Charge of uniform density rho = +3.4 mu C/m^3 fills a nonconducting solid sphere
ID: 1545550 • Letter: C
Question
Charge of uniform density rho = +3.4 mu C/m^3 fills a nonconducting solid sphere of radius R = 5.1 cm. a.) Electric field: Find the electric field at the following locations, listed in order of decreasing distance: E(r = 6.12 cm) = 0 N/C r E(r = R) = 16531.073 N/C f E(r = 3.5 cm) = 4482.109 N/C ? E(r = 0 cm) = 0 N/C Also, sketch E_r vs. r from r=0 to infinity. On your graph, mark off where r=R occurs. Inside the sphere (r R), graph's shape is: b.) Voltage: Setting V=0 at r = infinity, find the voltage at these same locations. V(r = 6.12 cm) = V(r = R) = 600000 V(r = 3.5 cm) = V(r = 0 cm) Also, sketch V vs. r from r=0 to infinity. On your graph, mark off where r=R occurs. Inside the sphere (rExplanation / Answer
if r > R
E = KQ/R^2
Q = charge density * volume
volume = 4*pi*r^3/3
r = 5.1 cm = 5.1 x 10^-2 m
Q = 1.889 x 10^-9 C
E = 4539.6 N/C
part b )
if r > R
V = kQ/r
r = 6.12 cm
V = 277.79 V
r = R
V = kQ/R
V = 333.35 V
r < R
V = kQ/2R * ( 3 - r^2/R^2)
r = 3.5 cm
R = 5.1 cm
V = 421.53 V
r = 0
V = 3kQ/2R
V = 500V