Re: [Vo]:stimulation frequency Robin van Spaandonk Tue, 22 Jan 2008 20:41:52 -0800
In reply to [EMAIL PROTECTED]'s message of Tue, 22 Jan 2008 18:57:45 EST: Hi, [snip] >A condensate that is strongly stimulated in the RF spectrum should generate >radio waves. Why? Regards, Robin van Spaandonk I first got the idea about the mega-hertz meter relationship when I was visiting the Marshall Spaceflight Center and speaking with David Noever. He described his “downshifting of the frequencies theory.” This theory was in relation to the Podkletnov replication experiments that they were conducting. I began to understand that the gravitational experiments and the cold fusion experiments were different aspects of one new phenomena. This phenomena had do with a macro state of matter; the Bose condensate. The electron has a classical radius 3 x exp -15 meters. It also has a Comptom frequency. The product of these two phenomena is 1.094 megahertz-meters. In a Bose condensate the electron smears out to the length of the condensate. I assumed that the relationship between frequency and wavelength was linear. Velocity = frequency x wavelength The next assumption was that the velocity was constant. This velocity was determined from the classical dimension and the Compton frequency of the electron. I noted that this frequency and dimension also appeared in cold fusion experiments. I noted that this frequency and dimension also appeared in the Podletknov experiments. I did some calculations and discovered that the relationship also applies at atomic and nuclear dimensions. I computed the energy levels of the atom and the Compton wavelength of the nucleus from this constant. What did this constant describe? Then in the bathtub it hit me. It describes the velocity of the quantum transition. I went on to discover that the amplitude squared of vibration at this frequency determines the probability of quantum transition. I also discovered that the amplitude of this vibration is determines the energy of photon. This was another big step. The energy of a classical waves is a function of its amplitude. The energy of quantum wave is a function of its frequency. I discovered that the energy of the photon is a function of the amplitude of the transitional quantum state. Chapters 10 11 and 12. _http://www.angelfire.com/scifi2/zpt/cgi-bin/ZeroPointTechnologies.pl?Vortexr_ (http://www.angelfire.com/scifi2/zpt/cgi-bin/ZeroPointTechnologies.pl?Vortexr) So what does 1.094 megahertz meters describe. It is the ground state vibration frequency of a Bose condensate. Stimulation at this frequency reinforces the condensate. If the bounds of the condensate are measured in nano meters the stimulation frequency is thermal. If the bounds of the condensate are measured in meters the stimulation frequency is radio. If the bounds of the condensate are atomic the stimulation frequency is visual. If the bounds of the condensate equal the range of the weak nuclear force the stimulation frequency is the Compton frequency of the nucleons. What happens during the quantum transition? Electrical energy strongly flows. Gravitational energy strongly flows. Nuclear energy strongly flows. All of these flows are strong. I concluded, “The constants of the motion tend toward the electromagnetic in a Bose condensate the is stimulated at a dimensional frequency of 1.094 megahertz-meters.” This theorem show how to classically control all of the natural forces. Cold fusion is only one small aspect of what can be developed from it. I hope this helps. it’s the best description that I can present. Frank Znidarsic **************Start the year off right. Easy ways to stay in shape. http://body.aol.com/fitness/winter-exercise?NCID=aolcmp00300000002489
