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A signal propagated in a waveguide has a full wave of electric intensity change between the two further walls, and no component of the electric field in the direction of propagation. The mode is
  • a)
    TE1.1
  • b)
    TE1.0
  • c)
    TM2.2
  • d)
    TE2.0
Correct answer is option 'D'. Can you explain this answer?
Most Upvoted Answer
A signal propagated in a waveguide has a full wave of electric intensi...
Explanation:

Full wave of electric intensity change between two further walls means that the electric field is maximum at one wall and minimum at the other wall. This is a characteristic of Transverse Electric (TE) modes.

No component of the electric field in the direction of propagation means that the electric field is perpendicular to the direction of propagation. This is a characteristic of Transverse Magnetic (TM) modes.

Combining these two characteristics, we can conclude that the mode is TE2.0, which is a type of TE mode where the electric field has two nodal points along the direction of propagation (i.e., it has two wave cycles in the transverse direction) and zero electric field component in the direction of propagation.

Therefore, option D (TE2.0) is the correct answer.
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A signal propagated in a waveguide has a full wave of electric intensity change between the two further walls, and no component of the electric field in the direction of propagation. The mode isa)TE1.1b)TE1.0c)TM2.2d)TE2.0Correct answer is option 'D'. Can you explain this answer?
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