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ya bana ünlü bir bilim adamının ingilizce hayatını bulabilirmisiniz bulursanı çok sevinirim şimdiden tşkler |
Albert Einstein - Biography http://z.about.com/d/inventors/1/0/y/E/einstein.jpg Photo: Albert Einstein Albert Einstein was born in Germany in 1879. He enjoyed classical music and played the violin. One story Einstein liked to tell about his childhood was of a wonder he saw when he was four or five years old: a magnetic compass. The needle's invariable northward swing, guided by an invisible force, profoundly impressed the child. The compass convinced him that there had to be "something behind things, something deeply hidden." Even as a small boy Albert Einstein was self-sufficient and thoughtful. According to family legend he was a slow talker, pausing to consider what he would say. His sister remembered the concentration and perseverance with which he would build houses of cards. Albert Einstein's first job was that of patent clerk. In 1933, he joined the staff of the newly created Institute for Advanced Study in Princeton, New Jersey. He accepted this position for life, living there until his death. Einstein is probably familiar to most people for his mathematical equation about the nature of energy, E = MC2. Albert Einstein wrote a paper with a new understanding of the structure of light. He argued that light can act as though it consists of discrete, independent particles of energy, in some ways like the particles of a gas. A few years before, Max Planck's work had contained the first suggestion of a discreteness in energy, but Einstein went far beyond this. His revolutionary proposal seemed to contradict the universally accepted theory that light consists of smoothly oscillating electromagnetic waves. But Einstein showed that light quanta, as he called the particles of energy, could help to explain phenomena being studied by experimental physicists. For example, he made clear how light ejects electrons from metals. There was a well-known kinetic energy theory that explained heat as an effect of the ceaseless motion of atoms; Einstein proposed a way to put the theory to a new and crucial experimental test. If tiny but visible particles were suspended in a liquid, he said, the irregular bombardment by the liquid's invisible atoms should cause the suspended particles to carry out a random jittering dance. One should be able to observe this through a microscope, and if the predicted motion were not seen, the whole kinetic theory would be in grave danger. But just such a random dance of microscopic particles had long since been observed. Now the motion was explained in detail. Albert Einstein had reinforced the kinetic theory, and he had created a powerful new tool for studying the movement of atoms. The Atomic Bomb Please don't build one at home. On August 2nd 1939, just before the beginning of World War II, Einstein wrote to then President Franklin D. Roosevelt. Einstein and several other scientists told Roosevelt of efforts in Nazi Germany to purify U-235 with which might in turn be used to build an atomic bomb. It was shortly thereafter that the United States Government began the serious undertaking known only then as the Manhattan Project. Simply put, the Manhattan Project was committed to expedient research and production that would produce a viable atomic bomb. [The Letter] Biography Nova's multimedia presentation on the life of Albert Einstein The Biography of Albert Einstein Learn about the life and times of Albert Einstein. Chapters: Formative Years, The Great Works, E=mc², World Fame, Public Concerns, Quantum and Cosmos, The Nuclear Age, Science and Philosophy, An Essay: Albert Einstein - The World As I See It. Albert Einstein in Princeton "Albert Einstein (1879 - 1955) first gained worldwide prominence in 1919, when British astronomers verified predictions of Einstein's general theory of relativity through measurements taken during a total eclipse. Einstein's theories expanded upon, and in some cases refuted, universal laws formulated by Newton in the late seventeenth century." Pictures of Albert Einstein A Poster of Albert Einstein Albert Einstein Archives Albert Einstein Online Einstein for Kids Albert Einstein's Birthday - March Fundays A Short Albert Einstein Biography Collected Quotes Albert Einstein PORTRAIT OF A GENIUS Albert Einstein was asked to pose so many times that he said if he hadn't been a physicist, he could have made a living as a model. Related Information Nuclear Innovations Inventor and innovations surrounding nuclear physics. E = MC2 Albert Einstein developed a theory about the relationship of mass and energy. The formula, E=mc[2], is probably the most famous outcome from Einstein's special theory of relativity. The formula says energy (E) equals mass (m) times the speed of light (c) squared. In essence, it means mass is just one form of energy. Since the speed of light squared is an enormous number (186,000 miles per second)[2], a small amount of mass can be converted to a phenomenal amount of energy. Or, if there's a lot of energy available, some energy can be converted to mass and a new particle can be created. Nuclear reactors, for instance, work because nuclear reactions convert small amounts of mass into large amounts of energy. kaynak |
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arkadaşlar bana bir bilim adamının geçmiş zamanda hayatında önemli olayları kısa şekilde ingilizce olarak yazabilirmisiniz lise 1 seviye sinde olsun ACİLLLLLLLLL |
LÜTFEN İNGİLİZCE PERFORMANS ÖDEVİ İNGİLİZCE BİRİNİN (BİLİM ADAMI) HAYATI LÜTFEEN |
yaaaa off ödevimi yapamadım yarın ingilizce var ne yapcam ben bana yardımcı olun lütfen bir bilim adamı ve ingilizce****türkçe hayatı |
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Aşağıdaki mesajı inceleyiniz ; Alıntı:
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banda laızmm |
Carl Friedrich Benz hayatı arkadaşım ben ingilizcesini istiyorum |
arkadaşlar albert ainstein'in hayatından 10 soru 10 cewap yazabilirmisiniz acill? (ingilizce olarak) |
Albert Einstein was born in Germany in 1879. He enjoyed classical music and played the violin. One story Einstein liked to tell about his childhood was of a wonder he saw when he was four or five years old: a magnetic compass. The needle's invariable northward swing, guided by an invisible force, profoundly impressed the child. The compass convinced him that there had to be "something behind things, something deeply hidden." Even as a small boy Albert Einstein was self-sufficient and thoughtful. According to family legend he was a slow talker, pausing to consider what he would say. His sister remembered the concentration and perseverance with which he would build houses of cards. Albert Einstein's first job was that of patent clerk. In 1933, he joined the staff of the newly created Institute for Advanced Study in Princeton, New Jersey. He accepted this position for life, living there until his death. Einstein is probably familiar to most people for his mathematical equation about the nature of energy, E = MC2. Albert Einstein wrote a paper with a new understanding of the structure of light. He argued that light can act as though it consists of discrete, independent particles of energy, in some ways like the particles of a gas. A few years before, Max Planck's work had contained the first suggestion of a discreteness in energy, but Einstein went far beyond this. His revolutionary proposal seemed to contradict the universally accepted theory that light consists of smoothly oscillating electromagnetic waves. But Einstein showed that light quanta, as he called the particles of energy, could help to explain phenomena being studied by experimental physicists. For example, he made clear how light ejects electrons from metals. There was a well-known kinetic energy theory that explained heat as an effect of the ceaseless motion of atoms; Einstein proposed a way to put the theory to a new and crucial experimental test. If tiny but visible particles were suspended in a liquid, he said, the irregular bombardment by the liquid's invisible atoms should cause the suspended particles to carry out a random jittering dance. One should be able to observe this through a microscope, and if the predicted motion were not seen, the whole kinetic theory would be in grave danger. But just such a random dance of microscopic particles had long since been observed. Now the motion was explained in detail. Albert Einstein had reinforced the kinetic theory, and he had created a powerful new tool for studying the movement of atoms. The Atomic Bomb Please don't build one at home. On August 2nd 1939, just before the beginning of World War II, Einstein wrote to then President Franklin D. Roosevelt. Einstein and several other scientists told Roosevelt of efforts in Nazi Germany to purify U-235 with which might in turn be used to build an atomic bomb. It was shortly thereafter that the United States Government began the serious undertaking known only then as the Manhattan Project. Simply put, the Manhattan Project was committed to expedient research and production that would produce a viable atomic bomb. [The Letter] Biography Nova's multimedia presentation on the life of Albert Einstein The Biography of Albert Einstein Learn about the life and times of Albert Einstein. Chapters: Formative Years, The Great Works, E=mc², World Fame, Public Concerns, Quantum and Cosmos, The Nuclear Age, Science and Philosophy, An Essay: Albert Einstein - The World As I See It. Albert Einstein in Princeton "Albert Einstein (1879 - 1955) first gained worldwide prominence in 1919, when British astronomers verified predictions of Einstein's general theory of relativity through measurements taken during a total eclipse. Einstein's theories expanded upon, and in some cases refuted, universal laws formulated by Newton in the late seventeenth century." Pictures of Albert Einstein A Poster of Albert Einstein Albert Einstein Archives Albert Einstein Online Einstein for Kids Albert Einstein's Birthday - March Fundays A Short Albert Einstein Biography Collected Quotes Albert Einstein PORTRAIT OF A GENIUS Albert Einstein was asked to pose so many times that he said if he hadn't been a physicist, he could have made a living as a model. Related Information Nuclear Innovations Inventor and innovations surrounding nuclear physics. E = MC2 Albert Einstein developed a theory about the relationship of mass and energy. The formula, E=mc[2], is probably the most famous outcome from Einstein's special theory of relativity. The formula says energy equals mass (m) times the speed of light (c) squared. In essence, it means mass is just one form of energy. Since the speed of light squared is an enormous number (186,000 miles per second)[2], a small amount of mass can be converted to a phenomenal amount of energy. Or, if there's a lot of energy available, some energy can be converted to mass and a new particle can be created. Nuclear reactors, for instance, work because nuclear reactions convert small amounts of mass into large amounts of energy. |
arkadaşlar was were ile anlatı lazımm |
YAA BANA ÇOK LAZIM BEN DÖRDE GİDİYORUM HALAMIN ÖDEVİ VAR EĞER EVE BOŞ GİDERSEM BENİ ÖLDÜRÜR |
ingilizce ödewi yarına einteisnsen her neyse neyi bulmuştur? bhn bulamadm yrdmcı olun ama inglzce olark nerede yaşadı neyi buldu... :) lütfen hadi acele edinn yalwarıorm |
rica etsem Albert Einstein öz geçmisini orta son sınıfa göre yazarmısınız |
ing Photo: Albert Einstein Albert Einstein was born in Germany in 1879. He enjoyed classical music and played the violin. One story Einstein liked to tell about his childhood was of a wonder he saw when he was four or five years old: a magnetic compass. The needle's invariable northward swing, guided by an invisible force, profoundly impressed the child. The compass convinced him that there had to be "something behind things, something deeply hidden." Even as a small boy Albert Einstein was self-sufficient and thoughtful. According to family legend he was a slow talker, pausing to consider what he would say. His sister remembered the concentration and perseverance with which he would build houses of cards. Albert Einstein's first job was that of patent clerk. In 1933, he joined the staff of the newly created Institute for Advanced Study in Princeton, New Jersey. He accepted this position for life, living there until his death. Einstein is probably familiar to most people for his mathematical equation about the nature of energy, E = MC2. Albert Einstein wrote a paper with a new understanding of the structure of light. He argued that light can act as though it consists of discrete, independent particles of energy, in some ways like the particles of a gas. A few years before, Max Planck's work had contained the first suggestion of a discreteness in energy, but Einstein went far beyond this. His revolutionary proposal seemed to contradict the universally accepted theory that light consists of smoothly oscillating electromagnetic waves. But Einstein showed that light quanta, as he called the particles of energy, could help to explain phenomena being studied by experimental physicists. For example, he made clear how light ejects electrons from metals. There was a well-known kinetic energy theory that explained heat as an effect of the ceaseless motion of atoms; Einstein proposed a way to put the theory to a new and crucial experimental test. If tiny but visible particles were suspended in a liquid, he said, the irregular bombardment by the liquid's invisible atoms should cause the suspended particles to carry out a random jittering dance. One should be able to observe this through a microscope, and if the predicted motion were not seen, the whole kinetic theory would be in grave danger. But just such a random dance of microscopic particles had long since been observed. Now the motion was explained in detail. Albert Einstein had reinforced the kinetic theory, and he had created a powerful new tool for studying the movement of atoms. The Atomic Bomb Please don't build one at home. On August 2nd 1939, just before the beginning of World War II, Einstein wrote to then President Franklin D. Roosevelt. Einstein and several other scientists told Roosevelt of efforts in Nazi Germany to purify U-235 with which might in turn be used to build an atomic bomb. It was shortly thereafter that the United States Government began the serious undertaking known only then as the Manhattan Project. Simply put, the Manhattan Project was committed to expedient research and production that would produce a viable atomic bomb. [The Letter] Biography Nova's multimedia presentation on the life of Albert Einstein The Biography of Albert Einstein Learn about the life and times of Albert Einstein. Chapters: Formative Years, The Great Works, E=mc², World Fame, Public Concerns, Quantum and Cosmos, The Nuclear Age, Science and Philosophy, An Essay: Albert Einstein - The World As I See It. Albert Einstein in Princeton "Albert Einstein (1879 - 1955) first gained worldwide prominence in 1919, when British astronomers verified predictions of Einstein's general theory of relativity through measurements taken during a total eclipse. Einstein's theories expanded upon, and in some cases refuted, universal laws formulated by Newton in the late seventeenth century." Pictures of Albert Einstein A Poster of Albert Einstein Albert Einstein Archives Albert Einstein Online Einstein for Kids Albert Einstein's Birthday - March Fundays A Short Albert Einstein Biography Collected Quotes Albert Einstein PORTRAIT OF A GENIUS Albert Einstein was asked to pose so many times that he said if he hadn't been a physicist, he could have made a living as a model. Related Information Nuclear Innovations Inventor and innovations surrounding nuclear physics. E = MC2 Albert Einstein developed a theory about the relationship of mass and energy. The formula, E=mc[2], is probably the most famous outcome from Einstein's special theory of relativity. The formula says energy equals mass (m) times the speed of light (c) squared. In essence, it means mass is just one form of energy. Since the speed of light squared is an enormous number (186,000 miles per second)[2], a small amount of mass can be converted to a phenomenal amount of energy. Or, if there's a lot of energy available, some energy can be converted to mass and a new particle can be created. Nuclear reactors, for instance, work because nuclear reactions convert small amounts of mass into large amounts of energy. kaynak -------------------------------------------------------------------------------- Kaynak: Ünlü bir bilim adamının İngilizce hayatını bulabilir misiniz? |
oktay sinanoğlu ingilizce hayatı oktay sinanoğlu hayatı ingilizce bir bilim adamının bilim adamlarının adamlarının Sinanoğlu was born in 1935 in Bari, Italy where his father served as a consul general. The family returned to Turaaa at the start of World War II in 1939. In 1953, he attended TED Yenişehir Lisesi high school in Ankara, and after graduating won a scholarship for education of chemistry in the United States. In 1956, he graduated from the University of California, Berkeley in chemical engineering with the highest rank. In only eight months, he graduated from MIT in 1957 with the highest degree. In two years, he finished his doctorate at UC Berkeley. In 1960, Sinanoğlu started working as associate professor at Yale University. He theorized the "Many-Electron Theory of Atoms and Molecules" in 1962 by solving a mathematical theorem that had been unsolved for 50 years.[2] The same year, he earned the Alfred P. Sloan prize. He was appointed aaaa professor in 1961. He got his second life-long chair in Yale in Molecular Biology. Sinanoğlu was the first to earn the Alexander von Humboldt's Science Prize in 1973. In 1975, he won the award of Japan's International Outstanding Scientist. In the 1980s, he theorized a new method from 180 theories concerning mathematics and physics, considered revolutionary, which enables chemists to predict the ways in which chemicals combine in the laboratory and to solve other complex problems in chemistry using simple pictures and periodic tables. Also, he took his place in the Academy of Arts & Sciences. In 1993, he moved to Turaaa to teach at the Yıldız Teknik Universitesi, and officially retired at the age of 67. Yet his scientific researches have not ceased. He received several international and local awards concerning his scientific and social contributions and efforts. He has been to many places including Asia and Latin America. He tried to establish strong communications between Japan, India and Turaaa. Because of his efforts, he was given the title "Special Emissary" of Japan-Turaaa. He worked for better education, purified language in Turaaa most of his life and strived to form a conscious generation. |
baba beni okula gönderme la sende bişi söle lim babama göndermesin :P |
ingilizce ya ingilizce bır prafösörun hayatını ingilizce olarak yazar mısınz 8. sınıf duzeyınde bır kac gun ıçınde yazarsanız çok ıyı olur :| ;) :^) |
ünlü bir kişinin ailesinin ingilizce hayatını istiyorum lütfen yarına çabuk ama |
Giuseppe Verdi From Wikipedia, the free encyclopedia This article is about the 19th century composer. For other uses, see Verdi (disambiguation). Giuseppe Fortunino Francesco Verdi (Italian pronunciation: [d͡ʒuˈzɛppe ˈverdi]; 10 October 1813 – 27 January 1901) was an Italian Romantic composer, mainly of opera. Musically, he was part of European Romanticism, and was one of the most influential composers of the 19th century. His works are frequently performed in opera houses throughout the world and, transcending the boundaries of the genre, some of his themes have long since taken root in popular culture – such as "La donna è mobile" from Rigoletto, "Va, pensiero" (The Chorus of the Hebrew Slaves) from Nabucco, "Libiamo ne' lieti calici" (The Drinking Song) from La traviata and the "Grand March" from Aida. Verdi’s masterworks dominate the standard opera repertoire a century and a half after their composition. |
Ya arkadaslar bizede yeni verildi bu ödev bulduysanız lütfen söyleyin 0 almak isstemiorum çeviriden yapıncada çok karışık oluyor hayatı ile ilgili 10 soru 10 cevap:( :( yardım edinnn :( |
arkadaşlar bana hayatı ile ilgili soruar lazım |
Karl Benz Karl Friedrich Benz (born November 26, 1844, Karlsruhe – April 4, 1929, Ladenburg) was a German mechanical engineer and engine designer. Benz is known as the inventor of the gasoline-powered car's widely. The other German contemporaries inventors Gottlieb Daimler and Wilhelm Maybach worked simultaneously on the same project, but with Benz's work before, and then the internal combustion cars provide all processes the applicability of patent. Karl Benz patented the first engine designed in 1878, 1879. Benz in 1885 produced to sell the world's first petrol engine car, and produced the Motorwagen. Three wheel motor in this car returned back, from the front, was full of passengers. Among other inventions, carburetor, throttle\/brake system, ignition system, the spark plug, a battery, electrostatic kıvılcımlanmayla clutch, gear change system, and radiator. In 1896, Karl Benz boxer-type engine has designed and patented the same year. This engine is used as a basic design principle is still leading motorsports. |
Ünlü bir bilim adamının hayatını İngilizce olarak paylaşır mısınız? Arkadaşlar Performans Ödevi Verildi Bu Konu İçinde Ünlü Bir Bilim Adamının Hayatı İngilizce Olaramk Yazılacak Ama Arkadaşlar Lütfen Kısa Olsun Yarına Gidecek Bide Resim Eklermisiniz Lütfen :) |
5 BİLİM ADMIN HAYATI İNGİLİZCE YAZILI 5 BİLİM ADAMIN HAYATI İNGİLİZCE YAZILI |
ya lütfen performans ödevi |
ingilizce bilim adamları 3 tane bılım adamı hayatı ve ıngılızce yazılımı:P:P |
ingilizce ünlü bir kişinin hayatı ya ingilizce istiyorum |
Türk bilim adamlarından birinin hayatını İngilizce anlatır mısınız? Türk bilim adamlarından birinin hayatını İngilizce anlatır mısınız? |
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MsXLabs.org & Vikipedi Ala al-Dīn Ali ibn Muhammed http://upload.wikimedia.org/wikipedia/en/b/b0/Ali_Ku%C5%9F%C3%A7u_Portre.jpg Ali Qushji (Ottoman Turkish/Persian language: علی قوشچی,kuşçu - falconer in Turkish; Latin: Ali Kushgii) was an astronomer, mathematician and physicist originally from Samarkand, who settled in the Ottoman Empire some time before 1472. As a disciple of Ulugh Beg, he is best known for the development ofastronomical physics independent from natural philosophy, and for providing empirical evidence for the Earth's rotation in his treatise, Concerning the Supposed Dependence of Astronomy upon Philosophy. In addition to his contributions to Ulugh Beg's famous work Zij-i-Sultani and to the founding of Sahn-ı Seman Medrese, one of the first centers for the study of various traditional Islamic sciences in the Ottoman caliphate, Ali Qushji was also the author of several scientific works and textbooks on astronomy. Biography Ali Qushji was born in 1403 in the city of Samarkand, in present-day Uzbekistan. His full name at birth was Ala al-Dīn Ali ibn Muhammed al-Qushji. The last name Qushjiderived from the Turkish term kuşçu - the falconer - due to the fact that Ali's father Muhammad was the royal falconer of Ulugh Beg. Sources consider him Turkic orPersian. http://upload.wikimedia.org/wikipedia/commons/thumb/4/43/Ulugh_Beg_observatory.JPG/225px-Ulugh_Beg_observatory.JPG Ulugh Beg Observatory - Landmark of Ali Qushji's career He attended the courses of Qazi zadeh Rumi, Ghiyāth al-Dīn Jamshīd Kāshānī and Muin al-Dīn Kashi. He moved to Kerman, Iran(Persia) and there he conducted some researches on the storms of Oman sea. He completed Hall-e Eshkal-i Ghammar (Explanations of the Periods of the Moon) and Sharh-e Tajrid in Kirman. He moved to Herat and taught Molla Cami about astronomy (1423). After professing in Herat for a while he went back to Samarkand and herald his works about moon to Ulugh Beg. Ulugh Beg was fascinated with the works and read the entire work while standing up. Ulugh Beg assigned him to Ulugh Beg Observatory which was called "Samarkand Observatory" at that time. He worked there till Ulugh Beg was assassinated. After Ulugh Beg's death, Ali Qushji went to Herat, Tashkent and finally Tabriz, where around 1470, the Ak Koyunlu ruler Uzun Hasan sent him as a delegate to the Ottoman Sultan Mehmed II. At that time Husayn Bayqarah had come to reign in Herat but Qushji preferred Constantinople rather than Herat because of Sultan Mehmed's attitude toward scientists and intellectuals. Constantinople era When he came to Constantinople (present-day Istanbul), his grandson Ghutb al-Dīn Muhammed had a son Mirim Chalabi who would be a great mathematician and astronomer in the future. Ali Qushji composed "risalah dar hay’at" in Persian for Mehmed II at Constantinople in 1470. Also he wrote "Sharh e resalye Fathiyeh", "resalye Mohammadiye" in Constantinople, which are in Arabic on the topic of mathematics. He then finished "Sharh e tejrid" on Nasir al-Din al-Tusi's "Tejrid al-kalam". That work is called "Sharh e Jadid" in scientific community Contributions to astronomy Qushji improved on Nasir al-Din al-Tusi's planetary model and presented an alternative planetary model for Mercury. He was also one of the astronomers that were part ofUlugh Beg's team of researchers working at the Samarqand observatory and contributed towards the Zij-i-Sultani compiled there. In addition to his contributions to Zij, Ali Qushji wrote nine works in astronomy, two of them in Persian and seven in Arabic. A Latin translation of two of Qushji's works, the Tract on Arithmetic and Tract on Astronomy, was published by John Greaves in 1650. Concerning the Supposed Dependence of Astronomy upon Philosophy http://upload.wikimedia.org/wikipedia/commons/thumb/e/e4/Ali_Qushji_map_travels.png/220px-Ali_Qushji_map_travels.png His travel to the Ottoman Empire. Qushji's most important astronomical work is Concerning the Supposed Dependence of Astronomy upon Philosophy. Under the influence of Islamic theologians who opposed the interference of Aristotelianism in astronomy, Qushji rejected Aristotelian physics and completely separated natural philosophy from Islamic astronomy, allowing astronomy to become a purely empirical and mathematical science. This allowed him to explore alternatives to the Aristotelian notion of a stationary Earth, as he explored the idea of a moving Earth instead (though Savage-Smith asserts that no Islamic astronomers proposed a heliocentric universe). He found empirical evidence for theEarth's rotation through his observation on comets and concluded, on the basis of empirical evidence rather than speculative philosophy, that the moving Earth theory is just as likely to be true as the stationary Earth theory. His predecessor al-Tusi had previously realized that "the monoformity of falling bodies, and the uniformity of celestial motions," both moved "in a single way,” though he still relied on Aristotelian physics to provide "certain principles that only the natural philosophers could provide the astronomer." Qushji took this concept further and proposed that "the astronomer had no need for Aristotelian physics and in fact should establish his own physical principles independently of the natural philosophers." Alongside his rejection of Aristotle's concept of a stationary Earth, Qushji suggested that there was no need for astronomers to follow the Aristotelian notion of the heavenly bodies moving in uniform circular motion. Qushji's work was an important step away from Aristotelian physics and towards an independent astronomical physics. This is considered to be a "conceptual revolution"that had no precedent in European astronomy prior to the Copernican Revolution in the 16th century. Qushji's view on the Earth's motion was similar to the later views ofNicolaus Copernicus on this issue, though it is uncertain whether the former had any influence on the latter. However, it is likely that they both may have arrived at similar conclusions due to using the earlier work of Nasir al-Din al-Tusi as a basis. This is more of a possibility considering "the remarkable coincidence between a passage in De revolutionibus (I.8) and one in Ṭūsī’s Tadhkira (II.1[6]) in which Copernicus follows Ṭūsī’s objection to Ptolemy’s "proofs" of the Earth’s immobility." His works Astronomy
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