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Explosion and Implosion - Expansion and Impansion

Explosion and Implosion - Expansion and Impansion from a Scientific and Biological Viewpoint.
Viktor Schauberger, Linz, Austria, 16.01.1956, Implosion Magazine, No. 113, p. 63.

Expansions are retarded explosive effects in the realm of basic substances, in which decentrating (expanding) reactive effects of a subordinate order are freed.

Impansions are slow processes of densation, which for example, can be exploited in so-called chillers or refrigerating machines and are to be viewed as normal de-stressing processes.


Explosion is chemical reaction that takes place extremely rapidly, in which a large increase in pressure occurs due to large quantities of hot gases. Explosions are always innately destructive. They therefore function in a life-harming way.

Implosion is a biochemical reaction and takes place equally rapidly, during which a strong increase in low pressure occurs, whose active force increases by the square of the rate of the decline in heat.


The cause of an explosion is the sudden binding by highly charged oxygen, which at +40°C (104°F) becomes free and aggressive, of the sweet substances generally known as carbones, which become increasingly passive (inactive) with pressure and increase in heat.

The cause of an implosion is the sudden binding (emulsion) of oxygen, which becomes passive (inactive) with a decrease in heat and in this state is consumed by the sweet substances, which attain their charged state at +4°C (39.2°F). The mechanical atomisation of the oxygen is necessary, however.


With explosions vorticity (turbulence) always occurs, resulting in a reduction in the velocity of the through-flowing substance, leading in turn to cavitation, viz. the corrosion on [a] ship propeller or pressure screws in turbines. In particular when snow meltwater or glacier water is centrifugated. In such cases radar-like retroactive reactions takes place, which as detonating events, have a shattering effect. The detonation velocity can be a thousand times greater than the normal combustion velocity, which explains, for example, why the resistance to motion increases by the square in all explosion and expansion machines, which also increases by the square of the velocity of an increase in heat. It therefore acts to impede motion.

With implosions a molecular ordering takes places in a radial->axial direction and therefore a suctional effect takes place in the axis, where the most vigorous decrease in heat and pressure occurs. This attracts, indraws, concentrates and binds (emulsifies) the oxygen, which gives rise to diamagnetism. This is precisely the opposite of the atomic pressural force, generally known as electricity. With implosion, detonationless retro-suctional effects occur in the core zone, which promote a higher grade emulsive process, namely the binding of the oxygen, which becomes increasingly passive the closer it is to the center of flow. This results in the collapse of the peripheral masses, the release of the through-flowing substance from the walls, and thereby to an almost frictionless increase in the velocity of the self-inwinding through-flowing material, which accelerates by the square of the velocity of a falling heat gradient.


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