
Explaining Double Split Experiment with Geometrical Algebra Formalism
Author(s) -
Alexander Soiguine
Publication year - 2022
Publication title -
applied science and innovative research
Language(s) - English
Resource type - Journals
eISSN - 2474-4980
pISSN - 2474-4972
DOI - 10.22158/asir.v6n1p46
Subject(s) - formalism (music) , observable , theoretical physics , diffraction , quantum , algebra over a field , physics , quantum mechanics , classical mechanics , mathematics , pure mathematics , art , musical , visual arts
The Geometric Algebra formalism opens the door to developing a theory upgrading conventional quantum mechanics. Generalizations, stemming from implementation of complex numbers as geometrically feasible objects in three dimensions; unambiguous definition of states, observables, measurements bring into reality clear explanations of conventional weird quantum mechanical features, particularly the results of double split experiments where particles create diffraction patterns inherent to wave diffraction. This weirdness of the double split experiment is milestone of all further difficulties in interpretation of quantum mechanics.