Suppose we've managed to set up an electric field that can be described by the function E→=w1y2i+w2z2j+w3x2k, where w1=8 N/(C⋅ m2), w2=9 N/(C⋅ m2), and w3=9 N/(C⋅ m2). Let's look at a rectangular box in the Cartesian coordinate axes, shown below, with dimensions a=2.5 m along the x-axis, b=6 m along the y-axis, c=4 m along the z-axis. What is the magnitude of the electric flux passing through the shaded area?
Suppose we've managed to set up an electric field that can be described by the function E→=w1y2i+w2z2j+w3x2k, where w1=8 N/(C⋅ m2), w2=9 N/(C⋅ m2), and w3=9 N/(C⋅ m2). Let's look at a rectangular box in the Cartesian coordinate axes, shown below, with dimensions a=2.5 m along the x-axis, b=6 m along the y-axis, c=4 m along the z-axis. What is the magnitude of the electric flux passing through the shaded area?
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter1: Introduction: The Nature Of Science And Physics
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Suppose we've managed to set up an electric field that can be described by the function E→=w1y2i+w2z2j+w3x2k, where w1=8 N/(C⋅ m2), w2=9 N/(C⋅ m2), and w3=9 N/(C⋅ m2). Let's look at a rectangular box in the Cartesian coordinate axes, shown below, with dimensions a=2.5 m along the x-axis, b=6 m along the y-axis, c=4 m along the z-axis.
What is the magnitude of the electric flux passing through the shaded area?
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