Note: Please use paper and black ink thanks. 22.57 •• DATAThevolume Figure P22.57charge density p for a spheri-cal charge distribution of radiusp (µC/m³)10.0R = 6.00 mm is not uniform.8.0Figure P22.57 shows p asa6.0function of the distance r fromthe center of the distribution.4.0Calculate the electric field at2.0these values of r: (i) 1.00 mm;r (mm)2.00 4.00 6.00 8.00(ii) 3.00 mm; (ii) 5.00 mm;(iv) 7.00 mm.-2.0

Given, non uniform Charge density distribution

22.57 •• DATA The volume Figure P22.57 charge density p for a spheri- cal charge distribution of radius R = 6.00 mm is not uniform. Figure P22.57 shows p as p (µC/m³) 10.0 8.0 a 6.0 function of the distance r from the center of the distribution. 4.0 Calculate the electric field at 2.0 these values of r: (i) 1.00 mm; r (mm) 2.00 4.00 6.00 8.00 (ii) 3.00 mm; (iii) 5.00 mm; (iv) 7.00 mm. -2.0

22.57 •• DATA The volume Figure P22.57 charge density p for a spheri- cal charge distribution of radius R = 6.00 mm is not uniform. Figure P22.57 shows p as p (µC/m³) 10.0 8.0 a 6.0 function of the distance r from the center of the distribution. 4.0 Calculate the electric field at 2.0 these values of r: (i) 1.00 mm; r (mm) 2.00 4.00 6.00 8.00 (ii) 3.00 mm; (iii) 5.00 mm; (iv) 7.00 mm. -2.0

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Question

Note: Please use paper and black ink thanks.

22.57 •• DATA
The
volume Figure P22.57
charge density p for a spheri-
cal charge distribution of radius
p (µC/m³)
10.0
R = 6.00 mm is not uniform.
8.0
Figure P22.57 shows p as
a
6.0
function of the distance r from
the center of the distribution.
4.0
Calculate the electric field at
2.0
these values of r: (i) 1.00 mm;
r (mm)
2.00 4.00 6.00 8.00
(ii) 3.00 mm; (ii) 5.00 mm;
(iv) 7.00 mm.
-2.0

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