Let region 1 free space, where z > 0, let region 2 be dielectric with &, = 2ɛ, and magneticsusceptibility with u, = 34,, where z > 0. At z = 0, the surface current density isj, = (20/4)ŷ A/ m² with no surface charge density. For E, = 2 yâx– 3xây – 5zî andB, = 2 yâx– 3x'ŷ +3ż, find D1, D2, E2, B2, H1 and H2 at the boundary.%3D

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Let region 1 free space, where z > 0, let region 2 be dielectric with ɛ, = 2ɛ, and magnetic susceptibility with u, =3µ,, where z > 0. At z = 0, the surface current density is j, = (20/40)ŷ A/ m² with no surface charge density. For E, = 2 yâx – 3xŷ – 5zî and B, = 2 yâx– 3x'ŷ +32, find D1, D2, E2, B2, H1 and H2 at the boundary.

Let region 1 free space, where z > 0, let region 2 be dielectric with ɛ, = 2ɛ, and magnetic susceptibility with u, =3µ,, where z > 0. At z = 0, the surface current density is j, = (20/40)ŷ A/ m² with no surface charge density. For E, = 2 yâx – 3xŷ – 5zî and B, = 2 yâx– 3x'ŷ +32, find D1, D2, E2, B2, H1 and H2 at the boundary.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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