The figure below shows two small, charged spheres separated by a distance of d = 4.00 cm. The charges are q1 = −13.0 nC and q2 = 29.5 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.) Two charges and two points lie along the perimeter of an equilateral triangle with side length d (interior angle 60.0°). Negative charge q1 is at the bottom left vertex. Positive charge q2 is at the bottom right vertex. Point A is at the top vertex. Point B is on the bottom edge, midway between q1 and q2. (a) What is the electric potential (in kV) at point A? Correct: Your answer is correct. kV (b) What is the electric potential (in kV) at point B? Incorrect: Your answer is incorrect.

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MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER The figure below shows two small, charged spheres separated by a distance of d = 4.00 cm. The charges are q1 = −13.0 nC and q2 = 29.5 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.) Two charges and two points lie along the perimeter of an equilateral triangle with side length d (interior angle 60.0°). Negative charge q1 is at the bottom left vertex. Positive charge q2 is at the bottom right vertex. Point A is at the top vertex. Point B is on the bottom edge, midway between q1 and q2. (a) What is the electric potential (in kV) at point A? Correct: Your answer is correct. kV (b) What is the electric potential (in kV) at point B? Incorrect: Your answer is incorrect.
ASK YOUR TEACHER
gure below shows two small, charged s
-13.0 nC and
92
= 29.5 nC. Point B is
%3D
teral triangle, with each side of length
A
d
60.0°
42
What is the electric potential (in kV) at
3.71
kV
Transcribed Image Text:ASK YOUR TEACHER gure below shows two small, charged s -13.0 nC and 92 = 29.5 nC. Point B is %3D teral triangle, with each side of length A d 60.0° 42 What is the electric potential (in kV) at 3.71 kV
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