WATCH THE SECRET OF NATURE:
We are not talking about (mechanical) movements like such as those of the
material bodies, which Galileo and Newton observed.
We are talking about wave motions, ie fluctuations, vibrations, oscillations, namely motions that reciprocate, rotate, repeat themselves, much
like standing waves, which are thus realized periodically with (very fast) pace, with opposite phases or in synchronization and are measured
by frequency and by amounts of energy, that are computed in mathematics. And all these are realized in the fastest speed of nature and in
shorter distances. These are not bodies, which fly to the moon and come back, but they are the ones that move in shorter lengths and with the speed of light!
<•> LOOK OUT FOR the "key" answer: How have they attempted until recently to give explanations for
these complex phenomena (about the structure of matter) and for their absolute accuracy? By the laws of Newton's bodies and by the "push" of
one body to another. Nevertheless, matter and particles are formed by the laws of wave physics and their stability is achieved through the
fast pace at which small amounts of energy are repeated and synchronized! Nature is created and maintained by a motion that it is not an
astronomical and a physical motion, such as the one that Newton was studying. It is a motion without bodies and such a motion is called "wave".
This motion is created not because a body does not find resistance to move, but exactly the opposite: The wave is generated because a
(uniform) quantity (eg water) resists to change. This motion, then, is not a mechanical motion and in the times we live, we know that there
are such intangible motions in nature: These are called "electromagnetic".
ratios that disclosed in geometry of the cycle, between the periphery and the radius, between the angle of a radius with the other radius, the
lengths of the arcs and the strings and the ratios between the sides of the triangles, which are formed by the radius and strings etc., all these relations are
in periodic and rhythmic phenomena. Rhythmic motions and energy exchanges are realized several trillion millions of times per second in
microscopic distances. Do the trained researchers of a lab expect to observe them like (mechanical) movements of visible bodies? Do they
expect to compute accurately and in real-time, while the distance of observation is a multiple length of the distances into which these rhythmic
We recognize the fundamental role of the trigonometrical functions not only because these relations are
generally needed for nature research, but also because these (numerical and physical) relations are simple and essential in order to observe a
multitude of physical phenomena and because they simplify this exploration and the computations. Now, whoever is neither a nuclear physicist nor
an electrician can understand, how important and useful the geometric relations are, which the field of mathematics has called "trigonometry".
And when we talk about the invisible phenomena. that change at the highest speed in the tiny space and lay the foundations in the nature, the
worst student in mathematics understands, in what trap the best physicists have often fallen, who record an endless volume of observations on
microscopic phenomena, without being aware of the closest relation that they always have with each other. Every movement detected at a fraction
of time, every energy exchange, and any variation in sizes at a given moment in the microscopic structure of matter seem as properties and
separate particles. A lot of variations and processes with difference in angle and radius within the wave changes (by which the structural
elements are sustained and produced), are deemed by the researchers to be “quirks” of reality and not a new reality. For them, there are new
particles or new qualities, a new way of action and movement that is worth the name of a colleague. The mathematical proportions in the rapid
and rhythmic change of energy appear as separate phenomena and properties. A constant quantity varies and shares them, but the quantities are
always linked to each other because the original shared quantity is kept constant (like the number pi).