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The nature of Free Space (Once called, "The Lumeniferous Aether")
What is the nature of free space such that it requires antennae to be at
least 1/4 wave before accepting radiation efficiently? Is it that some form of electric "twist" must be appled to Free Space, and that the maximum "twist" occurs with 1/4 cycle of a quarter wave? Were there to be two short antennae closely spaced, but fed 90 degrees out of phase, wouldthat result in efficient radiation? What if they were spaced by 1/4 wave but with the feeders completely screened from Free Space, or does there have to be all fractions of antnna betwen the two extremes? |
The nature of Free Space (Once called, "The Lumeniferous Aether")
"gareth" wrote in message
... What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? Is it that some form of electric "twist" must be appled to Free Space, and that the maximum "twist" occurs with 1/4 cycle of a quarter wave? Were there to be two short antennae closely spaced, but fed 90 degrees out of phase, would that result in efficient radiation? What if they were spaced by 1/4 wave but with the feeders completely screened from Free Space, or does there have to be all fractions of antnna betwen the two extremes? Why not build a model on, say, 70cm and find out for yourself? -- ;-) .. 73 de Frank Turner-Smith G3VKI - mine's a pint. .. http://turner-smith.uk |
The nature of Free Space (Once called, "The Lumeniferous Aether")
On Thursday, September 10, 2015 at 5:27:41 AM UTC-5, gareth wrote:
What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? Ding, ding, ding. Totally false statement. Don't pass go, don't collect $200. |
The nature of Free Space (Once called, "The Lumeniferous Aether")
"Brian Morrison" wrote in message
... On Thu, 10 Sep 2015 11:27:38 +0100 gareth wrote: What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? There is no requirement of this nature, the only reason for relatively large antennas is to achieve an input impedance that makes power transfer into the antenna relatively efficient. That is a side issue of the phenomenon |
The nature of Free Space (Once called, "The Lumeniferous Aether")
"gareth" wrote in message
... "Brian Morrison" wrote in message ... On Thu, 10 Sep 2015 11:27:38 +0100 gareth wrote: What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? There is no requirement of this nature, the only reason for relatively large antennas is to achieve an input impedance that makes power transfer into the antenna relatively efficient. That is a side issue of the phenomenon Convince yourself by calculating the retarded potential from a far field when the same field strength comes from a dipole and when it comes from a short antenna. You find that there has to be more power fed into the short antenna (irrespective of feed impedances and ohmic resistances) to achieve that same field strength. |
The nature of Free Space (Once called, "The Lumeniferous Aether")
In rec.radio.amateur.antenna gareth wrote:
What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? The entrinsic impedance of free space. snip remaining ignorant babble -- Jim Pennino |
The nature of Free Space (Once called, "The Lumeniferous Aether")
"gareth" wrote in message
... "gareth" wrote in message ... "Brian Morrison" wrote in message ... On Thu, 10 Sep 2015 11:27:38 +0100 gareth wrote: What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? There is no requirement of this nature, the only reason for relatively large antennas is to achieve an input impedance that makes power transfer into the antenna relatively efficient. That is a side issue of the phenomenon Convince yourself by calculating the retarded potential from a far field when the same field strength comes from a dipole and when it comes from a short antenna. You find that there has to be more power fed into the short antenna (irrespective of feed impedances and ohmic resistances) to achieve that same field strength. It's all about capture area. A big antenna will radiate more effectively than a small one, provided you can match the feed point impedance. -- ;-) .. 73 de Frank Turner-Smith G3VKI - mine's a pint. .. http://turner-smith.uk |
The nature of Free Space (Once called, "The Lumeniferous Aether")
wrote in message
... On Thursday, September 10, 2015 at 5:27:41 AM UTC-5, gareth wrote: What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? Ding, ding, ding. Totally false statement. Don't pass go, don't collect $200. Convince yourself by calculating the retarded potential from a far field when the same field strength comes from a dipole and when it comes from a short antenna. You find that there has to be more power fed into the short antenna (irrespective of feed impedances and ohmic resistances) to achieve that same field strength. |
The nature of Free Space (Once called, "The Lumeniferous Aether")
"gareth" wrote in message ... wrote in message ... On Thursday, September 10, 2015 at 5:27:41 AM UTC-5, gareth wrote: What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? Ding, ding, ding. Totally false statement. Don't pass go, don't collect $200. # Convince yourself by calculating the retarded potential from a far field # when # the same field strength comes from a dipole and when it comes from a short # antenna. #You find that there has to be more power fed into the short antenna # (irrespective of # feed impedances and ohmic resistances) to achieve that same field strength. Well, I don't know what you are calling "retarded potential". At any rate, if the radiated power is equal for two different antennas, why would the field strength be different, except as related to pattern differences? |
The nature of Free Space (Once called, "The Lumeniferous Aether")
On Thursday, September 10, 2015 at 6:06:33 PM UTC-5, gareth wrote:
wrote in message ... On Thursday, September 10, 2015 at 5:27:41 AM UTC-5, gareth wrote: What is the nature of free space such that it requires antennae to be at least 1/4 wave before accepting radiation efficiently? Ding, ding, ding. Totally false statement. Don't pass go, don't collect $200. Convince yourself by calculating the retarded potential from a far field when the same field strength comes from a dipole and when it comes from a short antenna. You find that there has to be more power fed into the short antenna (irrespective of feed impedances and ohmic resistances) to achieve that same field strength. To put it plainly in a language you can likely understand, bull****! If you feed a 1/2 wave dipole with 100 watts, almost all of that power will be radiated by the antenna. If you feed a 1/10 wave dipole with 100 watts, almost all of that power will be radiated by the antenna. Any difference between the two would be so small as likely to be hard to measure. This is etched in stone theory known for many years. |
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