determine the resonant of the dominant cavity mode for an air-filled rectangular waveguide cavity with dimension...

Find the impedance of the lowest or dominant mode of a rectangular waveguide filled with dielectric...

Find the impedance of the lowest or dominant mode of a rectangular waveguide filled with dielectric material with Er=9 and having dimensions a=1cm b=0.5cm , to be used at 20Ghz

a) Find the resonant frequency for cylindrical cavity with radius a = 2cm and height b=5cm,...

a) Find the resonant frequency for cylindrical cavity with radius a = 2cm and height b=5cm, Ni = 1; for TM110, TM111 and TM 021 mode. b) What is its dominant mode fo TM? Find resonant frequency for it.

1. It is desired to design a rectangular waveguide that propagates only the lowest order mode...

1. It is desired to design a rectangular waveguide that propagates only the lowest order mode TE10 and operates at 10 GHz. If the waveguide is air filled, determine the waveguide dimensions (a and b) such that the desired operating frequency is 38% above the cutoff frequency of the TE10 mode. Although the dimension b of waveguide is often taken as b=a/2, for attenuation considerations and also to improve the waveguide power handling capacity, it is desired to design a...

A rectangular waveguide is to be constructed for single-mode operation at 3 GHz. The waveguide must...

A rectangular waveguide is to be constructed for single-mode operation at 3 GHz. The waveguide must be designed so that this operating frequency is 20% higher than the cutoff frequency of the lowest mode, and, at the same time, is 20% lower than the cutoff frequency of the next higher mode. The waveguide will be filled with a dielectric material with relative electrical permittivity of 2. Determine the cross-sectional dimensions, a and b, of the waveguide. Answer: 4.2 cm x...

5. A rectangular cavity has cross-section 0.38 x 0.76 cm. If it oscillates in the TE102...

5. A rectangular cavity has cross-section 0.38 x 0.76 cm. If it oscillates in the TE102 mode at 50 GHz, calculate the length (l) of the cavity with air dielectric. Are there other modes with the same resonant frequency?

A TM wave propagating in a dielectric filled waveguide of unknown permittivity has a magnetic field...

A TM wave propagating in a dielectric filled waveguide of unknown permittivity has a magnetic field with y-component given by: By = 6cos(25πx)sin(100πy)sin(1.5πx1010t - 109πz) If the guide dimensions are a=2b=4cm determine: (a) the mode numbers, (b) the relative permittivity of the material in the guide, (c) the phase velocity (d) an expression for Ex

At 15 GHz, an air-filled 5 cm X 2 cm waveguide has Ezs = 20 sin...

At 15 GHz, an air-filled 5 cm X 2 cm waveguide has Ezs = 20 sin 40?x sin 50?y e-j?z V/m. a) What mode is being propagated? b) Find ?. c) Determine Ey/Ex.

An air-filled waveguide has a cross-section which is 50 mm wide by 40 mm high. Find...

An air-filled waveguide has a cross-section which is 50 mm wide by 40 mm high. Find (a) the modes (both TE and TM) which this guide will transmit with ? > 37.5mm and (b) the relative phase velocity (v/c) in the guide for each of the modes passed if ? = 0.6 ?C.

A laser can be made by placing a light source in an optical resonant cavity which...

A laser can be made by placing a light source in an optical resonant cavity which has two highly reflective flat mirrors at its ends. Light produced by the source will reflect back and forth from the end mirrors and so produce standing waves. Assume that the mirrors at the ends of the cavity are nodes of the standing wave pattern. (a) What are the frequencies of the normal modes of the cavity in terms of the distance L between...

Answer the following waveguide fundamental questions A)What is the value of the cutoff frequency for a...

Answer the following waveguide fundamental questions A)What is the value of the cutoff frequency for a TE32 mode in an air filled waveguide of dimensions 4 centimetres by 3 centimetres? B) If a wave is introduced at a lower frequency than the cutoff frequency, what happens? C) If a wave is introduced at a higher frequency than the cutoff frequency, what happens? D) What is the value of the cutoff frequency and the useful operating frequency range for a waveguide...