(a) Two conducting spherical shells are concentric and isolated. The first spherical shell has radius of R1 = 1.0 m and charge q1 = +4.0 µC while the second spherical shell has %3D radius of R2 = 2.0 m and charge q2 = +2.0 µC. Calculate the magnitude of electric field E at radial distance of i. r = 5.0 m ii. r = 1.5 m iii. r= 0.5 m With V= 0 at infinity, calculate the electric potential, V at iv. r= 5.0 m V. r = 1.5 m vi. r= 0.5 m Sketch graph of E vs r and V vs r.

(a) Two conducting spherical shells are concentric and isolated. The first spherical shell has radius of R1 = 1.0 m and charge q1 = +4.0 µC while the second spherical shell has %3D radius of R2 = 2.0 m and charge q2 = +2.0 µC. Calculate the magnitude of electric field E at radial distance of i. r = 5.0 m ii. r = 1.5 m iii. r= 0.5 m With V= 0 at infinity, calculate the electric potential, V at iv. r= 5.0 m V. r = 1.5 m vi. r= 0.5 m Sketch graph of E vs r and V vs r.

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Question

(a) Two conducting spherical shells are concentric and isolated. The first spherical shell
has radius of R1 = 1.0 m and charge q1 = +4.0 µC while the second spherical shell has
radius of R2= 2.0 m and charge q2 = +2.0 µC. Calculate the magnitude of electric field
E at radial distance of
i.
r = 5.0 m
ii.
r = 1.5 m
iii.
r = 0.5 m
With V= 0 at infinity, calculate the electric potential, V at
iv.
r = 5.0 m
V.
r = 1.5 m
vi.
r = 0.5 m
Sketch graph of E vs r and V vs r.

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