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**WM6** · 01-22-2010, 11:37 AM

Originally posted by J_Player View Post

Plain eyes can locate the gold ring at this distance.

Yes, but this is so cheap and not funny.

Originally posted by Fred

Are you married?

Almost.

Nevertheless, I will take your great picture in my lab for gold target testing..

**Qiaozhi** · 01-22-2010, 01:32 PM

Help!

Get me out of here.

Attached Files

**WM6** · 01-22-2010, 01:36 PM

Originally posted by Qiaozhi View Post

Get me out of here.

You dont like Freds picture?

**nelson** · 01-22-2010, 02:49 PM

San to heard that Leto.
Anyway i will look forward for any news about remote sensing that really can work here in Chile.
Kind regards
Nelson

Originally posted by Leto View Post

Nelson, Nelson....
how can I say this... this project will work only on northern hemisphere (this is where WM6 resides)..
For your part of the world you need complementary transistors, reverse power supply, etc. As I understand Dr. Best does not want his work to be copied by known south-america quasi LRL factories..
Also I tried soaking the lenses in antifreeze but the results are not so good.. Better using Freds hydrogen-oxygen combination.. or maybe nitrogen peroxide with RP-1 (refined Petroleum). I would give everything for good liter of C-stoff now.
So Nelson you can try it, but I predict you'll get only randomized flashes from the device in your part of the world.. sorry

**nelson** · 01-22-2010, 02:51 PM

I got the picture and thanks WM6 for your time.
Regards
Nelson

Originally posted by J_Player View Post

Hi WM6,

After problems with focusing contact lenses that I treated with warm CH3CHOHCH2OH solution, I read your explanation of gold color frequencies. I also read online how gold reflects another color we cannot see much better than the red and orange colors. Gold is an excellent reflector of Infrared light. Fortunately, we can find some very strong infrared lasers, and also infrared sensors. So I am changing the laser and phototransistors for infrared.

But I find also the lenses no longer have the same focus when changing to infrared. IR light requires the focal length be changed by a small amount depending on what infrared frequency is used. It is with great surprise I see the warm CH3CHOHCH2OH lens treatment resulted in perfect focus of the IR reflection. I will take additional measures to insure I maintain the correct power supply polarity and PN junction arrangement for northern latitude usage.

Best wishes,
J_P

**Fred** · 01-22-2010, 02:52 PM

Originally posted by Qiaozhi View Post

Get me out of here.

Running away from such a... treasure ??

**epitopios** · 01-22-2010, 04:00 PM

Originally posted by WM6 View Post

You damm skeptic!

you also wrote :

Have to be damn not damm.

Mean something nice (since invalid) like:

δεκάρα
πεντάρα
ανάθεμα σε

καταδικάζω
καταρώμαι
διαβολοστέλνω
επικρίνω δριμύτατα

so , be careful when you explain in Greek , sometimes its like boomerang

friendly , epitopios

**Qiaozhi** · 01-22-2010, 05:45 PM

Originally posted by Fred View Post

Running away from such a... treasure ??

OK - I'm back.

Attached Files

**WM6** · 01-23-2010, 07:00 PM

Originally posted by epitopios View Post

so , be careful when you explain in Greek , sometimes its like boomerang

friendly , epitopios

Agree epitopios (even I don't know Greek)

but as I said: Mean something nice (since invalid) like:

So all, that could mean something bad, is off.

**WM6** · 01-25-2010, 12:02 AM

Originally posted by nelson View Post

I got the picture and thanks WM6 for your time.
Regards

Hi Nelson

So called Tyndall effect was used here. Tyndall effect was widely used to detect existence and concentration of silver and gold nano-particles in solutions but can be used in air too. To establish Tyndall effect we use laser of different colour spectrum, depending of particle size which can be from ions to some nm. Green light laser pointer are most powerful but not suitable to all nano-particles diameter and all metals. Red light laser pointer are suitable in general. So, the best solution would be fitting more laser pointer of different light spectrum stocked at device. Sensors and electronic remain unchangeable. With this device we are looking for flocks of ions over soil after sunset, not at the sunlight.

You can read more about Tyndall effect on web e.g. here:

Just a moment...

http://www.silvermedicine.org/colloidal-silver-ppm.html

or here

http://www.scienceinschool.org/print/656

And here citation from site: http://mysite.du.edu/~jcalvert/phys/colloid.htm:
Sols that contain inorganic particles, such as metals, are mostly lyophobic, as are most aerosols and solid sols. Lyophobic hydrosols are a very common kind of colloid, and deserve detailed description. For example, consider the hydrosol of gold with particles about 4 nm in size. This was one of the first sols studied extensively, and has interesting properties. With about 0.1% gold, the sol is a rich ruby red. The similar solid sol in glass makes ruby glass. The gold particles absorb strongly in the green and blue, so the transmitted light is red. There is a little yellow-green scattered light, but mostly it is a case of absorption by the gold metal. If the gold particles clump together, which they may do as time passes, the color of the solution changes. When the particles are about 40 nm in diameter, the solution is blue, with considerable scattered light. If the particles agglomerate further, the color disappears and gold flakes settle out.

**nelson** · 01-25-2010, 05:48 PM

THanks a lot WM6, i will look forward for information related to the subject we are concerning about.
Regards
Nelson

Originally posted by WM6 View Post

Hi Nelson

So called Tyndall effect was used here. Tyndall effect was widely used to detect existence and concentration of silver and gold nano-particles in solutions but can be used in air too. To establish Tyndall effect we use laser of different colour spectrum, depending of particle size which can be from ions to some nm. Green light laser pointer are most powerful but not suitable to all nano-particles diameter and all metals. Red light laser pointer are suitable in general. So, the best solution would be fitting more laser pointer of different light spectrum stocked at device. Sensors and electronic remain unchangeable. With this device we are looking for flocks of ions over soil after sunset, not at the sunlight.

You can read more about Tyndall effect on web e.g. here:

Just a moment...

http://www.silvermedicine.org/colloidal-silver-ppm.html

or here

http://www.scienceinschool.org/print/656

And here citation from site: http://mysite.du.edu/~jcalvert/phys/colloid.htm:
Sols that contain inorganic particles, such as metals, are mostly lyophobic, as are most aerosols and solid sols. Lyophobic hydrosols are a very common kind of colloid, and deserve detailed description. For example, consider the hydrosol of gold with particles about 4 nm in size. This was one of the first sols studied extensively, and has interesting properties. With about 0.1% gold, the sol is a rich ruby red. The similar solid sol in glass makes ruby glass. The gold particles absorb strongly in the green and blue, so the transmitted light is red. There is a little yellow-green scattered light, but mostly it is a case of absorption by the gold metal. If the gold particles clump together, which they may do as time passes, the color of the solution changes. When the particles are about 40 nm in diameter, the solution is blue, with considerable scattered light. If the particles agglomerate further, the color disappears and gold flakes settle out.

**WM6** · 02-02-2010, 09:32 AM

Originally posted by nelson View Post

THanks a lot WM6, i will look forward for information related to the subject we are concerning about.
Regards
Nelson

For near to target detection is better to use red light laser pointer. As we know from quantum theory under shinning light electrons are ejected from the surface and can create new molecula which can be detected and wrongly interpreted (especialy by electrostatic detectors combined with laser in vicinity detection). Only red light will not cause the ejection of electrons from surface, no matter what the intensity of laser beam!

**nelson** · 02-02-2010, 03:58 PM

Ok and thanks a lot WM6.
NOw i have to deal with the use of this device in South America.
Kind regards
Nelson

Originally posted by WM6 View Post

For near to target detection is better to use red light laser pointer. As we know from quantum theory under shinning light electrons are ejected from the surface and can create new molecula which can be detected and wrongly interpreted (especialy by electrostatic detectors combined with laser in vicinity detection). Only red light will not cause the ejection of electrons from surface, no matter what the intensity of laser beam!

**WM6** · 03-01-2010, 12:30 AM

Originally posted by nelson View Post

Anyway i will look forward for any news about remote sensing that really can work here in Chile.
Kind regards
Nelson

Hi Nelson, are you ok?

**nick_f** · 03-01-2010, 03:33 AM

Originally posted by WM6 View Post

For near to target detection is better to use red light laser pointer. As we know from quantum theory under shinning light electrons are ejected from the surface and can create new molecula which can be detected and wrongly interpreted (especialy by electrostatic detectors combined with laser in vicinity detection). Only red light will not cause the ejection of electrons from surface, no matter what the intensity of laser beam!

I've heard some people obtained good results with the ultrared light, from laser pointers with 25W power. Some good results, but not as good can be obtained with infrablue laser light, especially if fitted with a red congo filter. The first method can identify only superatomic quantum molecules of gold that have a content of 4.2545% of crystaline silver. The second method works better if the gold alloy is in proportion of maximum 0.000042334 %.

Can anybody else confirm if they got the same results?

Regards,
Nicolae

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