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--- 184_notes:examples:week5_flux_cylinder_line [2018/07/24 15:20] – curdemma
+++ 184_notes:examples:week5_flux_cylinder_line [2021/06/04 00:54] (current) – schram45
@@ Line 11: / Line 11: @@
 ===Lacking===
   * $\Phi_e$ for the cylinder.
-===Approximations & Assumptions===
-  * There are no other charges that contribute appreciably to the flux calculation.
-  * The cylinder is aligned with respect to the line so that its bases are perpendicular to the line, and its wall is parallel (as described).
-  * Line of charge is very very long
 ===Representations===
@@ Line 24: / Line 19: @@
   * We represent the situation with the following diagram.
 [{{ 184_notes:5_cylinder_line.png?400 |Charged Line and Cylindrical Surface}}]
+<WRAP TIP>
+===Approximations & Assumptions===
+There are a few approximations and assumptions we should make in order to simplify our model.
+  * There are no other charges that contribute appreciably to the flux calculation.
+  * The cylinder is aligned with respect to the line so that its bases are perpendicular to the line, and its wall is parallel (as described). This is just a geometric simplification for the model, and ensures the electric field through the cylinder wall is constant as the wall will be at a uniform distance away from the line of charge at any point.
+  * Line of charge is very very long: This allows us to use the electric field equation provided in the problem statement, and ensures the electric field is constant through the wall of our cylinder.
+</WRAP>
 ====Solution====
 First, we evaluate the situation qualitatively. Consider the electric field vectors from the charged line near the surface of the cylinder: