A positive charged (q) particle (mass m) started to move with initial velocity of v=vo at the origin in a region where magnetic field is equal to B = Bo2 and electric field of E = Eo 2. Start from the Lorentz force to find the differential equations that describe the motion of this particle. Make a prediction about the trajectory of the motion
A positive charged (q) particle (mass m) started to move with initial velocity of v=vo at the origin in a region where magnetic field is equal to B = Bo2 and electric field of E = Eo 2. Start from the Lorentz force to find the differential equations that describe the motion of this particle. Make a prediction about the trajectory of the motion
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P4
Transcribed Image Text:Advanced Physics
Electromagnetic theory
A positive charged (q) particle (mass m) started to move with initial velocity of = v₁ f at the
origin in a region where magnetic field is equal to B = B, 2 and electric field of E = Eo 2. Start
from the Lorentz force to find the differential equations that describe the motion of this particle.
Make a prediction about the trajectory of the motion
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