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point P(-4, 3,6), if the potential field V=2x^2y – 5z, the magnitude of the electric field intensity is equal to

point P(-4, 3,6), if the potential field V=2x^2y – 5z, the magnitude of the electric field intensity is equal to

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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At point P(-4, 3,6), if the potential field V=2x^2y – 5z, the magnitude of the electric field intensity is equal to
15:51 O summation when None of the above the number of small segments becomes equal to zero. the number of small segments becomes equal to one. the number of small segments becomes infinite. the number of small segments becomes finite. At point P(-4, 3,6), if the potential field V=2x^2y – 5z, the magnitude of the electric field intensity is equal to None of the above 106.2 V/m 66 V/m 57.9 V/m 59.7 V/m Back Submit Never submit passwords through Google Forms. 40 II
Transcribed Image Text:15:51 O summation when None of the above the number of small segments becomes equal to zero. the number of small segments becomes equal to one. the number of small segments becomes infinite. the number of small segments becomes finite. At point P(-4, 3,6), if the potential field V=2x^2y – 5z, the magnitude of the electric field intensity is equal to None of the above 106.2 V/m 66 V/m 57.9 V/m 59.7 V/m Back Submit Never submit passwords through Google Forms. 40 II
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