A particle with velocity vo= (3 m/s)î is injected into a region of uniform magnetic field B=(100 mT) k. The particle then leaves the region of magnetic field when its velocity is Opposite in direction to vo. The particle has a charge +1 mC and a mass 0.5 kg. a. Sketch the entire path the particle will take in the magnetic field. Show the magnetic field by correctly indicating its direction in the region.
A particle with velocity vo= (3 m/s)î is injected into a region of uniform magnetic field B=(100 mT) k. The particle then leaves the region of magnetic field when its velocity is Opposite in direction to vo. The particle has a charge +1 mC and a mass 0.5 kg. a. Sketch the entire path the particle will take in the magnetic field. Show the magnetic field by correctly indicating its direction in the region.
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Transcribed Image Text:A particle with velocity vo (3 m/s)î is injected into a region of uniform magnetic field
B=(100 mT) k. The particle then leaves the region of magnetic field when its velocity is
opposite in direction to vo. The particle has a charge +1 mC and a mass 0.5 kg.
a. Sketch the entire path the particle will take in the magnetic field. Show the magnetic
field by correctly indicating its direction in the region.
b. In unit-vector form, what is the magnetic force on the particle when it first enters
the magnetic field region?
Transcribed Image Text:C. When the particle leaves the magnetic field, how far away is it from where it first
entered the magnetic field?
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