 | First International Symposium: on Non-Conventional Energy Technology (PACE, 1987) |
 |  | (introduction...) |
| | Forword |
|  | Non-linear field physics |
| | (introduction...) |
| | Introduction |
| | A unified yield theory |
| | Non-linear field physics laboratory |
| | Acceleration of breakthroughs and applications |
| | Figures |
| | Transistorized g-power generator |
| | The synergetic theory and transformation of gravitational energy |
| | (introduction...) |
| | Part I |
| | Questions and answers and comments |
| | The transformation of gravitation energy into electrical energy by ''Tokamak'' process: Part II |
| | The conversion of centrifugal force into linear force and motion |
| | Water decomposition by means of alternating current electrolysis |
| | (introduction...) |
| | 1. Cutting the Gordian knot of the great energy bind |
| | 2. An elementary introduction to the design and operation of the thermodynamic device to electrolyse water with A.C. |
| | 3. Electrothermodynamics |
| | Protocol: 4. Methodology for the evaluation of the efficiency of water decomposition by means of alternating current electrolysis. |
| | 5. Thermodynamic measurement |
| | 6. Alternative methodology for calculating efficiency based on the faraway law of electrochemistry. |
| | 7. Conclusion |
| | Appendix 1 |
| | The Scandinavian research organization on non-conventional energy and the implosion theory (Viktor Schauberger) |
| | Financing primary energy technology |
| | The non-equivalence of mass and energy |
| | (introduction...) |
| | 1. Primary matter |
| | 2. Radiation |
| | 3. The Bohr atom |
| | 4. Electromagnetic energy |
| | 5. Secondary matter |
| | 6. Contraction energy |
| | Conceptual changes in reality models from new discoveries in physics |
| | (introduction...) |
| | I. Introduction: remote connectedness and coherent phenomena |
| | II. Event connection in multi-dimensional complex Minkowski models |
| | III. Solitary wave solutions and coherent non dispersive solutions in complex geometries |
| | (introduction...) |
| | A. The linear Schrödinger equation in real and complex space |
| | B. Discussion and application of coherent state solutions |
| | C. Possible implications for technology |
| | IV. Conclusion |
| | Acknowledgments |
| | References |
| | Stepping down high frequency energy |
| | (introduction...) |
| | Introduction |
| | Energy of frequency |
| | The ''spectral diode''. |
| | Plasma tubes |
| | Tapping the zero-point energy? |
| | Summary |
| | Acknowledgements |
| | References |
| | Earth rotation as a source of free energy. |
| | (introduction...) |
| | 1. Introduction |
| | 2. Perpetual motion and the laws of thermodynamics |
| | 3. The bessler wheel |
| | 4. The pendulum as a perpetual motion |
| | 5. Application to electromagnetic devices |
| | 6. Properties of earth rotation as a free energy source |
| | References |
| | Journey to the end of the universe |
| | Atomic structure and gravity |
| | (introduction...) |
| | Gravity |
| | Tesla's secrets |
| | (introduction...) |
| | References |
| | Acknowledgements |
| | Studies on rotation leading to the N-Machine |
| | The one-piece homopolar generator |
| | Homopolar generation and other observations |
| | The development of post-relativistic concepts in physics and advanced technology abroad |
| | Mechanical energy from anisotropic gravitational fields (MEGA) |
| | A novel source of clean regenerative energy |
| | Part 2 |
| | References |
| | Radiant energy lecture |
| | Energy and gravity |
| | (introduction...) |
| | Field measuring device |
| | Abstract of the disclosure |
| | Background of the invention |
| | Introduction |
| | Anti-gravity properties of crystalline lattices |
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