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In its most general or most universal form, life is described mathematically
as realization of the e-function, which is based on one, that is, the one
side of the incline quadrilateral at the curve of the e-function. Now let's
take a dynamic approach! When you walk on two legs, they cover a pi-times
longer way compared to the whole body. This means that they need to speed
up. Our legs, however, arrive at the destination simultaneously with our
body. Yet somehow the legs must have accelerated in relation to the whole
body because all of them reach the destination at the same time. How can
this apparent dilemma or contradiction be solved?
The acceleration of the legs or feet was transformed into force. The
e-function was followed because accelerated leg parts as well as the whole
body reach the same destination at the identically same time even though one
party had to have force - that is acceleration - and the other one not.
Integral and differential became or continue to become identical even though
the dimensions of the two are not identical. One stands for one and the same
or identity as well as the number one.
It is a path-defined, a posterior invisible, virtual acceleration. This is
what we refer to as pressure or unnecessarily as energy.
No better way to describe a live movement. It remains controversial when you
compare them a priori as well as a posteriori. Feet come first in order to
fall back later. On average, feet and whole body proceed at the same speed
even though they do not move at the same speed. Pure dialectics! This is
e-function lives, the a posteriori identity of the derivatives of
differential and integral. Anything can be described with pi and e. Pi-times
way and the one of the e-function, the identity of both ways - legs as well
as whole body. Both of them divided by each other results in one, the
identity.
Now let's get to light and prestabilized harmony. Here everything is carried
to the extremes. The legs and the whole body walk identically a priori as
well as a posteriori since the maximum speed must not be exceeded. The
" waves" across the bubble are frozen, which are like bulges or different
curvatures with varying curvature pressures that - while going forward - can
only reduplicate each other since the maximum speed does not allow for any
change. When the bubble bursts while being concentrated in one spot, the
quantum is formed - the focusing in one single point -, then the greatest
curvature also has the greatest force. The surface tension ensures that all
force is concentrated in each single point. To make it clear, this is not a
transversal wave, but only a "frozen" potential acceleration due to
curvature, which is unchangeable owing to the maximum speed.
This is difficult enough because it is reduced to the most essential of it
all. Therefore, it is true.
And what is gravity? The perfect bubble without varying curvatures!
Everywhere the curvature is identical. It has its maximum force in any
point, but also the shortest reach. If you so will, it is a pure even though
far-reaching NEAR force because no one can resist it and it can penetrate
anything. It must be the prestabilized harmony of Leibniz.
And then what is heat or energy or pressure or even shorter?
CONTACT ACCELERATION! Coming to a standstill and therefore highly
accelerated - negatively. E to the power of i times pi equals minus one. See
also the legs as mentioned above. Acceleration and speed are identical
despite different dimensions. This is the world formula in all its dialectic
contradictoriness - created at the contact area between actio and reactio.
Each one of us creates his or her own one. Gravity is the smallest: the
continuum of the prestabilized harmony.
All of the aforementioned was my way. Eternally long, but now arrived at my
destination, integral and differential appear to be identical and quite
short. The way had lots of curves, but from hindsight we can see that the
direction was correct and seems to be the shortest straight connection.
Thanks be to you, o contractile membrane and bubble sphere and droplet and
geometry, but also to Gottfried Wilhelm Leibniz from Leipzig in Saxony.