An infinitely long wire with linear charge density =+15 nC/m is aligned with the y-axis, and a point charge q=-6 nC is sitting static a distance d=10 mm away from the wire on the +x-axis. a) Where on the positive x-axis will the electric field be zero? b) At what position along the vertical dotted line passing through the point charge q, will the net electric field point at 45° above the x-axis? c) If the charge q had a mass m=12 µg and were in circular orbit around the wire, how fast would it have to be moving to maintain its distance d from the wire? λ d 1 1 -9 x
An infinitely long wire with linear charge density =+15 nC/m is aligned with the y-axis, and a point charge q=-6 nC is sitting static a distance d=10 mm away from the wire on the +x-axis. a) Where on the positive x-axis will the electric field be zero? b) At what position along the vertical dotted line passing through the point charge q, will the net electric field point at 45° above the x-axis? c) If the charge q had a mass m=12 µg and were in circular orbit around the wire, how fast would it have to be moving to maintain its distance d from the wire? λ d 1 1 -9 x
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:An infinitely long wire with linear charge density =+15 nC/m is aligned with the y-axis, and a point charge
q=-6 nC is sitting static a distance d=10 mm away from the wire on the +x-axis.
a) Where on the positive x-axis will the electric field be zero?
b) At what position along the vertical dotted line passing through the point charge q, will the net electric field
point at 45° above the x-axis?
c) If the charge q had a mass m=12 µg and were in circular orbit around the wire, how fast would it have to be
moving to maintain its distance d from the wire?
λ
d
1
1
-9
x
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