Jump to content

TheBuzz

New Members
  • Posts

    1
  • Joined

  • Last visited

Retained

  • Lepton

TheBuzz's Achievements

Lepton

Lepton (1/13)

10

Reputation

  1. you are one smart cookie! stay hidden like myself. you know the ropes as well. take care of yourself. jd

  2. The H2O tetrahedron joins with other tetrahedrons to form a platonic solid cube. Normally the bond angle is experimentally found to be 104 degrees and the bond is flexible. By using a double side band AM modulated AC signal, you can change the bond angle to 109 degrees and 28 minutes. This makes the tetrahedron rigid. The way to shatter the water molecule is to put that SSB AC signal into a resonant circuit. You need to use a minimum of two frequencies one is about 610 hz and the other probably 20 times that 12,200hz. One frequency vibrates the molecular bond and the other the atomic bond. The frequency should both sweep back and forth and vary in intensity 2-3 times per second in order to roll the molecule to enhance the fracturing process. It appears that both Meyer and Puharich also used ceramics and I suspect that a piezo effect was present. Puharich speaks of phonon production in his 5 part lecture located on youtube and is a must see if you are interested. The work of Both Meyer and Puharich is based on the work of John Keeley. The place to start is to build a DSB mixer to produce the RF signal with a 600hz carrier and 12,200 hz modulation. It does not violate thermodynamics since it is an open system with an external fuel and power source and it does not violate Faraday since it is not DC electrolysis. It is a fracturing or cleaving process. Use a high voltage anode to remove electrons and prevent recombination. The rate of production will easily allow you to run an engine on nothing but water. It has been done many times by many people. Hope that helps. PS - If you get caught doing it, the corrupt government will place you under a section 35 part 109 secrecy order.
×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.