The electric dipole in the figure consists of two charges, +Q and −Q, that are a distance, d, apart, where Q = 55.4 nC and d = 56.3 cm. Point A, which lies along the vertical (dotted) line midway between the two dipole charges, is an unknown distance, r, from the +Q charge. SYMBOLIC INPUT. Use the variables from the problem: Q, d, r, and Coulomb's constant, k, as needed. ********* A 3
The electric dipole in the figure consists of two charges, +Q and −Q, that are a distance, d, apart, where Q = 55.4 nC and d = 56.3 cm. Point A, which lies along the vertical (dotted) line midway between the two dipole charges, is an unknown distance, r, from the +Q charge. SYMBOLIC INPUT. Use the variables from the problem: Q, d, r, and Coulomb's constant, k, as needed. ********* A 3
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Transcribed Image Text:The electric dipole in the figure consists of two charges, +Q and -Q,
that are a distance, d, apart, where Q = 55.4 nC and d = 56.3 cm.
Point A, which lies along the vertical (dotted) line midway between the
two dipole charges, is an unknown distance, r, from the +Q charge.
SYMBOLIC INPUT. Use the variables from the problem:
Q, d, r, and Coulomb's constant, k, as needed.
Electric Potential (1 of 2)
The electric potential at point A will be ---Select---
The electric potential at point B will be ---Select---
This tells you that the electric field is ---Select---
the middle line.
-.
A
B
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