Answer to Question #215127 in Electric Circuits for Shreesh NK

Electric Circuits

Question #215127

Derive an expression for Electric field due uniformly charged solid sphere at a) outside point b) inside point using Gauss's law

Expert's answer

Let, R be the radius of the shell and Q be the charge uniformly distributed on the surface. i) For a point outside the shell :By Gauss's law,"E.dA= \\frac{Q_{en}}{\\epsilon_0}"

"E.(4\\pi r^2)=\\frac{Q_{en}}{\\epsilon_0}"

here r be the distance from centre of shell (r>R) and charge enclosed by surface "Q_{en}=Q" "E=\\frac{kQ}{r^2}" So, Eout"E_{out}=\\frac{Q}{4\\pi\\epsilon_0 r^2}" ii) For a point inside the shell :By Gauss's law,

"E.A=\\frac{Q_{en}}{\\epsilon_0}"

"E.(4\\pi r^2)=\\frac{Q_{en}}{\\epsilon_0}" here r be the distance from centre of shell (r<R) and charge inside the shell, "Q_{en}=0" So

"E.dA=0"

"E_{in}=0"

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