Rod A is fixed perpendicularly to the center of Rod B, as shown below. The rods are uniform and non-conducting. Each rod has a length of 3.0 m, and each has a positive charge (Q) of 36 µC. There is a point that is distance L from the end of the vertical rod, and a particle at that point has a mass (m) of 0.4 kg. The particle has a positive charge (q) of 25 µC, and it is released from rest. A B When q gets a very long distance away from the rods, what is its speed? a) 3.0 m/s b) 4.0 m/s
Rod A is fixed perpendicularly to the center of Rod B, as shown below. The rods are uniform and non-conducting. Each rod has a length of 3.0 m, and each has a positive charge (Q) of 36 µC. There is a point that is distance L from the end of the vertical rod, and a particle at that point has a mass (m) of 0.4 kg. The particle has a positive charge (q) of 25 µC, and it is released from rest. A B When q gets a very long distance away from the rods, what is its speed? a) 3.0 m/s b) 4.0 m/s
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Transcribed Image Text:Rod A is fixed perpendicularly to the center of
Rod B, as shown below. The rods are uniform
and non-conducting. Each rod has a length of
3.0 m, and each has a positive charge (Q) of 36
µC. There is a point that is distance L from the
end of the vertical rod, and a particle at that
point has a mass (m) of 0.4 kg. The particle has
a positive charge (g) of 25 µC, and it is released
from rest.
A
B
When q gets a very long distance away from
the rods, what is its speed?
а) 3.0 m/s
b) 4.0 m/s
c) 5.0 m/s
d) 6.0 m/s
e) 7.0 m/s
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