Actio et reactio1/12/2024 ![]() But only after his retirement he had sufficient time to enter more deeply into this field and to initiate and perform the present research project.Galerie Michael Janssen will be presenting. Parallel to his subsequent 30 years long engagement with Siemens he was fascinated by the ongoing overwhelming progress in cosmology. In the frame of a university partnership in the early seventies he helped to build up an institute of physics in Kabul/Afghanistan by implementing laboratories, lecturing and composing the first school books in Dari language in physics. ![]() Back in Bonn he was promoted as assistant professor at the „ Institut für Strahlen – und Kernphysik“ of Bonn university. After studying physics in the universities of Würzburg, Münster and Bonn, he spent a two years scholarship in the French nuclear research center of Saclay in the „Service de Physique Nucleaire a Moyenne Energie“. His interest for physics was aroused during his education at the gymnasium of natural sciences in Aschaffenburg. The initiator of this research project, Oskar Erwin Beer, was born in Tuschkau, a small city near Pilsen. The m(-) matter concentrated around the center point U as a “ M(-) nucleus” and in the inertial system of point U the m(+) matter expanded very soon ( as compared to today’s time T₀ passed since the Big Bang) radially with constant velocity extremely close to light speed, forming a thin spherical shell. The Big Bang ended up in a complete separation of m(-) from m(+) matter. This is the definition of the Big Bang in this model. As soon as m(-) matter started to accumulate in the center of the sphere the accumulation went on by positive feed back in a chain reaction. The pre- Big-Bang cosmos was not in a permanent stable equilibrium. ![]() If nuclear density is assumed the radius would have been in the order of 0,001 light years. Due to the balance of long range forces this sphere was in an equilibrium state. The matter m(-) of the dark energy is attractive to itself with the gravitation constant G and repulsive to m(+) matter (normal matter and dark matter) with the gravitation constant – G.īefore the Big Bang the cosmos consisted of a spherical homogeneous distribution of m(-) and m(+) matter, with same total quantities M(-) and M(+). ![]() The "dark energy" is then the exchange force between m(-) and normal and dark matter, both labeled as m(+), and responsible for the increasing distance between stars and galaxies. This principle of physics, valid on earth for any force, shall also apply to the force responsible for the increase of distance between celestial bodiesĪccording to this conclusion a so far unknown matter shall be attributed to the dark energy, arbitrarily labeled with m(-). The physical principle "actio et reactio" can be interpreted such that if a force is acting on particles with mass then it originates also from particles with mass. The fact, that the distance between far away celestial bodies is increasing or has increased against the gravitation is interpreted in this new approach as being caused by a force acting on these celestial bodies, accelerating them and thus causing the increase of distance between them. So far no satisfying theory has come up to unravel this mysterious, hypothetical energy. In this perception dark energy is the cause for the huge – and still increasing - distances between celestial bodies since the Big Bang. In present cosmology dark energy is an unknown form of energy acting on space, expanding it. ![]()
0 Comments
Leave a Reply.AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |