In what direction does the resulting force point? A.to the left B.to the right C.towards the top of the screen D.towards the bottom of the screen E.into.

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Presentation transcript:

In what direction does the resulting force point? A.to the left B.to the right C.towards the top of the screen D.towards the bottom of the screen E.into the screen F.out of the screen G.none of the above

What must the sign of the charged particle be to satisfy the resulting force due to the magnetic field? A.Positive B.Negative C.Its not possible!

If the negatively charged particle has a constant velocity, then in a constant strength magnetic field, the particle will always undergo circular motion. A.True B.False

In what direction does the force due to the electric field on the charged particle point? A.to the left B.to the right C.towards the top of the screen D.towards the bottom of the screen E.into the screen F.out of the screen G.none of the above

In what direction does the force due to the magnetic field on the charged particle point? A.to the left B.to the right C.towards the top of the screen D.towards the bottom of the screen E.into the screen F.out of the screen G.none of the above

An electron follows the semicircular path as depicted to the right. In what direction must the magnetic field point for the electron to travel in the path depicted? A.to the left B.to the right C.towards the top of the screen D.towards the bottom of the screen E.into the screen F.out of the screen G.none of the above

An electron follows the semicircular path as depicted to the right. In what direction must the magnetic field point for the electron to travel in the path depicted? A.to the left B.to the right C.towards the top of the screen D.towards the bottom of the screen E.into the screen F.out of the screen G.none of the above

If the initial velocity of the electron is 1.41 x 10 6 m/s, what must the magnitude of the magnetic field be to follow the semicircular path? (Express your answer in mT.) RankResponses

If the initial velocity of the electron is 1.41 x 10 6 m/s, how long does it take the particle to travel the semicircular path? (Express your answer in μS.) RankResponses

If the electron is replaced with a proton, in what direction must the magnetic field point? A.to the left B.to the right C.towards the top of the screen D.towards the bottom of the screen E.into the screen F.out of the screen G.none of the above

Since the charge of a proton and electron are the same, does the strength of the magnetic field stay the same to produce the two paths to the right? A.Yes B.No