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What is difference between Rectangular Waveguide and Circular Waveguide?

circular is easy to manufacture than rectangular As the name indicates the circular is circular in shape and rectangular is rectangular in shape its uses same modes that is Te and Tm I know this much only hope this helped u little bit atleast A: In principle waveguides act as the equivalent of wires for high frequency circuits. For such applications, it is desired to operate waveguides with only one mode propagating inside of the waveguide. With rectangular waveguides, it is possible to design the waveguide such that the frequency band over which only one mode propagates is as high as 2:1 (i.e. the ratio of the upper band edge to lower band edge is 2). With circular waveguides, the highest possible band width allowing only a single mode to propagate is only 1.3601:1. I found it on Wikileaks.


Why TM01 mode does not exist in rectangular waveguide?

if any of the m or n in case of TM MODE becomes zero then all the field components vanishes. Hence the waveguide has no relevence with TM01, TM10 or TM00 modes. Therefore TM11 is the lowest order mode of all TMmn modes. For similer reasons TE00 mode can not propagate through the waveguide.


Why the te0 mode is the dominant mode in rectangular waveguide?

Because it has the lowest cut-off frequency (highest cut off wavelength) for a>b o


Why rectangular wave guide is preferred over a square waveguide for usual microwave transmissions?

A square waveguide does not allow single mode operation as for example fc(TEmn)=fc(TEnm).


Can a waveguide have more than one cut off frequency?

yes it can have coz fc= c/2[(m/a)2+(n/b)2]1/2 therefore for various modes(which decide m,n) nd dimensions(a,b) of waveguide it will have different cut off frequency. A normal waveguide is used in the octave frequency range where only the fundamental mode can propagate.

Related Questions

What is the dominant mode in rectangular waveguide?

Rectangular Waveguide - TE10; (TM11 in case of TM waves) Circular Waveguide - TE11;


What is the fundamental mode in circular waveguides?

The fundamental mode in circular waveguides is the TE11 mode, which is characterized by having one half-wave variation along the radius and one full-wave variation along the circumference of the waveguide. It is the lowest order mode that can propagate in a circular waveguide.


What is circular waveguide?

It is a waveguide that is circular. Circular waveguides have modes that are described in terms of Bessel functions instead of the sines/cosines used for rectangular waveguides. The disadvantage is that the two lowest modes have cutoff frequencies spaced by less than an octave. Circular waveguides are used for rotating joints, for example in radar. The H01 mode in circular waveguide was used as a low-loss mode for transmitting signals over distance, but this technique has been replaced by fibre-optic cables.


Why the te10 mode is the dominant mode in rectangular waveguide?

TE10 mode is the dominant mode with a>b, since it has the lowest attenuation of all modes. Either m or n can be zero, but not both.


Does tm10 mode of waveguide exist?

No it does not. The least mode for TM modes is the TM11 mode.


What is difference between Rectangular Waveguide and Circular Waveguide?

circular is easy to manufacture than rectangular As the name indicates the circular is circular in shape and rectangular is rectangular in shape its uses same modes that is Te and Tm I know this much only hope this helped u little bit atleast A: In principle waveguides act as the equivalent of wires for high frequency circuits. For such applications, it is desired to operate waveguides with only one mode propagating inside of the waveguide. With rectangular waveguides, it is possible to design the waveguide such that the frequency band over which only one mode propagates is as high as 2:1 (i.e. the ratio of the upper band edge to lower band edge is 2). With circular waveguides, the highest possible band width allowing only a single mode to propagate is only 1.3601:1. I found it on Wikileaks.


Why TM01 mode does not exist in rectangular waveguide?

if any of the m or n in case of TM MODE becomes zero then all the field components vanishes. Hence the waveguide has no relevence with TM01, TM10 or TM00 modes. Therefore TM11 is the lowest order mode of all TMmn modes. For similer reasons TE00 mode can not propagate through the waveguide.


What are the Differences between horn antenna and waveguide?

waveguide is a metal pipe that contains and guides microwaves from place to place in a microwave system (e.g. oscillators, amplifiers, mixers, modulators, filters, antennas)horn antenna has a waveguide connected at its focus, in transmit mode the waveguide feeds the horn which then emits a microwave beam, in receive mode the horn collects a microwave beam and concentrates it int the waveguide


Why the te0 mode is the dominant mode in rectangular waveguide?

Because it has the lowest cut-off frequency (highest cut off wavelength) for a>b o


Why rectangular wave guide is preferred over a square waveguide for usual microwave transmissions?

A square waveguide does not allow single mode operation as for example fc(TEmn)=fc(TEnm).


Can a waveguide have more than one cut off frequency?

yes it can have coz fc= c/2[(m/a)2+(n/b)2]1/2 therefore for various modes(which decide m,n) nd dimensions(a,b) of waveguide it will have different cut off frequency. A normal waveguide is used in the octave frequency range where only the fundamental mode can propagate.


How Radiation mode work in a optical fiber?

From Wikipedia, the free encyclopediaJump to: navigation, search For an optical fiber or waveguide, a radiation mode or unbound mode is a mode which is not confined by the fiber core. Such a mode has fields that are transversely oscillatory everywhere external to the waveguide, and exists even at the limit of zero wavelength.Specifically, a radiation mode is one for whichwhere β is the imaginary part of the axial propagation constant, integer l is the azimuthal index of the mode, n(r) is the refractive index at radius r, a is the core radius, and k is the free-space wave number, k = 2π/λ, where λ is the wavelength. Radiation modes correspond to refracted rays in the terminology of geometric optics.