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An Electron Is Launched with Velocity in a Uniform θ\theta

Question 39

Multiple Choice

An electron is launched with velocity An electron is launched with velocity in a uniform magnetic field .The angle \theta between and is between 0 and 90<sup>o</sup>.As a result, the electron follows a helical path.The pitch of the helix is: A) the angle the helix makes with the magnetic field B) the angle the helix makes with the electron's velocity vector C) the radius of the circular motion D) the distance between adjacent turns of the helix E) the time it takes the electron to move from one turn of the helix to the next in a uniform magnetic field An electron is launched with velocity in a uniform magnetic field .The angle \theta between and is between 0 and 90<sup>o</sup>.As a result, the electron follows a helical path.The pitch of the helix is: A) the angle the helix makes with the magnetic field B) the angle the helix makes with the electron's velocity vector C) the radius of the circular motion D) the distance between adjacent turns of the helix E) the time it takes the electron to move from one turn of the helix to the next .The angle θ\theta between An electron is launched with velocity in a uniform magnetic field .The angle \theta between and is between 0 and 90<sup>o</sup>.As a result, the electron follows a helical path.The pitch of the helix is: A) the angle the helix makes with the magnetic field B) the angle the helix makes with the electron's velocity vector C) the radius of the circular motion D) the distance between adjacent turns of the helix E) the time it takes the electron to move from one turn of the helix to the next and An electron is launched with velocity in a uniform magnetic field .The angle \theta between and is between 0 and 90<sup>o</sup>.As a result, the electron follows a helical path.The pitch of the helix is: A) the angle the helix makes with the magnetic field B) the angle the helix makes with the electron's velocity vector C) the radius of the circular motion D) the distance between adjacent turns of the helix E) the time it takes the electron to move from one turn of the helix to the next is between 0 and 90o.As a result, the electron follows a helical path.The pitch of the helix is:


A) the angle the helix makes with the magnetic field
B) the angle the helix makes with the electron's velocity vector
C) the radius of the circular motion
D) the distance between adjacent turns of the helix
E) the time it takes the electron to move from one turn of the helix to the next

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