A solid nonconducting sphere of radius R = 16.00 cm has a uniform charge distribution of volume charge density p1 = 12.56 pC/m³ from the center to 1/½ R, and a non-uniform charge distribution of volume charge density p2 = ( 2r² + ) pC/m³ from 1/2R to R (r is radial distance). What is the magnitude %3D of the electric field at (a) r = R/3, (b) r = 3R/4 and (c) r = 2R? (d) Draw a graph to show the electric field as a function of r from r = 0 to r = ∞. %3D R R/2 P1 P2

A solid nonconducting sphere of radius R = 16.00 cm has a uniform charge
distribution of volume charge density ?? = ??. ?? pC/m3 from the center to
1/2?, and a non-uniform charge distribution of volume charge density ?? =
( ??? + ??) pC/m3 from 1/2 ? to R (r is radial distance). What is the magnitude
of the electric field at (a) r = R/3, (b) r = 3R/4 and (c) r = 2R? (d) Draw a
graph to show the electric field as a function of r from r = 0 to r = ∞.

Transcribed Image Text:

A solid nonconducting sphere of radius R = 16.00 cm has a uniform charge distribution of volume charge density p1 = 12.56 pC/m³ from the center to 12 R, and a non-uniform charge distribution of volume charge density Pz ( 2r2 + ) pC/m³ from 1/, R toR (r is radial distance). What is the magnitude R/3, (b) r = 3R/4 and (c) r = 2R? (d) Draw a of the electric field at (a) r = graph to show the electric field as a function of r from r = 0 tor = o. R/2 P1 P2