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Practice Test 2
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Q1
A conducting spherical shell has net charge $Q=-2.0,\text{nC}$. A spherical Gaussian surface of radius $r=0.30,\text{m}$ is centered on it in air, and symmetry allows Gauss’s Law. Considering the described process, if the charge is $-2.0,\text{nC}$, what is the resulting electric field magnitude at $0.30,\text{m}$?
A conducting spherical shell has net charge $Q=-2.0,\text{nC}$. A spherical Gaussian surface of radius $r=0.30,\text{m}$ is centered on it in air, and symmetry allows Gauss’s Law. Considering the described process, if the charge is $-2.0,\text{nC}$, what is the resulting electric field magnitude at $0.30,\text{m}$?