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Albert Einstein's contributions to the world
Albert Einstein contributions to math
Biography report of albert einstein
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Albert Einstein and the Nobel Prize
Introduction
A genius is not somebody who learns quickly or has a high IQ. Geniuses invent new ways of thinking and often improve discoveries. Albert Einstein was a famous scientist and has made a large impact on modern science (Mohun, 2004). Einstein started off as an unknown scientist in a patent office in Bern, but soon became one of the world’s leading scientists after writing several revolutionary scientific papers in 1905, the year which was later known as Annus Mirabilis (Na, 1996). The Nobel Prize has made the award-winning scientists known to the public. In 1921, Einstein received the Physics Nobel Prize for his discovery of the Law of the Photoelectric Effect. This report will be looking
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The Photoelectric Effect, which won the Nobel Prize in 1921, helped scientists develop many new inventions, such as solar cells and telecommunication networks. According to the Nobel Prize website Einstein is the most popular Physics Nobel Laureate in the world. He became famous due to his discovery of the two revolutionary Theories of Relativity. When Einstein won the Nobel Prize, it made him even more known to the general population. Einstein’s work still today inspires scientists and his work is often the foundation for many inventions and discoveries. Einstein’s work helped improve ways of displaying light and also research in Nuclear Physics. There is much more to explore about the emission of neutrons and electrons. For example, atoms are made up of quarks, but it is debatable if these quarks are made up of something even smaller. Otherwise, the structure of quarks and how they behave requires further research. This connects with Einstein, because he was one of the founders of the Quantum Physics. M. Ley, the author of this report, will aim to do more research on Quantum Physics and the field’s connection with Albert Einstein’s work. Albert Einstein has also created more than two Theories, so the author wants to investigate and understand some of Einstein’s other less famous, but still important theories. Albert Einstein is a good example for the impact for the 113 year old tradition of the Nobel Prize, which still has a huge influence on our lives
Oppenheimer's early studies were devoted mainly to energy processes of subatomic particles, including electrons,positrons, and cosmic rays. He also did innovative work on not only neutron stars but also black holes. His university provided him with an excellent opportunity to research the quantum theory, along with exploration and development of its full significance. This helped him train an entire generation of U.S. physicists. Furthermore, the most important impact was the invention of the atomic bomb.
Geniuses like Isaac Newton and Albert Einstein and Thomas Edison were not only smart, but they also devised new theories, solved mathematical mysteries, and pioneered new gadgets.
Einstein was not always an extremely successful man and he had difficulties that would have prevented anyone else from succeeding, but eventually, several of his theories led to scientific advancements. One theory earned him a Nobel Prize, in physics one a PhD and another helped in the development of nuclear fission. If a person were only to take a quick glance at his life without a deeper investigation, they would find it difficult to discover the catalyst that led to his success. However, with the tools Gladwell provides his readers it does become obvious what led to Einstein’s life of success. Gladwell argues that a person needs to devote time to practice their craft; he calls this the “10,000-hour rule” (Gladwell 35). They must also have opportunity to succeed, as well as intelligence; they must at least be, smart enough to do so. He also claims that they must have been born at just the right time for success, too early or too late is a failure; he calls this the “Matthew Effect” (Gladwell 15). Gladwell even goes so far as to say that where they are born has a significant impact on their success; this he calls “demographic luck” (Gladwell 129). These tools provided by Gladwell to identify an outlier can explain if Albert Einstein is truly an outlier.
physics. The work of Ernest Rutherford, H. G. J. Moseley, and Niels Bohr on atomic
Galileo Galilei was born in 1564, and was invested into science. Due to rumors in the year of 1609, about a Dutch who invented a device that zoomed in on distant objects (this was known as a spyglass earlier in the years, now its known as a telescope. He heard that a patent had been requested, but was not granted. There was a lot of value in this because the methods were kept secret, and this could be used in the military for Holland. Due to the rumors, Galilei was soon determined and driven to construct his own spyglass. Within 24 hours, only using his knowledge, experimentation, and pieces of the rumors, and never seeing the actual Dutch spyglass, Galilei soon found himself building a 3-power telescope. With some tweaks, he soon had a 10 power-telescope. From here, he demonstrated this it a Senate, and his salary was raised, and honored with proclamations. This shows how smart Galilei was, being able to construct his own telescope with nothing but his brain.
In the 1920s the new quantum and relativity theories were engaging the attentions of science. That mass was equivalent to energy and that matter could be both wavelike and corpuscular carried implications seen only dimly at that time. Oppenheimer's early research was devoted in particular to energy processes of subatomic particles, including electrons, positrons, and cosmic rays. Since quantum theory had been proposed only a few years before, the university post provided him an excellent opportunity to devote his entire career to the exploration and development of its full significance. In addition, he trained a whole generation of U.S. physicists, who were greatly affected by his qualities of leadership and intellectual independence.
Einstein became a hero, and the myth building began. Headlines appeared in newspapers all over the world. On November 8, 1919, for example, the London Times had an article headlined: "The Revolution In Science/Einstein Versus Newton." Two days later, The New York Times' headlines read: "Lights All Askew In The Heavens/Men Of Science More Or Less Agog Over Results Of Eclipse Observations/Einstein Theory Triumphs." The planet was exhausted with World War I, eager for some sign of humankind's nobility, and suddenly here was a modest scientific genius, seemingly interested only in pure intellectual pursuits.
Alfred Nobel is known for starting the Nobel Prize. This prize is given every year to some of the greatest minds in the world who through their work, help to better society. In opposition to the improvement of society, is the fact that Nobel’s other known inventions brought much death and destruction to the world (Frost). This combination of inventions helps to pose the question who was Alfred Nobel, and why did Nobel create this prize to help the world. In this paper I will find out who was the man behind the inventions that brought so much death and destruction to the world. I will also find out why he created this prize to have people work to better the planet and protect life itself. Lastly there have been many awards given out, and I will investigate some of the winners and the role that the Nobel Prize played in their subsequent lives.
This aspect of relativity explained the phenomena of light bending around the sun, predicted black holes as well as the Cosmic Microwave Background Radiation (CMB) -- a discovery rendering fundamental anomalies in the classic Steady-State hypothesis. For his work on relativity, the photoelectric effect and blackbody radiation, Einstein received the Nobel Prize in 1921.
Everyone at some point in their lives lies even when they know that they should be telling the truth. Deception is a key element in William Shakespeare’s play, Romeo and Juliet. Romeo and Juliet are both deceptive to their parents when they do not tell them about their marriage. They then continue to lie, Juliet telling her parents she would marry Paris when she secretly arranged to fake her death and Romeo deceiving Friar Laurence by going back to Verona. All of the deceiving in the play leads to conflicts, which eventually ends in death of both Romeo and Juliet. By showing how Romeo and Juliet being deceptive to their parents and role models led to pain and conflict, Shakespeare shows that you should always be honest if you want to maintain
When Albert Einstein was a young kid, his teachers believed that he was “too stupid to learn.” They suggested to his mother that he just skip school and start manual labor early, because he was a hopeless case. In spite of this, his mother continued to make him go to school; in addition, she also bought him a violin (24). Violin soon became one of his greatest passions, and he even stated that playing the violin was what made him intelligent. His friend, G.J. Withrow, had said that whenever Einstein had trouble figuring out an equation he would go and improvise on the violin (24).
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.
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.
Have you ever dreamed of being a genius? Genius is not about scoring 4.0 in academic’s cumulative grade point average, mastering seven languages at the age of seven, or having an extraordinarily high I.Q.Genius as referred to Collins Cobuild Advance Dictionary means “a person who displays exceptional intellectual ability, creativity, or originality, typically to a degree that is associated with the achievement of an unprecedented leap of insight”. For example, Albert Einstein is a 20th-century symbol of scientific genius. However, there are negative impacts of being genius such as it leads to psychological problems and disorders, it leads people to do something horrible, and it leads genius people to go against human right.
Scientists from earlier times helped influence the discoveries that lead to the development of atomic energy. In the late 1800’s, Dalton created the Atomic Theory which explains atoms, elements and compounds (Henderson 1). This was important to the study of and understanding of atoms to future scientists. The Atomic Theory was a list of scientific laws regarding atoms and their potential abilities. Roentagen, used Dalton’s findings and discovered x-rays which could pass through solid objects (Henderson 1). Although he did not discover radiation from the x-rays, he did help lay the foundations for electromagnetic waves. Shortly after Roentagen’s findings, J.J. Thompson discovered the electron which was responsible for defining the atom’s characteristics (Henderson 2). The electron helped scientists uncover why an atom responds to reactions the way it does and how it received its “personality”. Dalton’s, Roentagen’s and Thompson’s findings helped guide other scientists to discovering the uses of atomic energy and reactions. Such applications were discovered in the early 1900’s by using Einstein’s equation, which stated that if a chain reaction occurred, cheap, reliable energy could b...