The Weird-Wizards: Check out all these Zany, Different, Strange, Bizarre - even WEIRD projects! They're all for real! by Weigle Gordon

The Weird-Wizards: Check out all these Zany, Different, Strange, Bizarre - even WEIRD projects! They're all for real! by Weigle Gordon

Author:Weigle, Gordon [Weigle, Gordon]
Language: eng
Format: epub
Publisher: Kustom Power
Published: 2017-01-19T00:00:00+00:00


"Spy" Module (Gravity Wave Detector) Operation

NOTE: Since the only adjustable components of your Gravity Wave Detector are the three trimmer Pots (Potentiometers) - operation is simply a matter of “tweaking” them. In other words, operation is essentially a trial-and-error process.

The “White Noise” generator sets the overall sensitivity of the system, so the circuit must be adjusted initially. After having done that, the 10K trimmer is “tuned” (adjusted) to achieve the desired results (that is, eavesdropping on distant sounds and/or conversations).

1. Install fresh (or fully charged) batteries into your Detector. Set both power switches to their “ON” positions.

2. While listening to the miniature microphone, adjust the two 1.5M Trimmer Pots to obtain the highest possible volume of White Noise “squeal.”

Carefully adjust the Pot(s) to the point at which the “squeal” just disappears.

NOTE: Adjusting the pots for maximum White Noise volume, and then backing them off, assures that the module circuit is set for peak sensitivity.

NOTE: Your Detector is now ready for you to start doing some serious eavesdropping, by listening through the headphones!

3. Tune in to your favorite “sounds” by adjusting the 10K Trimmer Pot. To avoid possible repercussions (legal or otherwise) be sure to keep the content of any confidential information gathered with your Detector to yourself.

NOTE: As mentioned earlier, in this paragraph , the “heart” of your Detector is its electrolytic capacitors - they are the only components that can actually sense Gravity Waves. Since Detector orientation in relation to the waves can possibly affect their response, you may want to experiment with adjusting the position of the module for best reception.

NOTE: In many ways, this Detector reminds me of the aspects of Ham (amateur) Radio operation. (My uncle, back in Pennsylvania, was into Ham Radio in a big way for most of his life; I learned a lot about the practical aspects of radio transmssions from him.) “Hams” (Ham Radio Operators) often rely on the phenomenon of “skip” radio signals to communicate over vast distances (practically anywhere on earth!).

Part of the earth’s upper atmosphere, the ionosphere, is electrically charged with ions created by the sun’s radiation, and acts like a huge mirror to reflect radio waves just about anywhere. When conditions in the ionosphere are just right, Hams can talk back and forth even though they may be many thousands of mile apart. However, as conditions in the ionosphere change, so does the reception of radio signals. So, once a Ham latches on to a useable “skip” signal, he has to do some fast talking before it disappears.

You’re likely to eventually run across a similar phenomenon with your Detector. It appears that Gravity Waves, much like radio or TV waves, are affected by conditions near the earth’s surface such as large metallic deposits (iron or copper ore), weather conditions, solar radiation levels, etc. So, if you find that module reception fades in and out at times, there’s a reason!

Happy Listening!



Download



Copyright Disclaimer:
This site does not store any files on its server. We only index and link to content provided by other sites. Please contact the content providers to delete copyright contents if any and email us, we'll remove relevant links or contents immediately.