Related MCQs

• The cutoff frequencies of the first two propagating modes of a Teflon on a filled circular waveguide with a=0.5 with ∈r=2.08 is:
• If β is 0.3 for a circular wave guide operating in TM12 mode with P21=5.315, with the radius of the circular waveguide being equal to 25 mm, then the intrinsic impedance of the wave is:
• For TM01 mode of propagation in a circular waveguide with P01=2.405, with the inner diameter of the circular waveguide being equal to 25 mm. What is the cut off frequency for this mode of propagation?
• In a circular waveguide, if the propagation is in TE21 mode with P21=3.054, with a diameter of 60 mm, then the cutoff frequency for the mode is:
• What is the cutoff frequency for TE₁₁ mode in a circular waveguide of radius 2 cm with P’₁₁= 1.841?
• Bessel’s differential equation for a circular waveguide is:
• In TE mode of a circular waveguide, EZ=0. The wave equation is:
• FOR_TM01_MODE_OF_PROPAGATION_IN_A_CIRCULAR_WAVEGUIDE_WITH_P01=2.405,_WITH_THE_INNER_DIAMETER_OF_THE_CIRCULAR_WAVEGUIDE_BEING_EQUAL_TO_25_MM._WHAT_IS_THE_CUT_OFF_FREQUENCY_FOR_THIS_MODE_OF_PROPAGATION??$
• The cutoff frequencies of the first two propagating modes of a Teflon on a filled circular waveguide with a=0.5 with ‚Äö√Ñ√∂‚àö‚Ć‚àö‚Ćr=2.08 is:$#
• If_‚âà√≠‚Äö√¢¬ß_is_0.3_for_a_circular_wave_guide_operating_in_TM12_mode_with_P21=5.315,_with_the_radius_of_the_circular_waveguide_being_equal_to_25_mm,_then_the_intrinsic_impedance_of_the_wave_is:$#