(why do the rules change when you make things really small?)

(why do the rules change when you make thin" rel="nofollow">ings really small?) Submission: Why do the rules change when you make thin" rel="nofollow">ings really small? Accordin" rel="nofollow">ing to a recent study conducted by the University of Cambridge in" rel="nofollow">in collaboration with the University of New South Wales, the physical rules tend to change when thin" rel="nofollow">ings are smaller than they appear. In the new study, it was established that one of nature’s most fundamental forces, electromagnetism, has a tendency to vary across the universe. Electromagnetism is measured by a constant that is usually denoted by the symbol “alpha.” In addition, the research poin" rel="nofollow">inted out that the “alpha” constant dictates the strength of in" rel="nofollow">interaction between matter and light. In a study that analyzed the behavior of light in" rel="nofollow">in different quasars or galaxies, it emerged that the value of alpha was relatively smaller than the same quasar light discharged on earth over the past 10 billion years. The followin" rel="nofollow">ing could be possible reasons behin" rel="nofollow">ind the change of rules when thin" rel="nofollow">ings are made small: 1) Perhaps, the gradual and contin" rel="nofollow">inuous change in" rel="nofollow">in alpha constant suggests that the Universe could be bigger than the observable part of the human view, or even in" rel="nofollow">infin" rel="nofollow">inite. 2) Second, there is a popular notion suggestin" rel="nofollow">ing that several universes could possibly exist today. Further, each universe is governed by its own set of physical laws or rules. Therefore, slight changes in" rel="nofollow">in the rules of nature could simply mean that these rules were not crafted by the time the “human” universe came in" rel="nofollow">into existence. 3) Third, the rules of nature are possibly governed by and in" rel="nofollow">individual’s “space-time address” and only at the time where one exists in" rel="nofollow">in the Universe. 4) Fourth, other sections of the Universe are not favorable to support different life forms as confirmed by science and therefore, the rules of physics that currently apply to the human universe are perhaps a set of local laws. For this reason, it is no longer a surprise to bump in" rel="nofollow">into fin" rel="nofollow">ind life forms in" rel="nofollow">in the Universe. Overall, these reasons serve as reasonable explanations for an important questions that have puzzled scientists for several years: First, why do the rules change when you make thin" rel="nofollow">ings really small? Second, why are physical rules (laws) extremely fin" rel="nofollow">ine-tuned to the existence of different forms of life?