S5 S3 +7 nC - 6 nC + +3 nC + S4 S2 - 5 nº - 4 nC +2 nC +
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Refer to the figure shown. Find the net electric flux of the enclosed charges through all five (5) Gaussian surfaces (S).
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- An infinitely long line charge having uniform charge per unit length 2 lies a distance d from the center of a sphere of radius R. Determine the total electric flux through the surface of the sphere due to the line charge. Consider the cases a) R d.Question 7 Shown in the figure is a point charge at the middle of two spherical conducting shells. The net charge of the point charge at the center is 3.0q. The inner shell has a net charge of 5.0q and the outer shell has a net charge of 5.0q. In terms of q. determine the net charge on the outermost surface of the outer shell. Enter your answer in terms of q. If the net charge on the outermost surface of the outer shell is negative, a negative value must be entered.A group of four charges and four Gaussian surfaces are laid out in the figure. The charges have values q1 = 6 nC, q2 = -6 nC, q3 = 19 nC, and q4 = -11 nC. What is the flux through the first surface, S1, in Nm2/C? What is the flux through the second surface, S2, in Nm2/C? What is the flux through the third surface, S3, in Nm2/C? What is the flux through the fourth surface, S4, in Nm2/C?
- We have calculated the electric field due to a uniformly charged disk of radius R, along its axis. Note that the final result does not contain the integration variable r: R. Q/A 2€0 Edisk (x² +R*)* Edisk perpendicular to the center of the disk Uniform Q over area A (A=RR²) Show that at a perpendicular distance R from the center of a uniformly negatively charged disk of CA and is directed toward the disk: Q/A radius R, the electric field is 0.3- 2€0 4.4.1bConsider two imaginary spherical surfaces surrounding a point charge +Q. One is a sphere of radius 10 cm and the other is a sphere of radius 20 cm. Which statement about the net flux through these surfaces is correct? correct? The net flux through the larger sphere is the same as the net flux through the smaller sphere. The net flux through the larger sphere is half the net flux through the smaller sphere. The net flux through the larger sphere is four times the net flux through the smaller sphere. The net flux through the larger sphere is one fourth the net flux through the smaller sphere. The net flux through the larger sphere is twice the net flux through the smaller sphere.Gaussian surface 1 has twice the area of Gaussian surface 2. Both surfaces enclose the same charge Q. Is the electric flux through surface 1 greater than, less than, or the same as the electric flux through surface 2?