Consider a uniform electric field E of magnitude E = 6.2 N/C. The line segment connecting points A and B in the field is perpendicular to the direction of the field, while the line segment connecting points C and B is parallel to the field. The line segments have equal lengths of d = 0.31 m. Refer to the figure. a.) Find the potential difference, in volts, between point A and point B. b.) Enter an expression for the potential difference between point C and point B in terms of E and d. c.) Calculate the potential difference, in volts, between point C and point B.
Consider a uniform electric field E of magnitude E = 6.2 N/C. The line segment connecting points A and B in the field is perpendicular to the direction of the field, while the line segment connecting points C and B is parallel to the field. The line segments have equal lengths of d = 0.31 m. Refer to the figure. a.) Find the potential difference, in volts, between point A and point B. b.) Enter an expression for the potential difference between point C and point B in terms of E and d. c.) Calculate the potential difference, in volts, between point C and point B.
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter7: Gravitation
Section: Chapter Questions
Problem 51A
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Consider a uniform electric field E of magnitude E = 6.2 N/C. The line segment connecting points A and B in the field is perpendicular to the direction of the field, while the line segment connecting points C and B is parallel to the field. The line segments have equal lengths of d = 0.31 m. Refer to the figure.
a.) Find the potential difference, in volts, between point A and point B.
b.) Enter an expression for the potential difference between point C and point B in terms of E and d.
c.) Calculate the potential difference, in volts, between point C and point B.
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