Integrating the expression of the electric field, demonstrate that the electric potential inside a compact sphere of radius "R", and uniform volumetric charge density "p" it's given by: V=p(3R²-r²)/6 Where "r" is the radius distance. Note. R E= pr/380, for r ≤ R pR³/3r² for r≥ R

Integrating the expression of the electric field, demonstrate that the electric potential inside a compact sphere of radius "R", and uniform volumetric charge density "p" it's given by: V=p(3R²-r²)/6 Where "r" is the radius distance. Note. R E= pr/380, for r ≤ R pR³/3r² for r≥ R

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Integrating the expression of the electric field, demonstrate that the electric potential inside a compact
sphere of radius "R", and uniform volumetric charge density "p" it's given by: V=p(3R²-r²)/6
Where "r" is the radius distance.
Note.
R
E=
pr/380, for r ≤ R
pR³/3r² for r≥ R

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