Question 2.41: Two homogeneous, linear, isotropic magnetic materials have a...

Fundamentals of Electromagnetics with Matlab

Two homogeneous, linear, isotropic magnetic materials have an interface at x = 0. At the interface, there is a surface current with a density J_L = 20 u_y A/m. The relative permeability µ_r1 = 2 and the magnetic field intensity in the region x < 0 is H₁ = 15u_x +10 u_y + 25u_z A/m. The relative permeability µ_r2 = 5 in the region x > 0. Find the magnetic field intensity in the region x > 0.

2.41

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The magnetic field is separated into components and the boundary conditions are applied independently. For the normal component, (2.180) implies

$\mu_{2} \mu_{0} H_{2 n}-\mu_{1} \mu_{0} H_{1 n}=0$ (2.180)

$\mu_{2} \mu_{0} H _{2 n }=\mu_{1} \mu_{0} H _{1 n } \Rightarrow H _{2 x }=\frac{\mu_{1}}{\mu_{2}} H _{1 x }=\frac{2}{5} 15=6 A / m$

For the tangential components, we use (2.186) and write

$H _{2 t }- H _{1 t }= J _{ s } \Rightarrow H _{2 z }= H _{1 z }+J_{ y }=25+20=45 A / m$

There is no change in the y component of the magnetic field intensity. Therefore,

H₂ = 6 u_x +10 u_y + 45 u_z A/m .

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