Chemistry as the science of molecules composed of bonded atoms is based on the physics of Quantum Mechanics QM as the science of atoms. For a chemist like Nobel Laureate Roald Hoffman this state of affairs is problematic: "QM delivers numbers, but not stories". In particular QM does not offer much of understanding of the physics of covalent bonding as a central concept of chemistry, not even for the Hydrogen molecule $H_2$ formed by two Hydrogen atoms $H$. QM delivers total energy as function of the distance between the protons of the $H$ atoms, and identifies a distance of 1.4 atomic units to have minimal energy. QM thus can identify that there is bond, but cannot tell what is the physics of the formation of the bond. In that sense QM acts like a black box which gives numbers but no understanding.
This poses a serious problem for chemists since what they have to deal with is precisely the physics of chemical bonding.
A professional chemist may get by with a black box without "stories", but school chemistry without "stories" cannot work, because learning is based on meaning from understanding a story. This means that educators have invented "stories" of chemical bonding which are not supported by physics of QM, which are propagated in chemistry classes. Stories which contain things like "sharing of electrons", "valence bond", "Lewis structure" and "delocalisation", which cannot be traced back to physics of QM. It seems that school chemistry would be the same even if there was nothing like QM. Strange?
RealQM offers an alternative to QM which gives both "numbers" and "stories based on physics" and thus may give additional meaning to school chemistry. RealQM gives an explanation of the formation of $H_2$ which can be properly understood also by young students, and parents.
It appears that educators are satisfied with a school chemistry which is not based on quantum chemistry as physics but on old phenomenological ad hoc models without physics which were developed long before QM. So students of chemistry will not have to meet QM and so not even teachers and what for will then a university professor be paid to teach?
One principle of school education is that it is to be a simplified version of university education which is to be be a simplified version of graduate education which should be close to the research front as present highest level of scientific understanding. But school chemistry is not a simplified version of quantum chemistry as the leading theory of chemistry and so appears to violate this principle. The reason is that it is impossible to make sense of a simplified quantum chemistry, because quantum chemistry itself struggles to make sense.
Inlägg
Inga kommentarer:
Skicka en kommentar