3. Spherical Symmetry (inside sphere): We will now repeat the steps above for a point P inside the sphere. a. Draw the Gaussian surface you need to determine the E at point P where > < b. b. Use the definition of electric flux to write the flux in terms of the unknown E and the radii r and/orb. Your expression should look familiar. Determine the charge enclosed by your Gaussian surface in terms of Q,7, and/orb. b d. Use your answer for (c) and Gauss's law to write the electric flux in terms of of Q, 7, and/or b and physical constants.
3. Spherical Symmetry (inside sphere): We will now repeat the steps above for a point P inside the sphere. a. Draw the Gaussian surface you need to determine the E at point P where > < b. b. Use the definition of electric flux to write the flux in terms of the unknown E and the radii r and/orb. Your expression should look familiar. Determine the charge enclosed by your Gaussian surface in terms of Q,7, and/orb. b d. Use your answer for (c) and Gauss's law to write the electric flux in terms of of Q, 7, and/or b and physical constants.
Chapter5: Electric Charges And Fields
Section: Chapter Questions
Problem 76P: Two point charges, q1=2.0107C and q2=6.0108C , are held 25.0 cm apart. (a) What is the electric...
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