标量波技术-Experimental-Kit2003

Prof. Dr-lng. Konstantin Meyl SCALAR WAVE TECHNOLOGY Documentation for the Experimental-Kit to the transmission of electrical scalar waves - I I I - Preface for the documentation When the speech is about "free energy", if efficiencies over one hundred per cent are promised or inventors show up with perfect structural drawings for a Perpetuum mobile, then doubts are justified. All too often incorrect power measurements mislead or an energy resource is unnoticed along-used. Responsible scientists accept therefore appropriate statements only after own examination, and if they can reproduce the measurements at any time personally with their familiar measuring instruments. For this circumstance the Demo- and the Experimentation kit should make allowance. All doubter can and should reproduce my experiments. They should not experience from the media of any results, but rather gain the experiences with the electrical scalar wave transmission by themselves. Tesla already accomplished the same experiments one hundred years before with very high voltages and with steered spark gaps. Since more energy at the receiver arrived than the transmitter had delivered already at that time, Tesla called the transmitter ,,Magnifying transmitter". Unfortunately his plant in Colorado Springs was too complex and too expensive, than that any university could afford it at that time. The results of the measurements remained unconfirmed as consequence. No scientist in the world is entitled to doubt the results won by Tesla as if he has repeated them 1:1 and is able to prove the opposite. That was been omitted down to the present day. The negative proof will be not possible at all, and ignorance is not a recognized science methodology! 1. Notes to the demo kit The experiment for scalar wave transmission can be purchased as demonstration kit or in an extended version as experimentation kit. The notes to the demo kit are applicable for both versions. With the kit all statements of Tesla can be examined. Owing to modern technical aids, the expenditure could have been reduced substantially. Today everything fits into a suitcase. Numerous parameters determine function and periodic resonance of the scalar transmission, like wire length, wire thickness, isolation, direction of winding and diameter of the coils. Only with identically parameters a perfect reproducibility of the results can be ensured. Due to this insight I forbear from the publication of a tinkering guidance, since the reproducibility would be dependent on the skill of the respective home constructor. The reliability would suffer from it. Finally it concerns the discovery and proof of a new physical principle, and not extra tuition for physical laymen. In the aluminium suit case all accessories in addition to the pancake coils are contained, which are necessary for operation. That does not only have a practical sense. If an operator wants to abandon the waveform generator for example, because he an appropriate waveform generator already in his laboratory, which works up to 20 MHz, it is not guaranteed that this one is able to supply a sufficient current The experiences of individuals are comprehensible, if all experimenters use the same generator. - IV- Each buyer of a scalar wave transmission kit. who sends a test log to the publishing house, gets the protocols of other experimenters in return for his effort. Interested owner of a kit can order these protocols extra. To ensure that additional deliveries are possible, the delivery takes place in a binder. To all, who want to deliver test logs. I have the request to arrange these as unitary as possible. They will be revised by publishing house, if the case may be. They are to be brief containing all essential facts, so that each reader is able to reconstruct the experiment with his kit. The number of possible experiments is almost unlimited. It concerns a new, still extensively unexplored kind of wave propagation, so that there is still much to discover. What worth is a discovery, from which only the discoverer knows something? The publishing house has made it to its business, to spread each important discovery or experience with personal denomination of the experimenter in written form. Protocols are delivered in chronological order according to the time of the post office entrance by the publishing house. They can be rearranged thematically, e.g. by technical, physical or biologically relevant characteristics of the used scalar waves. 2. Notes to the experimentation kit The experimentation kit contains additionally a frequency counter as well as four further pancake coils with double or half wire length. The waveform generator is besides in an extended range and in different wave forms adjustable. It is assumed, that primarily physicists, engineers and in the measuring technique experienced persons will be interested in the experimentation kit. They can reconstruct naturally with their kit all experiments of the demo set and receive also the same documentation. Furthermore the set offers all adjustment possibilities, which are familiar to them from other laboratory instruments. For instrumentation interferences, in order to be able to measure for example current and voltage, specially monitoring sockets are equipped. The demo kit has no such measuring comfort. It is also suitable for operators, who are inexperienced in instrumentation. Among the buyers are physicians, lawyers, therapists, environmentalists, teachers, politicians and journalists. In short, it is meant for everyone, who wants to convince himself or others of the existence of electrical scalar waves. Therefore the waveform generator is limited in range of adjustment and a pure sine form is predetermined. It is assumed, that the set is purchased primarily for own study and demonstration purposes. Nevertheless some experiments are conceivable, which go beyond the given repertoire to study biological reactions or medical influences for example. For customers, for whom the demo kit should not be sufficient any longer, the publishing house offers to extend the kit to an experimentation set. In this case the suit case with the complete kit must be sent back to the publishing house with all documents. The printed circuit boards are refitted by hand and the control panel of the waveform generator is extended, additionally to the frequency counter and the four decks, cables etc.. The coils with the spherical electrodes can be ordered individually, if necessary. - V - 3. Aspects of the experimental research Whom the fever of research has infected, will anyway continue to build and tinker own devices and wound coils, until he knows everything, what his spirit of research wants to know. My set will be able to give only the initial start-up to them. With them and with all experimenters 1 wish myself a constructional and close co- operation. Only if all forces, interested in progress, pull in one direction, the ignorance against one hundred years old historical facts and the arrogance of the established sciences will be overcome with the worthwhile goal of the entrance into an environmental compatible scalar wave technology. A physical proof is only complete if the result of a theoretical derivation could experience its confirmation by the results of practical measurements. For the measured values in individual cases surely any auxiliary explanations would be possible, if each experiment is regarded individually, and some one is satisfied at that point already. The interpretation of the near field is such an auxiliary explanation for example, which is answered by the fact, that the experiment still operates with the tenfold near field distance. The large coherence remains hidden when working with auxiliary explanations. Therefore a theory is necessary, which includes all aspects of scalar waves and shows all characteristics correctly and completely. Such a field theory did not exist, because I was forced to look for a suitable. 4. Aspects of an appropriate vortex physics A most important new component of the field description is the vortex of the electrical field discovered by me 1990, which I, according to the fluid mechanic, called ,,potential vortex" . These field vortexes are able to carry an impulse. They will spread in space as longitudinal shock wave and will possess all characteristics of a scalar wave. From the point of view of my books the available documentation forms an instrumentation addition. Reciprocal, my books can be surely a large assistance for the experimenter. The fundamentals of vortex physics, as they are published in no textbook, are to be found in the 1. part of my book series ,,electromagnetic environmental compatibility". It deals with the ,,casuals, phenomena and scientific consequences" of potential vortexes of the electrical field. : K. Meyl: Potentialwirbel Band 1, INDEL Verlagsabteilung Villingen-Schwenningen, 1. Auflage 1990, ISBN 3-9802 542-1-6 : K. Meyl: Elektromagnetische Umweltvertraglichkeit, Teil 1: Ursachen, Phanomene und natur- wissenschaftliche Konsequenzen, Vorlesungsumdruck. INDEL Verlagsabteilung Villingen-Schwenningen. 1996. 3.Aufl. 1998, -VI- The second part of the book series affiliate to this book and carries the subtitle: "free energy and the reciprocal effect of the neutrinos". It concerns with priority the energetic aspect of scalar waves, constructional details, as like as questions around a practical utilization. The function mode of the pancake coil already addressed in the first part is went through with a fine-tooth comb in the second part. The field theory from the first part is developed further likewise and brought in relationship with existing constructions. 5. About the setting up of the documentation The derivation of the scalar wave from the wave equation with the discussion of the characteristics and the consequences of information techniques, substantial to understand the experiment, is only in the third part of the book series ,,Electromagnetic Environmental Compatibility". For the English-language area are the three volumes of ,,Electromagnetic Environmental Compatibility" published as a book with the title ,,Scalar waves" . Naturally the core of the documentation are the guidance's to the experiments, which are to be regarded at the same time as samples for further test logs. For the execution of the experiments I may wish you still much success and a quite good degree of efficiency. Villingen Schwenningen in June 2000 : K. Meyl: Elektromagnetische Umweltvertraglichkeit, Teil 2: Freie Energie und die Wechselvirkung der Neutrinos. Umdruck zum energietechnischen Seminar. INDEL Verlagsabteilung 1998. 3. erweiterte Auflage 1999 : K. Meyl: Elektromagnetische Umweltvertraglichkeit, Teil 3: Skalanwellen und die informationstechnische Nutzung. Umdruck zum informationstechnischen Seminar. INDEL Verlagsabteilung 1. Auflage 2002, ISBN 3-9802542-7-5 : K. Meyl: Scalar Waves: From an extended vortex and field theory to a technical, biological and historical use of longitudinal waves. Edition belonging to the seminar (part 1 - 3 ) "Electromagnetic Environmental compatibility". INDEL publishing house department 1st edition (2003), 654 pages ISBN 3-9802 542-4-0 -VII- 6. Table of Content Chapter V. Preface for the documentation........ ________________ III V.1 Notes to the demo kit .......................................... , ................III V.2 Notes to the experimentation kit ............................................ IV V.3 Aspects of the experimental research ....... ______________________ IV V.4 Aspects of an appropriate vortex physics ......................................................... V V.5 About the setting up of the documentation ...................................................... VI V.6 Table of Content ...............................................................................................VII Experiments for scalar wave transmission .................................................. 1 0.1 Introduction ...................................................................................................... 1 0-2 Included in delivery: Demo-kit ........................................................................ 1 0.3 Description of the pancake coils ...................................................................... 2 0.4 Description of the waveform generator (Demo-kit) ........................................ 4 0.5 Included in delivery: experimentation kit ....................................................... 5 0.6 Description of the waveform generator (experimentation kit version).......... 5 0.7 Description of the frequency counter (experimentation kit) ........................... 6 0.8 Safety instructions ............................................................................................ 6 1. Experiment: Transfer of energy ...................................................................... 7 1.1 Experimentator .................................................................................................. 7 1.2 Place and date .....................................................................................................7 1.3 To the status of physics of electromagnetic waves (according to Hertz)....... 7 1.4 Expectation according to the scalar wave theory by Konstantin Meyl .......... 7 1.5 Experimental setup............................................................................................ 7 1.6 Carrying out the experiment ............................................................................. 8 1.7 Interpretation of the experimental results ........................................................ 9 1.8 Conclusion ........................................................................................................10 1.9 Consequences.................................................................................................... 10 1.10 Utilities .............................................................................................................. 10 2. Experiment: Feedback .....................................................................................11 2.1 Experimentator ................................................................................................ 11 2.2 Place and date ....................................................................................................11 2.3 To the status of physics of electromagnetic waves (according to Hertz)....... 11 2.4 Expectation according to the scalar wave theory by Konstantin Meyl .......... 11 2.5 Experimental setup ........................................................................................... 11 2.6 Carrying out the experiment .............................................................................11 2.7 Interpretation of the experimental results ........................................................11 2.8 Conclusion.........................................................................................................12 2.9 Consequences.................................................................................................... 12 2.10 Utilities.............................................................................................................. 12 3. Experiment: Proof of free energy ....................................................... 3.1 Experimentator........................................................................... 3.2 Place and date .................................................................................. 13 3.3 To the status of physics of electromagnetic waves (according to Hertz)....... 13 3.4 Expectation according to the scalar wave theory by Konstantin Meyl .......... 13 - VIII - 3.5 Experimental setup and carrying out the experiment.......13 3.6 Interpretation of the experimental results............13 3.7 High frequency measurements ........................14 3.8 Interpretation of the high frequency' measurements.......14 3.9 Circuit analyzer measurements.............14 3.10 Interpretation of test results of the DC measurements..........15 3.11 Conclusion ....................................................... 15 3.12 Consequences ..................................................................... 16 3.13 Utilities ..............................................................................................................16 4. Experiment: Superluminal velocity................................................................ 17 4.1 Experimentator ................................................................................................. 17 4.2 Place and date ....................................................................................................17 4.3 To the status of physics of electromagnetic waves (according to Hertz) .......17 4.4 Expectation according to the scalar wave theory by Konstantin Meyl.......... 17 4.5 Experimental setup ............................................................................................17 4.6 Carrying out the experiment.............................................................................17 4.7 Interpretation of the experimental results........................................................ 18 4.8 Conclusion ........................................................................................................18 4.9 Consequences ....................................................................................................18 4.10 Utilities...............................................................................................................18 5. Experiment: Ineffective Faraday cage ........................................................... 19 5.1 Experimentator.................................................................................................. 19 5.2 Place and date ....................................................................................................19 5.3 To the status of physics of electromagnetic waves (according to Hertz)....... 19 5.4 Expectation according to the scalar wave theory by Konstantin Meyl .......... 19 5.5 Experimental setup ............................................................................................19 5.6 Carrying out the experiment .............................................................................21 5.7 Interpretation of the experimental results........................................................21 5.8 Conclusion ........................................................................................................21 5.9 Consequences.................................................................................................... 21 5.10 Utilities.............................................................................................................. 22 6. Experiment: Refutation of the near field interpretation ...............................23 6.1 Experimentator ................................................................................................ 23 6.2 Place and date ....................................................................................................23 6.3 To the status of physics of electromagnetic waves (according to Hertz)....... 23 6.4 Expectation according to the scalar wave theory by Konstantin Meyl .......... 23 6.5 Experimental setup ........................................................................................... 23 6.6 Carrying out the experimen