Refer to the figure shown below. Five Gaussian surfaces (S1, S2, S3, S4, and S5) enclose five point charges. Find the net electric flux through each of the closed surface.
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Refer to the figure shown below. Five
Gaussian surfaces (S1, S2, S3, S4, and S5) enclose five point charges. Find the net electric flux through each of the closed surface.
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- What is the net electric flux passing through a cylindrical surface shown below, whose axis is the dashed line? The cylindrical surface is of diameter 4.0 cm, and a length of 15.0 cm, with its axis parallel to, but offset radially by 1.0 cm, from an infinitely long line of charge having a uniform linear charge density A = 3.0 μC/m? The line of charge is the solid line. 1.0 cm 10 O 4.4 x 10³ Nm²/C O 8.7 x 10³ Nm²/C O 1.8 x 105 Nm²/C O 5.1 x 104 Nm²/C O 7.6 x 104 Nm²/C 2 hA thin semi-circular disk of radius r [m] in free space has a uniform surface charge, p [C/m²] distributed evenly over its entire surface. Determine the electric field, E, at point P at the center. surface charge, ps PConsider two nested, spherical conducting shells shown in grey and red in the figure 7. The first has inner radius a and outer radius b. The second has inner radius c and outer radius d. Case I A positive charge +Q is introduced into the center of the inner spherical shell (the grey shell). Asnwer case I
- 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.
- answer please vGaussian 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?A conducting sphere witha net charge Q and radius a sits inside a hollow conducting sphere with a net charge q, inside radius b and ouside radius c. What is the electric field as a function of position? Include answer for r < a, a < r < b, b < r< c and r>c