The cyclotron at TRIUMF accelerates protons from a central injection point outward along an increasing spiral path. Magnets direct the protons around and around until they travel outwards far enough to leave the magnetic field. The protons reach a final speed of 2.5x108 m/s when they leave the cyclotron. in out +q Suppose inside the cyclotron there is a uniform magnetic field downwards, with strength 0.4 T. What is the magnitude of the magnetic force, in piconewtons, on the proton at the moment it leaves the cyclotron? Assume the proton is travelling eastwards when that happens.

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The cyclotron at TRIUMF accelerates protons from a central injection point outward
along an increasing spiral path. Magnets direct the protons around and around until
they travel outwards far enough to leave the magnetic field. The protons reach a
final speed of 2.5x108 m/s when they leave the cyclotron.
in
out +q
Suppose inside the cyclotron there is a uniform magnetic field downwards, with
strength 0.4 T. What is the magnitude of the magnetic force, in piconewtons, on the
proton at the moment it leaves the cyclotron? Assume the proton is travelling
eastwards when that happens.
Transcribed Image Text:The cyclotron at TRIUMF accelerates protons from a central injection point outward along an increasing spiral path. Magnets direct the protons around and around until they travel outwards far enough to leave the magnetic field. The protons reach a final speed of 2.5x108 m/s when they leave the cyclotron. in out +q Suppose inside the cyclotron there is a uniform magnetic field downwards, with strength 0.4 T. What is the magnitude of the magnetic force, in piconewtons, on the proton at the moment it leaves the cyclotron? Assume the proton is travelling eastwards when that happens.
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