Albert Einstein and His Theories
Albert Einstein was a genius because he not only contributed to theworld of physics, but his theories helped evolve modern physics. By theend of the 1930s, he was considered one of the greatest scientists theworld has ever seen. In 1905, Einstein published four papers thatrevolutionized the world of physics. These papers included his theory ofrelativity, the establishment of the mass energy equivalent, the theory ofBrownian motion, and the photon theory of light. Einstein improved on Newton's existing theory of gravity. Part ofEinstein's genius lies in the fact that he did not think of physics in thesame way that everyone else in his field did. Instead, he believed thatphysics could be explored and developed by the reduction of other laws inconjunction with geometrical proportions. Newton's theory of gravity couldnot explain the orbit of Mercury, which Einstein's theory could. In
Einstein's study of light explains heat as it relates to solid objects,which removed one of the stumbling blocks that previous physicistsexperienced. His idea revolved around new laws that governed theabsorption of light. Einstein further developed thisidea with his equation of E=mc 2. His theories in this field led to greatadvancements in the world of quantum theory of radiation. Thegravitational redshift can be explained through the examination of whitedwarfs. lar eclipses and positions of stars thathave proven to be true. This theory demonstrates that "time and space arenot absolute but relative to the observer" (Noble 961). In conclusion, Albert Einstein was more than a genius and certainly morethan just a physicist. This theory isimportant because it reconciles the laws of the electromagnetic field withthe laws of mechanics. This theory helps us see hoenature can make use of nuclear reactions, which supplies stars with theirmain source of energy. Einstein's theory of relativity also included predictions that effected thegravitational deflection of light and the gravitational redshift. Preceding Einstein's equivalent, was MaxPlanck's quantum theory, which allowed physicists to conclude that energypossessed some of the same elements of matter, which caused them to believethat energy and matter could be exchanged. In 1922, Einstein was awarded the Nobel Prize for hiswork on the photon theory of light. Einstein's mass energy equivalent is perhaps one of the most popularformulas known in the world. This theory alsomaintains that space and time exist together in a combined continuum.
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