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    • https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/07%3A_TEM_transmission_lines/7.03%3A_Methods_for_matching_transmission_lines
      This page discusses frequency-dependent behavior in transmission lines and ways to minimize reflections through tuning strategies, including the use of obstacles and reactive components. It explores t...This page discusses frequency-dependent behavior in transmission lines and ways to minimize reflections through tuning strategies, including the use of obstacles and reactive components. It explores the relationship between reflection coefficients and normalized impedances, emphasizing the Smith chart for analyzing and achieving impedance matching.
    • https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/07%3A_TEM_transmission_lines/7.04%3A_TEM_resonances
      This page explores the characteristics and applications of resonators, focusing on their energy storage, filtering capabilities, and quality factor (Q). It discusses the dynamics of transmission line ...This page explores the characteristics and applications of resonators, focusing on their energy storage, filtering capabilities, and quality factor (Q). It discusses the dynamics of transmission line resonators, their resonant frequencies, and the relationship between electric and magnetic energy. Key topics include the orthogonality of resonance modes, the impact of reactive impedances, and performance influenced by resistive elements.
    • https://phys.libretexts.org/Bookshelves/Waves_and_Acoustics/The_Physics_of_Waves_(Goergi)/08%3A_Traveling_Waves/8.04%3A_Transmission_Lines
      If the transmission line is stretched in the z direction, we can describe the charges on the transmission line by a function Q(z,t) that is the charge that has been displaced through the point...If the transmission line is stretched in the z direction, we can describe the charges on the transmission line by a function Q(z,t) that is the charge that has been displaced through the point z on the transmission line at time t.
    • https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/07%3A_TEM_transmission_lines/7.02%3A_TEM_lines_with_junctions
      This page covers boundary value problems in transmission lines, emphasizing the uniqueness theorem and steps to resolve these issues through wave behavior and boundary conditions. It explains lossless...This page covers boundary value problems in transmission lines, emphasizing the uniqueness theorem and steps to resolve these issues through wave behavior and boundary conditions. It explains lossless TEM transmission lines and their wave equations, introduces reflection and transmission coefficients, and examines the behavior of standing waves and load impedance.

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