![]() ![]() For instance, it clearly explains that the Higgs boson gives mass to the W and Z bosons, quarks, and the charged leptons, but it fails to explain whether the Higgs boson gives mass to the neutrinos or not. For example, according to the standard model representation, the photon particle gets paired up only with the particle that it can touch however, in the actual scenario, this is not the case. Practically, the standard model is compatible with most of the general experiments, but there are certain limitations of the standard model. Also, the quadrants of the circle are not properly defined. The Higgs boson is placed right next to the gluon and photon particles, but it must be noticed that the Higgs boson does not have any effect on those particles in real life. Here, all the force-carrying particles such as photons that are responsible to transfer the electromagnetic force, the W and Z bosons that convey the weak force, and the gluons that communicate the strong force from one position to the other are described in a similar manner as that of the matter particles. If you observe the graphical representation of a standard model, you may easily conclude that the centrality of the model relies on the Higgs boson. It typically aims at providing a reasonable explanation of three fundamental concepts of the universe, i.e., how everything that exists in nature is made up of 12 different types of meta particles, what are the three interactive forces acting between these particles, and which special force binds all the particles and interactive forces to each other however, the standard model fails to establish a relationship between the basic particles that constitute each and every object in the universe. In a similar manner, the standard model tends to categorize atoms of elements on the basis of the elementary particles, i.e., fermions and bosons. The elements in a periodic table are arranged on the basis of the nature and the characteristics of the atoms. The voids that prohibited the standard model to link the existing knowledge and elements at that particular time served to be a prime motivation for the scientists to explore and discover the particle, now known as the Higgs boson. ![]() At that time, the Higgs boson particle was not discovered. The standard model was initially developed during the early 1970s. A standard model tends to lay 17 building blocks that are responsible for the formation of almost all the objects existing in nature, namely, six quarks, six leptons, the Higgs boson, and four force-carrying particles. It is a combination or collection of a set of mathematical formulae and equations that tend to describe the nature of the elementary particles and the type of interactive forces existing between them. The foundation of the standard model is typically formed on the basis of symmetry principles, i.e., the principle of equivalence and gauge principles. The standard model typically belongs to the particle physics domain and does not have a real-life implementation till now. The standard model is a theoretical model that helps scientists and researchers get a close understanding of the universe in the best possible manner to date. ![]()
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