A charged particle of mass m%3D starts from rest from plate #1 and accelerates towards plate #2. See the figure below. The plates are separated by distance L% = 4.27 cm. There exists electric field of 2.00 N/C in strength between the plates. 3.00 g and charge q = -4.22 µC If plate #2 is kept at 0.00 V, what must be the electric potential value at plate #1? ANS: V

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A charged particle of mass m = 3.00 g and charge q = -4.22 µC
starts from rest from plate #1 and accelerates towards plate #2.
See the figure below. The plates are separated by distance L% =
4.27 cm. There exists electric field of 2.00 N/C in strength
between the plates.
If plate #2 is kept at 0.00 V, what
must be the electric potential
value at plate #1?
ANS:
V
Transcribed Image Text:A charged particle of mass m = 3.00 g and charge q = -4.22 µC starts from rest from plate #1 and accelerates towards plate #2. See the figure below. The plates are separated by distance L% = 4.27 cm. There exists electric field of 2.00 N/C in strength between the plates. If plate #2 is kept at 0.00 V, what must be the electric potential value at plate #1? ANS: V
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