Does the value of the magnetic field intensity between the twoconductors depend on the value of µ?O noO yesQuestion 151 ptsDescribe and draw the contour you will use to apply Ampere's circuitallaw. A parallel plate waveguide has plate width w (along x) and separation h(along y). The space between the plates is partially filled with a magneticmaterial withu = HoH, from 0>h. (This means you effectively "can't see" the edges froma point between the plates.)You will be using Ampere's circuital law to find the magnetic fieldintensity H between the plates. Use symmetry to determine the vectordirection of H and identify the coordinate variables it does not dependon.

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Does the value of the magnetic field intensity between the two conductors depend on the value of u? no O yes Question 15 1 p Describe and draw the contour you will use to apply Ampere's circuital law.

Does the value of the magnetic field intensity between the two conductors depend on the value of u? no O yes Question 15 1 p Describe and draw the contour you will use to apply Ampere's circuital law.

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Question

A parallel plate waveguide has plate width w (along x) and separation h
(along y). The space between the plates is partially filled with a magnetic
material withu = HoH, from 0<y<h/2. The rest of the space between the
plates is filled with air (u=µo). In the steps that follow, you will carry out
the analysis necessary to find the inductance per unit length of this
structure.
• Assume a current I flowing in the +z direction on the upper plate and
in the -z direction on the lower plate. The current is uniformly
distributed across the plate width.
• Assume the cross section of the parallel plate waveguide is constant
along the z axis.
• Assume w>>h. (This means you effectively "can't see" the edges from
a point between the plates.)
You will be using Ampere's circuital law to find the magnetic field
intensity H between the plates. Use symmetry to determine the vector
direction of H and identify the coordinate variables it does not depend
on.

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