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A Charge Q = 2

question 40

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A charge q = 2.00 μC is placed at the origin in a region where there is already a uniform electric field A charge q = 2.00 μC is placed at the origin in a region where there is already a uniform electric field = (100 N/C) .Calculate the flux of the net electric field through a Gaussian sphere of radius centered at the origin.(ε<sub>0</sub> = 8.85 × 10<sup>-12</sup> C<sup>2</sup>/N ∙ m<sup>2</sup>) A) 5.52 × 10<sup>5</sup> N ∙ m<sup>2</sup>/C B) 1.13 × 10<sup>5 </sup>N ∙ m<sup>2</sup>/C C) 2.26 × 10<sup>5</sup> N ∙ m<sup>2</sup>/C D) zero = (100 N/C) A charge q = 2.00 μC is placed at the origin in a region where there is already a uniform electric field = (100 N/C) .Calculate the flux of the net electric field through a Gaussian sphere of radius centered at the origin.(ε<sub>0</sub> = 8.85 × 10<sup>-12</sup> C<sup>2</sup>/N ∙ m<sup>2</sup>) A) 5.52 × 10<sup>5</sup> N ∙ m<sup>2</sup>/C B) 1.13 × 10<sup>5 </sup>N ∙ m<sup>2</sup>/C C) 2.26 × 10<sup>5</sup> N ∙ m<sup>2</sup>/C D) zero .Calculate the flux of the net electric field through a Gaussian sphere of radius A charge q = 2.00 μC is placed at the origin in a region where there is already a uniform electric field = (100 N/C) .Calculate the flux of the net electric field through a Gaussian sphere of radius centered at the origin.(ε<sub>0</sub> = 8.85 × 10<sup>-12</sup> C<sup>2</sup>/N ∙ m<sup>2</sup>) A) 5.52 × 10<sup>5</sup> N ∙ m<sup>2</sup>/C B) 1.13 × 10<sup>5 </sup>N ∙ m<sup>2</sup>/C C) 2.26 × 10<sup>5</sup> N ∙ m<sup>2</sup>/C D) zero centered at the origin.(ε0 = 8.85 × 10-12 C2/N ∙ m2)

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