As can be seen in Figure-1, the region between the two spheres is a region with a dielectric constant ε=3ε0. Potential Va=-5V on sphere with a=2cm radius and b=6cm radius Since Vb=5V on the sphere, in the region between the two spheres;The total amount of charge that will accumulate on both sphere surfaces.The electrostatic energy to be stored in the region between the two spheres.The capacity of the system calculate. Subject is electric field theory.
As can be seen in Figure-1, the region between the two spheres is a region with a dielectric constant ε=3ε0. Potential Va=-5V on sphere with a=2cm radius and b=6cm radius Since Vb=5V on the sphere, in the region between the two spheres;The total amount of charge that will accumulate on both sphere surfaces.The electrostatic energy to be stored in the region between the two spheres.The capacity of the system calculate. Subject is electric field theory.
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As can be seen in Figure-1, the region between the two spheres is a region with a dielectric constant ε=3ε0. Potential Va=-5V on sphere with a=2cm radius and b=6cm radius Since Vb=5V on the sphere, in the region between the two spheres;The total amount of charge that will accumulate on both sphere surfaces.The electrostatic energy to be stored in the region between the two spheres.The capacity of the system calculate.
Subject is electric field theory.
Transcribed Image Text:Va
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