QUANTUM PHYSICS: A SHORT STORY

QUANTUM PHYSICS: A SHORT STORY Quantum physics challenges all of the basic assumptions of Newtonian physics. Quantum physics challenges our assumptions that there is an objective classical reality “out there”, independent of us. It challenges the idea of locality, that the only way that objects can be influenced is through direct contact. It challenges the idea of causality that the arrow of time points only in one direction establishing a cause→effect sequence. It challenges the idea of continuity and determinism. It connects consciousness with the physical world and shows that the quantum world is interconnected. This evolution has known philosophical implications. The dogmatism of idealism and materialism are overcome. This means that the idea and the matter are the ends of a continuous spectrum that are alternated and metabolized. The idea includes the matter and the matter includes the idea. The consciousness becomes nature and the nature becomes an consciousness. The quantum mechanics, so-called quantum theory has to do with the basic building blocks of matter: the basic elementary particles that make up everything in nature. These particles include atoms, molecules, neutrons, protons, electrons, quark, as well as photons (the main light units). All these creatures of nature are much-much smaller than anything that can be seen the human eye. The entrance to this strange world could offer an experience both exotic and bizarre and the adventures of Alice in Wonderland. the dreamy quantum world: particles are waves and waves are particles. That is, a light beam as an electromagnetic wave propagating in the universe, and a flow of fine particulates that are directed at a rate to observer ∙ in that a quantum experiments or phenomena reveal the wave nature of light, and other particulate nature the same light - but never both sides simultaneously. And nevertheless, before observe a ray of light, wave and particle flow is one. In the realm of quantum everything is ambiguous: a dominating feature of uncertainty across all entities transacted ∙ either light, electrons, atoms or quarks. This uncertainty is known as the uncertainty principle / uncertainty. We can only predict the most likely place where a particle, not the exact location. And never able to determine with great precision to the position or momentum. Scientific predictions for the results are statistical in nature and are given using probability. Moreover, there are no "hidden variables" (as he would like the Einstein), which, if it were made, would dispel the fog that shrouds the quantum world. So, the magic, the obscure and hidden, are the integral attribute Character Structures in quantum theory structure - the ontological indeterminacy ∙ the answer to which is the philosophy and mathematics. Wave-particle Duality In the early 1800's using a double slit experiment, Thomas Young proved that light is wave like (Zukav, 2001). In front of a light source, Young placed a screen with two vertical slits in it. On the other side of the double slit screen was a wall. When the light was on and both of the slits were open, the light produced an interference pattern which registered on the wall behind the screen. Interference patterns result when waves interfere with each other – in some places they reinforce each other and in some places cancel each other out. Thus, Young's double slit experiment showed that light is wave like. However, many years later, using a photoelectric effect, Einstein demonstrated that light is made of