Problem 1 The figure shows two concentric conducting thin spherical shells: • Sphere-A of radius RA = 7 cm and a total charge QA = -5×10-⁹ [C]. Sphere-B of radius RB = 27 cm and a total charge QB 5x10⁹ [c]. A $1 B a) The net electric flux can be calculated using the formula number (refer to the formula sheet for formula number) b) P1, the net electric flux through the spherical surface of radius r = 13 cm from the center of the spheres is given by c) Φι (5.10-⁹) 8.85-10-12 RB RA 0₁ d) ON.m²/C (-5.10-⁹) 8.85-10-12 $₁ Calculate 1. [SI unit] What is the SI unit of the electric flux? ON/C ON/(C.m²) e) Calculate E2, the magnitude of the electric field at r = 42 cm from the center of the spheres. E2 = f) = (0.10-⁹) 8.85-10-1 [SI unit] What is the SI unit of the electric field?

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Problem 1 The figure shows two concentric conducting thin spherical shells: • Sphere-A of radius R = 7 cm and a total charge QA = -5×10-⁹ [C]. Sphere-B of radius RB = 27 cm and a total charge QB = 5×10-⁹ [C]. A $1 a) The net electric flux can be calculated using the formula number (refer to the formula sheet for formula number) b) ₁, the net electric flux through the spherical surface of radius r = 13 cm from the center of the spheres is given by O c) $1 d) = B = E2 f) (5.10-⁹) 8.85-10-12 ON.m²/C = $1 Calculate $₁. [SI unit] What is the SI unit of the electric flux? ON/C ON/(C.m²) e) Calculate E2, the magnitude of the electric field at r = 42 cm from the center of the spheres. RB ON/(C.m²) RA = [SI unit] (-5-10-⁹) 8.85-10-12 O Φ [SI unit] What is the SI unit of the electric field? ON.m²/C ON/C g) Calculate E3, the magnitude of the electric field at r = 6 cm from the center of the spheres? E3 = = (0-10-⁹) 8.85-10-12