A single isolated point charge is carrying a charge q = 3 [nc]. As shown in the figure, two equipotential surfaces consist of two spheres centered on the point charge : o Sphere 1 of radius r₁ = 1 [m]. o Sphere 2 of radius r2 > 11 where r2 is unknown. 1) Find V₁, the electric potential on the surface of Sphere 1. V₁ = 27 [V] If Sphere 2 is separated 2) from Sphere 1 by a difference of potential AV = 86.7 [V]. q --Sphere2 Sphere1 12. 1 Find r2, the radius of Sphere 2 (Type the detailed solution to this question in the below box, Show all your calculation steps by typing in the box). 3) Find the work required to bring an electron (q=-1.6 x 10-19) [C] from Sphere 2 to Sphere 1 considering that AV-86. 7 [V]. E= -1.387E-17 [J]
A single isolated point charge is carrying a charge q = 3 [nc]. As shown in the figure, two equipotential surfaces consist of two spheres centered on the point charge : o Sphere 1 of radius r₁ = 1 [m]. o Sphere 2 of radius r2 > 11 where r2 is unknown. 1) Find V₁, the electric potential on the surface of Sphere 1. V₁ = 27 [V] If Sphere 2 is separated 2) from Sphere 1 by a difference of potential AV = 86.7 [V]. q --Sphere2 Sphere1 12. 1 Find r2, the radius of Sphere 2 (Type the detailed solution to this question in the below box, Show all your calculation steps by typing in the box). 3) Find the work required to bring an electron (q=-1.6 x 10-19) [C] from Sphere 2 to Sphere 1 considering that AV-86. 7 [V]. E= -1.387E-17 [J]
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