WATCH THE SECRET OF NATURE: We are not talking about (mechanical) movements like those of Newton bodies. We are talking about wave movements, ie fluctuations, vibrations, oscillations, namely movements that reciprocate, rotated, repeated, much like standing waves and thus made periodically with (fast) pace, with opposite phases or synchronized and are measured by frequency and with amounts of energy, that are "counted" in mathematics. And ALL THESE WITH THE MORE FAST SPEEDS of nature and in the shorter distances. NO BODIES TO GO TO THE MOON AND TO COME BACK, BUT HOWEVER IN MORE SHORT LENGTHS and with the speed of light!

<•> WATCH the "key" answer: Until recently, they are tried to give explanations for these complex phenomena and for their absolute accuracy how do? With the laws of Newton's body and with the "push" of one body to another. While the matter and particles are formed with the laws of wave physics and their stability are created by the fast pace at which small amounts of energy repeated synchronized! The nature is created and maintained by a move that is not astronomical and physical move, same as that Newton was studying. It is move without bodies and a such move called "wave". This move is not because a body does not find resistance to its move, but EXACTLY THE OPPOSITE: The wave is generated because a (uniform) quantity (eg water) resists to change. This move, then, is not mechanical move and in times we live, we know that in nature there are such intangible moves: These called "electromagnetic".

trigonometric ratiosAll 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 in the triangles, that formed by the radius and strings etc., all these relations are in periodic and rhythmic phenomena. Rhythmic movements and energy exchanges are made with several trillion. millions of times per second in microscopic distances. The trained researchers of a lab waiting to observe so like (mechanical) movements of visible bodies? Do they expected that will measure with accurately and in the real-time, when the distance of observation is a multiple length of the distances into which these rhythmic interactions occur?



The wave principle of formation and preservation of microscopic phenomena and their strangeness will appear more clearly with few numbers. With a maximum speed of light, the length of 1m needs a time elapsing 1m / 2,997924e8 m / s = 0,333564e-8 sec. A length 1cm is traveled in about 10e-10sec (ie. In 0,000000001 sec). It is not necessary to we estimate these numbers with many zeros separately everyone. Here only to compare and imagine if helps. Suppose that the observations of the microscopic phenomena are in this (relatively large) distance of 1 centimeter. To make inquiries and accurate measurements at such distance, already is needs the advanced technology of the 20th century. The outer electrons of an atom are linked in several shorter lengths, in which the light traveled in quite less time, approaching 10e-20 zeros before the decimal point. Question to good elementary school students and high school students: We can observe changes in such small dimensions, if the light takes longer to reach the detectors or directly in our eyes? With how much delay?


The problem becomes even more difficult and more interesting for us researchers, when we consider that the light - through which we are informed - is not a continuous flow of particles or a continuous beam but is an alternating and rhythmic phenomenon (of two fields). The light frequency range is close to the frequency (in cycles per sec) about 10e15 Hz and vice versa, the time alternation of fields about 10e-15 sec. After in such tiny length are made changes by alternating and rhythmic ways, then these changes in order to observed properly, they should be slower than the pace of the light. Only then the light will "anticipates" to react to all the short moments, that microscopic changes occur instantaneously. Otherwise, if the paces on microscopic changes are faster than of the light, then the light will not react at all times with the microscopic phenomena and will not reveals properly them in whole.


The problem becomes desolate and our technology primitive when we consider that the principle of wave phenomena, in which particles produced by the "empty" space, is more microscopic lengths and at times approaching not the 15 zeros of the light (before the decimal point), but 40 zeros.






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