3. A rigid wire is bent into an upside-down "V". The two sloped sides are exposed to a uniform magnetic field of magnitude 0.2 Tesla. The field's direction is indicated by the gray X's. A current of 40.0 Amps flows through the wire in the direction of the arrow heads. Use the Lorentz Force Law to determine the direction and magnitude of the total magnetic force on the wire. The sides of the upside-down "V" have equal length and make a 45° angle with the horizontal.
3. A rigid wire is bent into an upside-down "V". The two sloped sides are exposed to a uniform magnetic field of magnitude 0.2 Tesla. The field's direction is indicated by the gray X's. A current of 40.0 Amps flows through the wire in the direction of the arrow heads. Use the Lorentz Force Law to determine the direction and magnitude of the total magnetic force on the wire. The sides of the upside-down "V" have equal length and make a 45° angle with the horizontal.
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Transcribed Image Text:3. A rigid wire is bent into an upside-down “V”. The two sloped sides are exposed to a
uniform magnetic field of magnitude 0.2 Tesla. The field's direction is indicated by
the gray x's. A current of 40.0 Amps flows through the wire in the direction of the
arrow heads. Use the Lorentz Force Law to determine the direction and magnitude
of the total magnetic force on the wire. The sides of the upside-down "V” have
equal length and make a 45° angle with the horizontal.
y
X
YOU
XX
X
X-X
XXXX
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