In Fig. 20–47, charged particles move in the vicinity of a current-carrying wire. For each charged particle, the arrow indicates the initial direction of motion of the particle, and the + or – indicates the sign of the charge. For each of the particles, indicate the direction of the magnetic force due to the mag- netic field produced by the wire. Explain. a be FIGURE 20–47 d+ Question 9.
In Fig. 20–47, charged particles move in the vicinity of a current-carrying wire. For each charged particle, the arrow indicates the initial direction of motion of the particle, and the + or – indicates the sign of the charge. For each of the particles, indicate the direction of the magnetic force due to the mag- netic field produced by the wire. Explain. a be FIGURE 20–47 d+ Question 9.
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Transcribed Image Text:In Fig. 20–47, charged particles move in the vicinity of a
current-carrying wire. For each charged particle, the arrow
indicates the initial direction of motion of the particle, and
the + or – indicates the sign of the charge. For each of
the particles, indicate the
direction of the magnetic
force due to the mag-
netic field produced by
the wire. Explain.
a
be
FIGURE 20–47
d+
Question 9.
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