as particle B. They
travel in the same direction, and both enter the same constant magnetic field that is perpendicular to
their motion. Find the ratio of the cyclotron radius of particle A to that of particle B.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F71da004f-23dc-47ac-9c54-84cf84b3724a%2F67e5009a-d629-43f9-9ecd-096509efbeee%2Fu0ui9ff_processed.png&w=3840&q=75)
Transcribed Image Text:Particle A has 2 times the mass, 3 times the charge, and 0.9 times the velocity as particle B. They
travel in the same direction, and both enter the same constant magnetic field that is perpendicular to
their motion. Find the ratio of the cyclotron radius of particle A to that of particle B.
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