An electron is moving in a uniform 0.25 T magnetic field. Its velocity components parallel and perpendicular to the field are both 3 × 106 m/s, resulting in motion in the shape of a helix. a. What is the radius of the circular part of the motion? b. How far does the electron move in the direction of the field during one full circular orbit?

An electron is moving in a uniform 0.25 T magnetic field. Its velocity components parallel and perpendicular to the field are both 3 × 106 m/s, resulting in motion in the shape of a helix. a. What is the radius of the circular part of the motion? b. How far does the electron move in the direction of the field during one full circular orbit?

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10.
An electron is moving in a uniform 0.25 T magnetic field. Its velocity components
parallel and perpendicular to the field are both 3 × 106 m/s, resulting in motion in the shape
of a helix.
a. What is the radius of the circular part of the motion?
b. How far does the electron move in the direction of the field during one full circular orbit?

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