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    • 3.13: Standing Waves
      https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_I_(Ellingson)/03%3A_Transmission_Lines/3.13%3A_Standing_Waves
      A standing wave consists of waves moving in opposite directions. These waves add to make a distinct magnitude variation as a function of distance that does not vary in time.
    • 9.4: Cavity resonators
      https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/09%3A_Electromagnetic_Waves/9.04%3A_Cavity_resonators
      This page examines rectangular cavity resonators, which are hollow conducting structures operating at discrete resonant frequencies determined by their dimensions. The fundamental mode TE101 marks the...This page examines rectangular cavity resonators, which are hollow conducting structures operating at discrete resonant frequencies determined by their dimensions. The fundamental mode TE101 marks the lowest frequency, with energy decay characterized by a quality factor Q. Physical alterations of the resonator, influenced by electromagnetic forces, affect resonant frequency and energy storage.
    • 3.13: Standing Waves
      https://phys.libretexts.org/Courses/Berea_College/Electromagnetics_I/03%3A_Transmission_Lines/3.13%3A_Standing_Waves
      A standing wave consists of waves moving in opposite directions. These waves add to make a distinct magnitude variation as a function of distance that does not vary in time.
    • 21.13: Standing Waves
      https://phys.libretexts.org/Courses/Kettering_University/Electricity_and_Magnetism_with_Applications_to_Amateur_Radio_and_Wireless_Technology/21%3A_Electrical_Transmission_Lines/21.13%3A_Standing_Waves
      A standing wave consists of waves moving in opposite directions. These waves add to make a distinct magnitude variation as a function of distance that does not vary in time.

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