Starting with Gauss's Law, derive an expression for the electric field a distance r from the axis of an infinitely long thin rod with a uniform linear charge density X. Assume that r is greater than the radius of the rod. (Derive means a series of logical algebraic steps to give a desired formula.) Do your derivation neatly and legibly on your worksheets. Draw a diagram of your surface. In the space below, enter (1) the equation of your derivation that comes right after Gauss's Law, when you have eliminated the integral, and (2) enter your final expression for E. Entering Greek symbols is difficult in canvas so use the words "lambda" instead of X, "pi" instead of T, and "eo" instead of €o

10) Please help on the following question!

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Starting with Gauss's Law, derive an expression for the electric field a distance r from the axis of an infinitely long thin rod with a uniform linear charge density X. Assume that r is greater than the radius of the rod. (Derive means a series of logical algebraic steps to give a desired formula.) Do your derivation neatly and legibly on your worksheets. Draw a diagram of your surface. In the space below, enter (1) the equation of your derivation that comes right after Gauss's Law, when you have eliminated the integral, and (2) enter your final expression for E. Entering Greek symbols is difficult in canvas so use the words "lambda" instead of A, "pi" instead of T, and "eo" instead of eo Edit Format Table 12pt v Paragraph v BIUE