+ D Page view | A Read aloud V Draw V Highlight of 2 Erase Q1. "A Gaussian surface has zero net flux," a tutor at a review session says. "Therefore, there are no charges inside the surface." Do you agree? Disagree? Explain. Q2. A pyramid-shaped Gaussian surface is drawn over the top half of a uniformly charged sphere (of charge QJ What's the net flux Oe through the pyramid?
+ D Page view | A Read aloud V Draw V Highlight of 2 Erase Q1. "A Gaussian surface has zero net flux," a tutor at a review session says. "Therefore, there are no charges inside the surface." Do you agree? Disagree? Explain. Q2. A pyramid-shaped Gaussian surface is drawn over the top half of a uniformly charged sphere (of charge QJ What's the net flux Oe through the pyramid?
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Q1. “A Gaussian surface has zero net flux," a tutor at a review session says. "Therefore, there are no
charges inside the surface." Do you agree? Disagree? Explain.
Q2. A pyramid-shaped Gaussian surface is drawn over the top half of a uniformly charged sphere (of
charge Q) What's the net flux g through the pyramid?
Q3. What is the net flux Og through this torus (i.e., a donut)?
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+2q,
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+q
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2/8/2021
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Expert Solution
Step 1
From a positive charge electric field lines point outward whereas for a negative charge electric field lines point inward.
The number of electric field lines passing through a given area or the electric flux is calculated by considering an imaginary closed surface known as Gaussian surface. If more electric field lines passing through a given area then the electric flux is more and vice-versa.
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