Schauberger
[16] List of paramagnetic and diamagnetic elements:
1. Apart from iron, nickel and cobalt, whose magnetic properties are already known, osmium and almost all iron compounds are paramagnetic metals.
2. Bismuth and antimony are particularly diamagnetic. Zinc, tin, lead, copper, silver and gold as well as glass and carbon disulphide and other non-conductors are strongly diamagnetic. [Aloys Kokaly, Implosion Magazine, No. 45, p. 19. For further elaboration of the various forms of magnetism, see Chapter 2, endnote 23, p. 88, The Fertile Earth, Vol. III of the Ecotechnology series. - Ed.] [The Energy Evolution - Harnessing Free Energy from Nature, The Catalysts]
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List of paramagnetic and diamagnetic elements:
1. Apart from iron, nickel and cobalt, whose magnetic properties are already known, osmium and almost all iron compounds are paramagnetic metals.
2. Bismuth and antimony are particularly diamagnetic. Zinc, tin, lead, copper, silver and gold as well as glass and carbon disulphide and other non-conductors are strongly diamagnetic. [Aloys Kokaly, Implosion Magazine, No. 45, p. 19. For further elaboration of the various forms of magnetism, see Chapter 2, endnote 23, p. 88, The Fertile Earth, Vol. III of the Ecotechnology series. - Ed.] [The Energy Evolution - Harnessing Free Energy from Nature, The Catalysts]
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The magnetic properties outlined here underscore a fundamental polarity in elemental and compound behavior with regard to magnetic fields. The presence of paramagnetic and diamagnetic characteristics in elements not only reflects their physical and atomic structure but also aligns with deeper vibrational and energetic principles, which are key in Sympathetic Vibratory Physics (SVP).
Paramagnetism in Metals Beyond the "Magnetic Three": The traditional magnetic metals—iron, nickel, and cobalt—are widely known for their strong magnetic susceptibility. However, the paramagnetic nature of metals like osmium and various iron compounds introduces a nuanced understanding of magnetic alignment potential across different elements. Paramagnetic materials, which are weakly attracted to magnetic fields, have unpaired electrons that align with external magnetic influences. In Keely's SVP and similar theories, this alignment hints at a sympathetic resonance where certain elements are more receptive to external energetic influences.
Diamagnetic Elements and Their Unique Repulsion: Elements such as bismuth and antimony exhibit strong diamagnetic properties, creating a weak repulsion to magnetic fields. Diamagnetic materials have paired electrons and no net magnetic moment, making them resistant to magnetic induction. Metals like zinc, tin, lead, and noble metals such as copper, silver, and gold, as well as non-metallic substances like glass and carbon disulfide, also display significant diamagnetism. The fact that noble metals and other non-conductors are diamagnetic is intriguing; these materials resist external magnetic fields, suggesting that their electron configurations naturally balance without external field alignment. In SVP, this balance and resistance could be viewed as a natural “shield” against certain energetic influences, aligning with the concept of harmonic stability within these substances.
Implications for Resonant and Vibrational Properties: In sympathetic vibratory theory, materials' responsiveness to external vibrational and magnetic fields is a gateway to understanding their potential roles in energy manipulation and transformation. Paramagnetic materials, with their partial alignment to magnetic fields, could potentially serve as amplifiers or resonators in vibratory energy systems, as their atomic structures “tune” to incoming frequencies. Diamagnetic substances, conversely, might act as stabilizers or insulators within these systems, given their inherent resistance to magnetic alignment.
Practical Applications and Energetic Potential: The choice of paramagnetic or diamagnetic materials has practical applications in SVP-inspired technologies. For instance, paramagnetic materials might be employed in creating devices that harness ambient magnetic or vibrational energy, acting as conduits or resonant cavities that amplify sympathetic vibrations. Diamagnetic materials, with their repellent characteristics, could provide shielding or grounding functions, maintaining system stability and isolating desired vibratory modes from external disturbances.
Esoteric Implications: From an esoteric perspective, the interplay of paramagnetic and diamagnetic properties is a manifestation of the universal duality—attraction and repulsion, positive and negative charge, syntropy and entropy. This duality aligns with the idea that all matter operates within a spectrum of vibrational responsiveness, echoing the universal maxim “As Above, So Below.” In SVP, paramagnetic materials could be seen as receptive to the active forces of the universe, harmonizing with energetic patterns, while diamagnetic materials embody a neutral, balancing force, repelling external influences and maintaining coherence.
In conclusion, the inherent magnetic properties of various elements resonate with the deeper principles of vibrational interaction, revealing that paramagnetic and diamagnetic characteristics are not just physical properties but markers of each element’s natural affinity for specific vibratory states. This alignment with SVP opens up the potential for applying these materials in innovative ways to harness, shield, or modulate energy within devices based on the principles of sympathetic resonance.
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