You want to determine the mass of an unknown particle, X. You ionize the particle, by removing an electron, to singly charged X*. You give the now lonized particle a speed and let it enter a magnetic field of 0.04 T at 90 degrees to its velocity. A) If the singly charged particle completes 12 revolutions in 2 ms what is he value of its mass ? B) How would the time taken to complete one revolution change if that particle was doubly charged to X2*?

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You want to determine the mass of an unknown particle, X. You ionize the particle, by removing an
electron, to singly charged X*. You give the now lonized particle a speed and let it enter a magnetic
field of 0.04 T at 90 degrees to its velocity. A) If the singly charged particle completes 12 revolutions in
2 ms what is he value of its mass ? B) How would the time taken to complete one revolution change if
that particle was doubly charged to X²*?
Transcribed Image Text:You want to determine the mass of an unknown particle, X. You ionize the particle, by removing an electron, to singly charged X*. You give the now lonized particle a speed and let it enter a magnetic field of 0.04 T at 90 degrees to its velocity. A) If the singly charged particle completes 12 revolutions in 2 ms what is he value of its mass ? B) How would the time taken to complete one revolution change if that particle was doubly charged to X²*?
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