1 A NEWTONIAN MESSAGE FOR QUANTIZATION Nicolae Mazilu, PhD Silver Lake, Ohio 44224, USA NicolaeMazilu@sbcglobal.net Abstract. The dynamic equations related to Kepler motion are scale-invariant. This means that the dynamical model is universal: it works on the same principles at the micro level as well as at the macro level. Why then quantization? Is it telling something we couldn’t read in the classical physics? The answer is negative: both the microcosm and the macrocosm show the same type of phenomena that could be taken into consideration by the classical theory. The only thing worth considering from the side of quantum revolution is the inspiration it could bring, in astrophysics for instance. This was lost, however, due to the artificial dichotomy of our spirit. INTRODUCTION: A … LONG HISTORY The history of scientific relationship between matter and light, in its modern view, starts with Heinrich Hertz. He is the one who succeeded in describing and realizing the action at distance in the form of electromagnetic signals, thus taking his place in history as the discoverer of electromagnetic action at distance. While this kind of action is never revealed by our senses and therefore one cannot say, for instance, that it is realized by forces, Hertz described it in the language of the Maxwell theory of electromagnetic waves, and this language is exclusively tributary to forces. The Hertz dipole, as the material structure capable of creating and receiving electromagnetic waves is usually called, was the cornerstone in all decisions on the material structures connected with the creation of light, starting very early in the last century. What are these material structures? First of all it was the electron. It was discovered by J. J. Thomson in 1897 (Thomson, 1907). Based on this discovery, he proposed a model of matter. The first observation he took for granted was that the matter seems to be in a natural electrically neutral state. As the electron is charged with negative electric charge, J. J. Thomson advanced the idea that, if the matter is built-up from atoms, then these can be thought of as islands of negative charges in a confined continuum of positive charge. This is the so-called “plum pudding” model of the atom. Such an explanation of the structure of matter had, however, to be soon abandoned under the pressure of experimental facts, which its fundamental brick couldn’t accommodate. Towards the end of 19 th century became more and more obvious that the matter is unstable. Not from the known common viewpoint of chemistry but, we might say, from the point of view of alchemy: the elements themselves, therefore the atoms, are unstable, going over into other elements – the dream of alchemists! More to the point the heavy elements were decomposing themselves into lighter elements, with emission of three kinds of radiation, called by Ernest Rutherford alpha, beta and gamma. The first two of these proved to be radiations of particles, because they noticeably respond to electric and magnetic forces. The beta radiation was easily identified with the electrons of J. J. Thomson. The alpha radiation was electrically charged with positive charge, but was formed of particles much heavier than the electrons. These particles had