adjective: relating to or associated with heat
Schauberger
It is really not immaterial whether motion must first be active in the production of a temperature, which on its part triggers a reactive increase in motion, or whether a temperature induced by physical, thermal or chemical means affects physical movement by way of the molecular motion. The matter first becomes complex, however, when the different temperature-forms mentioned earlier are included in the equation, wherein it is also necessary in regard to the types of motion, to differentiate between those that produce the 'higher' or 'lower' temperature-forms. [The Energy Evolution - Harnessing Free Energy from Nature, The Life-Current in Air and Water]
However, as is the case with all today's machines, if the physical, thermal or chemical starting impulse happens first, then the opposite reactive course of further development results. It thus becomes clear that with an increasing rate of rotation the resistance to motion increases by the square of the enforced acceleration in the interchange of substances (metabolism). [The Energy Evolution - Harnessing Free Energy from Nature, The Life-Current in Air and Water]
This process is caused by the liberation of this dangerous retrogressive substance, which has become unipolar and aggressive through a pre-active physical, thermal or chemical starting impulse, whereas the principal formative substance, the naturalesquely fermented fatty-matter, or so-called carbon (carbone), becomes passive and inactive under this influence. [The Energy Evolution - Harnessing Free Energy from Nature, The Life-Current in Air and Water]
However, if a physical, thermal or chemical starting impulse is first active, which influences the molecular motion in such a way that the oxygen becomes free, unipolar and aggressive due to the resurgence of positive, group B temperatures, then having been forced into the centre of this combat, the principal formative matter will become passive and will be bound, consumed and digested. The product of this event is the developmentally harmful cavitation current - a variety of the so-called electric current - which as an exceptionally analysing current not only pits and corrodes steel turbine blades, but also decomposes and dissociates the blood of the Earth - water. [The Energy Evolution - Harnessing Free Energy from Nature, The Life-Current in Air and Water]
See Also
12.28 - Temperature
12.29 - Origin and Nature of Heat
12.30 - Thermal Radiation and Thermal Vacuum or Cold
12.31 - Heat Generated Through Resistance to Compression
7B.19 - Light and Heat
Atomic Cluster Heating
CHAPTER I. Ancient Ideas of Light and Heat
Cold
cooling
Cycle of Temperature
expanding heat death universe
falling
Figure 3.10 - Temperature Accumulates in the North and Cools in the South Reciprocally
Figure 3.11 Thermal Polarization
FORCES DERIVED FROM INTRA-ATOMIC ENERGY - MOLECULAR FORCES, ELECTRICITY, SOLAR HEAT, ETC.
HEAT - Snell
heat death
heat divides electric potential
heat engine
HEAT FROM VIBRATION
heat life
heat multiplication
heat of resistance to tension
Heat pump and refrigeration cycle
heat resistance
Heat
Heat
heat-equivalence
heat-form
heat-increasing machine
heat-intensifying
heat-less
heat-pressure
Heat-Thermal Conduction
heating
Isothermal Process
latent heat
Law of Heat
multiplication of heat
over-heating
Radiant heat
REGENERATIVE HEAT EXCHANGERS
rising
solar heat
specific heat
T1 - Schauberger
T2 - Schauberger
Temperature
temperature-form
temperature-gradient
thermal concentration
thermal condition
thermal force
thermal influence
thermal reduction
Thermal Runaway
Thermoelectricity
vaporising heat-form
WHAT IS HEAT
Force and Energy - The Theory of Dynamics