Tom,
Received a lot of valuable information from very smart people today that know a
lot more about this stuff than I. We can move forward with an intelligent game
plan to add a well equipped station for contesting on the coast of Maine. Hope
to break ground sooner than later, keep you posted as the project progresses.
Thank you,
Ray Higgins (W2RE)
On Apr 1, 2015, at 3:35 PM, Tom W8JI <w8ji@w8ji.com> wrote:
>> If you're back five wavelengths from salt water or salt marsh, almost the
>> entire Fresnel zone will be over land and the salt water will make
>> essentially
>> no improvement . That's okay if the land is salt marsh, but its very bad if
>> it poor sandy soil... For a take off angle of ten degrees, the near edge of
>> the Fresnel Zone is about 0.1 wavelengths from the feed point and the far
>> edge is about three wavelengths away. For lower angles the far edge of
>> the Fresnel Zone extends out the 5 wavelengths or more.
>
> For horizontally polarized antennas high above earth, typical for Yagi's and
> such, saltwater under and around the antenna does not mean all that much. The
> primary benefit is an unobstructed horizon and antenna height.
>
> As for ground conductivity, unless it is terrible, what happens out at the
> first bounce back from the ionosphere has more meaning. The 40 meter signal
> from here is evidence of that.
>
> Verticals on groundwave are a different story, as are verticals on bands with
> very low wave angle propagation, where the Fresnel region phase change can
> hurt low angles.
>
> I would worry more about the path, and especially local noise. Things that
> happen very close to the antenna can be handled with copper.
>
> Of course if the goal is to broadcast on groundwave with vertical
> polarization (the only mode that supports groundwave), a saltwater path is a
> major improvement.
>
> 73 Tom
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