2. There is a charge density of pv0 C/m^3 in a spherical region defined by 0 <= R<= a, shown in the figure on the side, and there is no charge in a spherical region defined by a <= R <= b. However, in the region defined by b <= R <= ==, the volumetric charge density is given by pv0 = pv0/ R^4 C/m^3. According to this; a) Draw the figure to show the direction of the electric flux density vector vec(E) and | vec(E)| of Determine which of the coordinate variables (R,, 0, 0) it changes with. b) Find the Electric Field intensity vec(E) vector only at points where R > b. Xx R=b N Pvo E R=a Pv Pvo R4 Eo Eo y
2. There is a charge density of pv0 C/m^3 in a spherical region defined by 0 <= R<= a, shown in the figure on the side, and there is no charge in a spherical region defined by a <= R <= b. However, in the region defined by b <= R <= ==, the volumetric charge density is given by pv0 = pv0/ R^4 C/m^3. According to this; a) Draw the figure to show the direction of the electric flux density vector vec(E) and | vec(E)| of Determine which of the coordinate variables (R,, 0, 0) it changes with. b) Find the Electric Field intensity vec(E) vector only at points where R > b. Xx R=b N Pvo E R=a Pv Pvo R4 Eo Eo y
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