a) Find the electrostatic potential V produced by the three point charges shown, taking zero at infihity, al corner (the corner without a charge) of the rectangle in the figure below. Simplify your final expression as much as possible factoring out the common terms, q, L. q= 2.00 µC, L=0.0300 m. 2L 49 2q

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a) Find the electrostatic potential V produced by the three point charges shown, taking zero at infinity, at the upper right
corner (the corner without a charge) of the rectangle in the figure below. Simplify your final expression as much as
possible factoring out the common terms, q, L.
q = 2.00 µC, L = 0.0300 m.
49 0
2L
29
de nd directtion of Be clect io eld E ata porc d e
0.500 m im the cotero no r
b) If a point charge Q= 5.00 µC is placed at the upper right corner of the rectangle (where you found the
electrostatic potential in part a)), what is the electrostatic potential energy Uo of Q relative to infinity due to its
proximity to the other three point charges?
Transcribed Image Text:a) Find the electrostatic potential V produced by the three point charges shown, taking zero at infinity, at the upper right corner (the corner without a charge) of the rectangle in the figure below. Simplify your final expression as much as possible factoring out the common terms, q, L. q = 2.00 µC, L = 0.0300 m. 49 0 2L 29 de nd directtion of Be clect io eld E ata porc d e 0.500 m im the cotero no r b) If a point charge Q= 5.00 µC is placed at the upper right corner of the rectangle (where you found the electrostatic potential in part a)), what is the electrostatic potential energy Uo of Q relative to infinity due to its proximity to the other three point charges?
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