“The important thing is not to stop questioning. Curiosity has its own reason for existing. One cannot help but be in awe when he contemplates the mysteries of eternity, of life, of the marvelous structure of reality. It is enough if one tries merely to comprehend a little of this mystery every day. Never lose a holy curiosity” (Albert Einstein). This quote illustrates the fundamental philosophy of Albert Einstein and provides an insight into the mind of a theoretical physicist and a maverick that revolutionized physics in the early Twentieth Century. It is exceedingly difficult to identify an area of human life that Albert Einstein has not profoundly influenced for instance, when you turn on your television, send a text on your cell phone or rely on the global positioning satellite in your car to guide you to your journey's end. All of these advances in modern technologies are a direct offspring of the seed that Albert Einstein planted in the scientific community. This is a story about the accomplishments of Albert Einstein, a man who changed the world with his sheer intellect, the obstacles that he had to overcome, and a glimpse into a world where Albert Einstein may have never existed and what that world may be like. There is a fallacy that Albert Einstein may have been slow and he stated that he had done poorly in school; however, in 1900, Albert Einstein graduated from a prestigious university in Zürich Switzerland entitled the Federal Polytechnic School and this accomplishment alone deserves adulation. In elementary school, Albert’s teachers reiterated early fears of mental retardation however, tutored at home until the age of seven and his lack of involvement with other children may have played a role in adapting to this ch...
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...is the next Albert Einstein and what might he or she achieve?
Works Cited
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In 1936 a sixth-grade student by the name of Phyllis Wright wondered if scientists pray, and if so, what for. She decided to ask one of the greatest scientists of all time, Albert Einstein. A while later he wrote a letter back to Phyllis with his response. Understanding the context and purpose of his response assist in analyzing its effectiveness. After receiving a letter from such a young student, Einstein aimed to provide Phyllis with a comprehensible answer. He intended for his response not to sway her in one way or another, but to explain science and religion do not necessarily contradict each other completely. By using appeals to ethos, pathos, and logos, Einstein achieved his purpose by articulating a response suitable for a sixth grade
Albert Einstein may have helped to pave the path for modern civilization with his theory of relativity, however, there was more to this man than mere physics and science (Franklin, 2007, para. 2). He was awarded Time Magazine’s “Person of the Century” in 2000 as just one of the many recognitions he has received beyond his intellectual accomplishments (Lanouette, 2008, para. 1). In fact, the work in which he partook, combined with his just priorities and beliefs, fell clearly in line with the teachings the Catholic church strives to encourage. The following paper will prove how Albert Einstein’s ethic and moral actions clearly promoted three of the ten principles of Catholic social teachings.
Although Dr. Hawking impacts many areas of science and cosmology, his work with black holes has revolutionized modern physics. He works in all areas of black holes, including how they work, singularities, and most importantly, Hawking radiation. Black holes are very simpl...
Part I: The Edge of Knowledge Chapter 1: Tied Up with Strings This is the introductory section, where the author, Brian Greene, examines the fundamentals of what is currently proven to be true by experimentation in the realm of modern physics. Green goes on to talk more about "The Basic Idea" of string theory. He describes how physicists are aspiring to reach the Theory of Everything, or T.O.E. Some suspect when string theory is completely understood that it might turn out to become the T.O.E.Part II: The Dilemma of Space, Time, and Quanta Chapter 2: Space, Time, and the Eye of the Beholder In the chapter, Greene describes how Albert Einstein solved the paradox about light. In the mid-1800's James Maxwell succeeded in showing that light was actually an electromagnetic wave.
Albert Einstein was undoubtedly one of the world’s greatest physicians and mathematicians of all time. Einstein’s theories of relativity completely changed the world and have had a huge impact on how we currently live our lives. From how we heat our homes to how we are able to use GPS navigation systems. His theories have greatly changed how we must view the world around us. His theories of relativity and his works during the world wars earned him a Nobel Prize in physics, to name one of the many he deservingly received.
Einstein, Albert. ÒSirÓ (a letter to President Franklin D. Roosevelt) Einstein: The Life and Times. Ronald W. Clark. New York: World Publishing, 1971. 556-557.
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A hundred years ago, a young married couple sat at a kitchen table talking over the items of the day while their young boy sat listening earnestly. He had heard the debate every night, and while there were no raised voices, their discussion was intense. It was a subject about which his parents were most passionate - the electrodynamics of moving bodies in the universe. The couple were of equal intelligence and fortitude, working together on a theory that few people can comprehend even to this day. Mileva Maric Einstein was considered to be the intellectual equal of her husband Albert, but somehow went unrecognized for her contributions to the 1905 Papers, which included the Special Theory of Relativity. The stronger force of these two bodies would be propelled into the archives of scientific history, while the other would be left to die alone, virtually unknown. Mrs. Einstein was robbed. She deserved to be recognized for at least a collaborative effort, but it was not to be. The role which society had accorded her and plain, bad luck would prove to be responsible for the life of this great mathematician and scientist, gone unnoticed.
Informative Speech Scientists Einstein and Heisenberg A. Introduction My Speech is about the scientists who had the main influence on our current time and have shaped our contemporary view of the world (Also called in Theology the "Zeitgeist"). I have chosen two of them who are in many ways just opposites. One is extremely famous and the other is almost unknown, except to specialists. The most famous is, of course, Albert Einstein.
Stemming from the first years of the 20th century, quantum mechanics has had a monumental influence on modern science. First explored by Max Planck in the 1900s, Einstein modified and applied much of the research in this field. This begs the question, “how did Einstein contribute to the development and research of quantum mechanics?” Before studying how Einstein’s research contributed to the development of quantum mechanics, it is important to examine the origins of the science itself. Einstein took much of Planck’s experimental “quantum theory” research and applied it in usable ways to existing science. He also greatly contributed to the establishment of the base for quantum mechanics research today. Along with establishing base research in the field, Einstein’s discoveries have been modified and updated to apply to our more advanced understanding of this science today. Einstein greatly contributed to the foundation of quantum mechanics through his research, and his theories and discoveries remain relevant to science even today.
Einstein, Albert. Relativity: The Special and General Theory. Three Rivers Press, New York, New York. 1961.
Hawking, G, 1973, Astronomical Alignments in Britain, Egypt and Peru, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, Vol. 276, No. 1257, pp. 157-167
A field of study that Stephen Hawking is known for is cosmology. Cosmology is the metaphysical study of the origin and nature of the universe. A brief synopsis of Hawking indicates that, according to Hawking, "there is 'no place for a creator', that God does not exist." In his quantum cosmology, he indicates, "there would be no singularities at which the laws of science broke down and no edge of space-time at which one would have to appeal to God or some new law to set the boundary conditions for space-time . . . The universe would be completely self-contained and not affected by anything outside itself. It would neither be created nor destroyed. It would just BE . . . What place, then, for a creator?"(Smith 2005)Theists have argued against this position, specifically, "that even if Hawking's physical laws are true, that fact does not entail that the God of classical theism does not exist or even disconfirm the classical theistic hypothesis." It would appear that Hawking did not inhibit himself to simply one theory when asking the question where did we come from and why. Rather, he points out that "if we do discover a complete theory, it should in time be understandable in broad principle by everyone, not just a few scientists. Then we shall all, philosophers, scientists, and just ordinary people, be able to take part in the discussion of the question of why it is that we and the universe exist. If we find the answer to that, it would be the ultimate triumph of human reason for then we would know the mind of God."(Smith 2005)
Humans have a natural sense of curiosity. How does this work? Why does that happen? What makes this do that? Among us, there will always be those who strive to find the answers to questions like these and more. One of these people was Albert Einstein, perhaps one of the greatest human minds this world has ever known.
Of all the scientists to emerge from the nineteenth and twentieth centuries there is one whose name is known by almost all living people. While most of these do not understand this mans work, everyone knows that his impact on the world is astonishing.