The figure below shows two charged particles separated by a distance of d = 1.50 cm. The charges are q₁ = -15.5 nC and q₂ = 26.5 nC. Point B is at the midpoint between the two charges, and point A is at the peak of an equilateral triangle, with each side of length d, as shown. (Assume the zero of electric potential is at infinity.) 9 60.0⁰ B d (a) What is the electric potential (in kV) at point A? kV (b) What is the electric potential (in kV) at point B? kV

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The figure below shows two charged particles separated by a distance of d = 1.50 cm. The charges are ₁ = -15.5 nC and 92
= 26.5 nC. Point B is at the midpoint between
the two charges, and point A is at the peak of an equilateral triangle, with each side of length d, as shown. (Assume the zero of electric potential is at infinity.)
d
d
A
60.0⁰ B
d
(a) What is the electric potential (in kV) at point A?
kV
(b) What is the electric potential (in kV) at point B?
kV
Transcribed Image Text:The figure below shows two charged particles separated by a distance of d = 1.50 cm. The charges are ₁ = -15.5 nC and 92 = 26.5 nC. Point B is at the midpoint between the two charges, and point A is at the peak of an equilateral triangle, with each side of length d, as shown. (Assume the zero of electric potential is at infinity.) d d A 60.0⁰ B d (a) What is the electric potential (in kV) at point A? kV (b) What is the electric potential (in kV) at point B? kV
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