h) In symbols, what is the total flux through the sphere? (Use equation from introduction) 1) Notice that in this case the electric field lines intersect the sphere perpendicular to its surface and that the electric field strength is uniform over the surface. How do we know that the electric field strength does not vary over the surface? j) Because of the simplifying conditions discussed in part (f), we can apply Gauss' Law to find the electric field due to +Q. Find the electric field for a point charge +Q. (Recall that the surface area of a sphere is 4tr²) k) Graph E versus r, using proper scales and units to axis
h) In symbols, what is the total flux through the sphere? (Use equation from introduction) 1) Notice that in this case the electric field lines intersect the sphere perpendicular to its surface and that the electric field strength is uniform over the surface. How do we know that the electric field strength does not vary over the surface? j) Because of the simplifying conditions discussed in part (f), we can apply Gauss' Law to find the electric field due to +Q. Find the electric field for a point charge +Q. (Recall that the surface area of a sphere is 4tr²) k) Graph E versus r, using proper scales and units to axis
College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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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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Equation is.
∫E•dA (integrated over a closed surface) = q enclosed/∈o
Transcribed Image Text:h) In symbols, what is the total flux through the sphere? (Use equation from
introduction)
i) Notice that in this case the electric field lines intersect the sphere
perpendicular to its surface and that the electric field strength is uniform
over the surface. How do we know that the electric field strength does not
vary over the surface?
j) Because of the simplifying conditions discussed in part (f), we can apply
Gauss' Law to find the electric field due to +Q. Find the electric field for a
point charge +Q. (Recall that the surface area of a sphere is 4t7²)
k) Graph E versus r, using proper scales and units to axis
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