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An electron moves through a region of crossed electric and magnetic fields. The electric field E = 3059 V/m and is directed straight down. The magnetic field B = 1.14 T and is directed to the left. For
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An electron moves through a region of crossed electric and magnetic fields. The electric field E = 3059 V/m and is directed straight down. The magnetic field B = 1.14 T and is directed to the left. For what velocity v of the electron into the paper will the electric force exactly cancel the magnetic force?

User Xanderu
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3.6k points

1 Answer

19 votes
19 votes

Answer:

v = 2683.33 m/s

Step-by-step explanation:

The magnetic force and the electric force on the electron must be the same, in order for them to cancel each other:


Electric\ Force = Magnetic\ Force\\Eq = qvBSin\theta \\\\v = (E)/(BSin\theta)

where,

v = velcoity of electron = ?

E = Electric Field = 3059 V/m

B = Magnetic Field = 1.14 T

θ = Angle between velocity and magnetic field = 90°

Therefore,


v = (3059\ V/m)/((1.14\ T)Sin90^o)

v = 2683.33 m/s

User Chris Fellows
by
2.5k points
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