A long, conducting cylindrical shell with zero net charge has - inner radius 71 = 11 mm and outer radius r2 = 12 mm. A thin wire with linear charge density A lies along the central axis of the cylindrical shell. The wire induces a surface charge density - of a = 350 µC/m² on the inner surface of the cylindrical shell.. What is X? For the limits check, investigate what must happen - to A to achieve a very small induced surface charge density on- the inner surface (o → 0).

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A long, conducting cylindrical shell with zero net charge has - inner radius 7₁ = 11 mm and outer radius r2 = 12 mm. A thin- wire with linear charge density A lies along the central axis of the cylindrical shell. The wire induces a surface charge density of a = 350 µC/m² on the inner surface of the cylindrical shell. – What is X? For the limits check, investigate what must happen to A to achieve a very small induced surface charge density on the inner surface (o → 0). C Representation Physics Concept(s) (Refer to the list posted on Carmen) FF: (1) sen T

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Algebra Work (Symbols only. Don't plug in any numbers yet.) Symbolic Answer: Units Check Limits Check a) As o → 0, what limit does A approach? b) Why does the result make physical sense? Numerical Answer: (Obtain this by plugging numbers into your symbolic answer.)