Large Unified Theory, in particle physics; Electromagnetic is a model that can make weak and strong interactions into a single power. This described interaction is characterized by a greater degree of symmetry and, consequently, more force carriers, but there is one combining constant. If the great unification has taken place in nature, there is a possibility that this unification can occur in the young universe where the fundamental forces do not exist. Models that do not integrate all interactions use a simple Lie group as a measure symmetry, but using such semi-simple groups can show similar features to the Grand Unified Theory and sometimes even refer to the Great Unified Theory. Combining gravity with three other interactions can offer us a theory that explains everything. Nevertheless, the Great Unified Theory can be seen as an intermediate step leading to a theory that explains everything. The masses of the Novel particles are estimated by the Large Unified Theory models in the Large Unified Theory scale, which cannot be observed directly because the Planck scale is predicted only by a few measures. Instead, the effects of the Great Unification can be determined by the proton decay, the properties of the electric dipole moments of simple particles or the properties of neutrinos. Some Great United Theories predict the presence of magnetic monopolies. As of 2012, even in comparison with the standard model, all the Great Unified Theory models, which are intended to be purely realistic, have become quite confusing because they should explain some additional fields and interactions as well as additional space dimensions. The main reason for this confusion is the masses of the subatomic particles observed and the difficulties of the mixer angles. Because of these difficulties and the lack of observable effects of the Great Unification so far, there is no general Grand Unified Theory model.

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