Q7) While deriving the electric and magnetic fields in the class we assumed that only one wave is travelling in the +z direction. Derive the electric and magnetic fields of a waveguide which is closed at both ends with a metal plate. It is fed using a voltage probe. Essentially now there will be wave in both +z and-z direction. You can only give the fields for TE mode. Also specify the subscript which represent half cycle variation in a particular dimension you will have to add in this case h
Q7) While deriving the electric and magnetic fields in the class we assumed that only one wave is travelling in the +z direction. Derive the electric and magnetic fields of a waveguide which is closed at both ends with a metal plate. It is fed using a voltage probe. Essentially now there will be wave in both +z and-z direction. You can only give the fields for TE mode. Also specify the subscript which represent half cycle variation in a particular dimension you will have to add in this case h
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Transcribed Image Text:Q7) While deriving the electric and magnetic fields in the class we assumed that only one wave is travelling
in the +z direction. Derive the electric and magnetic fields of a waveguide which is closed at both ends with
a metal plate. It is fed using a voltage probe. Essentially now there will be wave in both +z and-z direction.
You can only give the fields for TE mode. Also specify the subscript which represent half cycle variation
in a particular dimension you will have to add in this case
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