The surface 0=0.7rad represents the boundary between two regions; region 1 is free space for 0< 0.7rad, and region 2 has e, =78 and u,=46 for 0>0.7rad. The normal unit vector is from medium 1 into medium 2. The electric field in region 1 at the boundary is given by El = (0.2)a, + (0.2)ag + (7.4)a, V/m, and the %3D magnetic field in region 1 at the boundary is given by H1 = (-2.2)a, +(-8.2)ag + (8))a, A/m. The tangential electric field vector in region 2 at the boundary in V/m is: 0.2 a, +0 ag + 7.4 as One possible correct answer is: 0.2, 0, 7.4 The normal magnetic flux density vector in uWb/m in region 2 at the boundary is: 01 a, + -2.240092153 as One possible correct answer is: 0, -10.304423903775, 0

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The surface 0=0.7rad represents the boundary between two regions; region 1 is free space for 0< 0.7rad, and region 2 has e, =78 and u,=46 for 0>0.7rad. The normal unit vector is from medium 1 into medium 2. The electric field in region 1 at the boundary is given by El: (0.2)a, + (0.2)ag + (7.4)a, V/m, and the %3D magnetic field in region 1 at the boundary is given by H1 = (-2.2)a, +(-8,2)ag+ (8)a, A/m. %3D The tangential electric field vector in region 2 at the boundary in V/m is: 0.2 a, + 0 ag + 7.4 One possible correct answer is: 0.2, 0, 7.4 The normal magnetic flux density vector in uWb/m- in region 2 at the boundary is: 01 a, + -2.240092153 ao One possible correct answer is: 0, -10.304423903775, 0