Neumekan: Neutrino Mechanics Theory¶
Introduction¶
This website presents Neumekan, a theoretical framework based on Neutrino Mechanics. The central idea of the theory is that neutrinos constitute a fundamental mechanical medium, and that a wide range of physical phenomena can be understood as arising from their collective motion and interactions.
Neumekan has been developed over more than two decades and has resulted in multiple publications in peer-reviewed journals. Notably, the framework has been applied to calculations of neutrino mass, producing results that are consistent with experimental observations.
The successful calculation of neutrino mass using this theory gives real motivation to explore it further. This result suggests that the theory may be capturing something important about how nature works, and it may be the reason you are curious about it.
The purpose of this website is simple. It is to give a clear and concise introduction to the main ideas of the theory, without requiring advanced mathematics.
Limitation of the Current States of Science¶
Gravitation force is still not really physicall understood. Newton's law of gravitation state that the graviation force is linear related to the multiply of masses of two body. It is well known that this formula is an approximation formula and not the exact formula. Einstain's relativities for the gravitation is also a math modeling using space and time and it cannot provide any physical explanation of the force.
Light in form of electric-magnet wave is also not physically understood. Eventough Maxwell's equations work well for analyising electric-magnet wave phenomono, it does nto expalin the physical mechanism of the the light.
Nuclear Strong Force betwen two postively charged protons store enormous energy is well kwown. However the mechanisim of the repellent force is still unclear.
Atomic structure of an proton, neutrion and electrons is modeled with Bohr model and the distribution of electron is modeld with Schrodinger equation. Even though it aproximate quantizie the electric distribution, it does nto provide physical explaintion of the the eletric distribution.
Benefits of this theory¶
Gravitation force on merged neutrons can be calcualted by (1) solving Laplace equation with boudnary condition of neutrino pressusre around the jointed neutrons and then (2) iterate the pressure difference around neutrons with Bernoullis equation. The gravitation force is induced by the gradient of neutrino pressure.
Nuclear strong force on two seperated neutrons can be calcualted by (1) solving Laplace equation with boudnary condition of pressusre around the two seperated neutrions and then (2) calculate the pressure difference around both neutrons with Bernoullis equation.
Atomic strucuter of a nuclear, which is a merged neutrons, can be calcualted -The procedure this the same as for graviation force except that we assuem neutrino pressure is constant to neglect the gravitation force.
Molecular structure can be modeld by (1) solving Laplace equation with boudnary condition of pressusre around the the surface of nucli and then (2) calculate the pressure difference around both neutrons with Bernoullis equation. The procedure is similar to all the above approach excpet now the calculation is much more complex due to invoving multiple neutrons, nuclears.
Electro-Magnet Wave can be modeled as interactive between the neutrino translation motion (electric field) and neutrino rotoation motion (magnet field). This could be an alterntive method to the exisitng Maxwell's equation. The pros and cons is await to be evaltued later when this alternative method is excuted.