Obase = 0 = plane. e. Determine the total electric flux through the entire inclined plane. Onet N.m²/C Submit Question N-m²/C

Please show all work and only do parts b and e

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$ 4 Obase = 0 e. Determine the total electric flux through the entire inclined plane. N.m²/C Onet R LL F Submit Question % 5 T plane. G N-m²/C 6 V B Y C- & H 7 U N * C + 00 1 M IAA K 4 11 O P

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A horizontally oriented, uniform electric field of magnitude 6.14 108 N/C passes through a closed triangular inclined plane as shown in the figure below where d₁ = 40 cm, d2 = 10 cm, and 0 = 50⁰. di d2 Ē a. Determine the electric flux through the vertical rectangular face that forms the "back" of the inclined plane. (Hint: Since the electric field is horizontally oriented and the rectangular face is vertically oriented, the electric field lines passes directly into the rectangular face.) Orectangle -24560000 Nm²/C b. Determine the electric flux through the slanted "top" of the inclined plane. N.m²/C slanted c. Determine the electric flux through each triangular "side" of the inclined plane.