Cell Language 213“6x9” b2861 The Cell Language Theory: Connecting Mind and MatterFigure 4.11 A suggested mechanism underlying the formation of the “Kröplin images”
based on the concept of standing waves referred to as “Kröplin waves”. Condition X
includes exposure of water droplets to various flowers or sounds prior to evaporation.condition X evaporation
Waterdroplets 'KrƂplin waves' 'KrƂplin images'indeed can act as “messages” just as “sound waves” in air carry messages
(as waveforms) in human language.
It seems reasonable to assume that the “Kroeplin images” could have
arisen from the solute distributions in water drops driven by standing waves
produced within them. The shape of such standing waves are expected to
be influenced by the topology of water droplets and their solute concentra-
tions as well as the environmental conditions, including the size of water
droplets. The standing waves postulated to produce the “Kroeplin images”
will be referred to as the “Kroeplin waves”, again for convenience, although
Professor Kroeplin may not agree with my use of these terms.
The first step in Figure 4.11 is consistent with the McLuhan equation
if we can assume that water is a new language, the postulate that I pro-
posed at the 11th Congress [494].
Aquaresonances, defined as the standing waves of water, can be
inferred to be formed from the elementary bond vibrations (or “aquavibra-
tions”) of millions of water molecules that interact to form low-frequency
waves following the Fourier theorem [160]. An aquaresonance is an exam-
ple of dissipative (d) structure of Prigogine (1917–2003), since its existence
requires dissipation of free energy. In Figure 4.11, aquaresonances are
postulated to be responsible for the formation of Kroeplin images which are
examples of Prigogine’s equilibrium (e) structures, since no energy dissipa-
tion is needed for their existence. The resonance waves formed in air (in
contrast to water) are referred to as “aeroresonances” in Figure 4.11, which
are examples of Prigogine’s dissipative structures.
The Emoto water crystals (i.e., Figures 4.12(a) and 4.12(b)) [508]
are thought to be formed from preceding standing waves (i.e.,
d-aquaresonances, comparable to Kroeplin waves in Figure 4.11) which
are thought to be transformed into e-aquaresonances upon freezing
(comparable to Kroeplin images in Figure 4.11b). Freezing causes the
convective (and hence ordered) movement of water molecules in theb2861_Ch-04.indd 213 17-10-2017 11:59:00 AM