Albert Einstein (German pronunciation (help·info)) (March 14, 1879 – April 18, 1955) was a theoretical physicist widely regarded as the most important scientist of the 20th century. He was the author of the special and general theories of relativity and made significant contributions to quantum mechanics, statistical mechanics, and cosmology. He was awarded the 1921 Nobel Prize for Physics for his explanation of the photoelectric effect in 1905 (his "wonderful year") and "for his services to Theoretical Physics".
After British solar eclipse expeditions in 1919 confirmed that light rays from distant stars were deflected by the gravity of the Sun in the amount he had predicted in his theory of relativity, Einstein became world-famous, an unusual achievement for a scientist. In his later years, his fame perhaps exceeded that of any other scientist in history. In popular culture, his name has become synonymous with great intelligence and genius.
Contents
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* 1 Biography
o 1.1 Youth and college
o 1.2 Work and doctorate
+ 1.2.1 Annus Mirabilis Papers
o 1.3 Middle years
+ 1.3.1 General relativity
+ 1.3.2 The "Copenhagen" interpretation
+ 1.3.3 Bose-Einstein statistics
+ 1.3.4 The Einstein refrigerator
+ 1.3.5 World War II
+ 1.3.6 Institute for Advanced Study
# 1.3.6.1 Generalized theory
o 1.4 Final years
* 2 Personality
o 2.1 Religious views
o 2.2 Political views
* 3 Citizenship
* 4 Popularity and cultural impact
o 4.1 Entertainment
o 4.2 Licensing
o 4.3 Honors
* 5 Works by Albert Einstein
* 6 Notes
* 7 References
* 8 See also
* 9 External links
Biography
Youth and college
Young Albert before the Einsteins moved from Germany to Italy.
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Young Albert before the Einsteins moved from Germany to Italy.
Einstein was born on March 14, 1879 at Ulm in Württemberg, German Empire, about 100 km east of Stuttgart. His parents were Hermann Einstein, a salesman who later ran an electrochemical works, and Pauline, née Koch. They were married in Stuttgart-Bad Cannstatt. The family was Jewish (non-observant); Albert attended a Catholic elementary school and, at the insistence of his mother, was given violin lessons. Though he initially disliked the lessons, and eventually discontinued them, he would later take great solace in Mozart's violin sonatas.
When Einstein was five, his father showed him a pocket compass, and Einstein realized that something in "empty" space acted upon the needle; he would later describe the experience as one of the most revelatory of his life. Though he built models and mechanical devices for fun and showed great mathematical faculty early on, he was considered a slow learner, possibly due to dyslexia, simple shyness, or the significantly rare and unusual structure of his brain (examined after his death).[1] He later credited his development of the theory of relativity to this slowness, saying that by pondering space and time later than most children, he was able to apply a more developed intellect. Some researchers have speculated that Einstein may have exhibited some traits of mild forms of autism, although they concede that a reliable posthumous diagnosis is impossible.[2]
In 1889, a medical student named Max Talmud (later: Talmey) introduced Einstein to key science and philosophy texts, including Kant's Critique of Pure Reason. Two of his uncles would further foster his intellectual interests during his late childhood and early adolescence by recommending and providing books on science, mathematics and philosophy.
Einstein attended the Luitpold Gymnasium, where he received a relatively progressive education. He began to learn mathematics around age twelve; in 1891, he taught himself Euclidean plane geometry from a school booklet and began to study calculus. There is a recurring rumor that Einstein failed mathematics later in his education, but this is untrue; a change in the way grades were assigned caused confusion years later. However, while at the Gymnasium, he clashed with authority and resented the school regimen, believing that the spirit of learning and creative thought were lost in such endeavors as strict memorization.
In 1894, following the failure of Hermann Einstein's electrochemical business, the Einsteins moved from Munich to Pavia, a city in Italy near Milan. Einstein's first scientific work, called "The Investigation of the State of Aether in Magnetic Fields", was written contemporaneously. Albert remained behind in Munich lodgings to finish school, completing only one term before leaving the gymnasium in the spring of 1895 to rejoin his family in Pavia. He quit a year and a half prior to final examinations without telling his parents, convincing the school to let him go with a medical note from a friendly doctor, but this meant that he had no secondary-school certificate.[3] That year, at the age of 16, he performed the thought experiment known as "Albert Einstein's mirror". After gazing into a mirror, he examined what would happen to his image if he were moving at the speed of light; his conclusion, that the speed of light is independent of the observer, would later become one of the two postulates of special relativity.
Although he excelled in the mathematics and science portion of the Eidgenössische Technische Hochschule (ETH, Swiss Federal Institute of Technology, in Zürich) entrance exam the following year, his failure of the liberal arts portion was a setback; his family sent him to Aarau, Switzerland to finish secondary school, and it became clear that he was not going to be an electrical engineer as his father intended for him. There, he studied the seldom-taught Maxwell's electromagnetic theory and received his diploma in September 1896. During this time, he lodged with Professor Jost Winteler's family and became enamoured with Marie, their daughter and his first sweetheart. Einstein's sister, Maja, who was perhaps his closest confidant, was to later marry their son, Paul, and his friend, Michele Besso, married their other daughter, Anna.[4] Einstein subsequently enrolled at the Eidgenössische Technische Hochschule in October and moved to Zürich, while Marie moved to Olsberg, Switzerland for a teaching post. The same year, he renounced his Württemberg citizenship and became stateless.
In the spring of 1896, the Serbian Mileva MariÄ started initially as a medical student at the University of Zurich, but after a term switched to the same section as Einstein as the only woman that year to study for the same diploma. Einstein's relationship with MariÄ developed into romance over the next few years, which Einstein's family opposed based on the fact that she was not Jewish, older, and physically "defective."[5]
In 1900, Einstein was granted a teaching diploma by the Eidgenössische Technische Hochschule (ETH Zurich). Einstein then wrote his first published paper, on the capillary forces of a drinking straw, titled "Folgerungen aus den Capillaritätserscheinungen", which translated is "Consequences of the observations of capillarity phenomena" (found in "Annalen der Physik" volume 4, page 513). In it, he tried to unify the laws of physics, an attempt he would continually make throughout his life. Through his friend Michelle Besso, an engineer, Einstein was presented with the works of Ernst Mach, and would later consider him "the best sounding board in Europe" for physical ideas. During this time, Einstein discussed his scientific interests with a group of close friends, including Besso and MariÄ. The men referred to themselves as the "Olympia Academy". Einstein and MariÄ had a daughter out of wedlock, Lieserl Einstein, born in January 1902. Her fate is unknown; some believe she died in infancy, while others believe she was given out for adoption.
Work and doctorate
Einstein in 1905, when he wrote the "Annus Mirabilis Papers"
Einstein in 1905, when he wrote the "Annus Mirabilis Papers"
Upon graduation, Einstein could not find a teaching post, mostly because his brashness as a young man had apparently irritated most of his professors. The father of a classmate helped him obtain employment as a technical assistant examiner at the Swiss Patent Office[6] in 1902. There, Einstein judged the worth of inventors' patent applications for devices that required a knowledge of physics to understand — in particular he was chiefly charged to evaluate patents relating to electromagnetic devices.[7] He also learned how to discern the essence of applications despite sometimes poor descriptions, and was taught by the director how "to express [him]self correctly". He occasionally rectified their design errors while evaluating the practicality of their work.
Einstein married Mileva MariÄ on January 6, 1903. Einstein's marriage to MariÄ, who was a mathematician, was both a personal and intellectual partnership: Einstein referred to Mileva as "a creature who is my equal and who is as strong and independent as I am". Ronald W. Clark, a biographer of Einstein, claimed that Einstein depended on the distance that existed in his and Mileva's marriage in order to have the solitude necessary to accomplish his work; he required intellectual isolation. Abram Joffe, a Soviet physicist who knew Einstein, in an obituary of Einstein, wrote, "The author of [the papers of 1905] was ... a bureaucrat at the Patent Office in Bern, Einstein-MariÄ" and this has recently been taken as evidence of a collaborative relationship. However, according to Alberto A. MartÃnez of the Center for Einstein Studies at Boston University, Joffe only ascribed authorship to Einstein, as he believed that it was a Swiss custom at the time to append the spouse's last name to the husband's name.[8] Whatever the truth, the extent of her influence on Einstein's work is a highly controversial and debated question.
In 1903, Einstein's position at the Swiss Patent Office had been made permanent, though he was passed over for promotion until he had "fully mastered machine technology".[9] He obtained his doctorate after submitting his thesis "A new determination of molecular dimensions" ("Eine neue Bestimmung der Moleküldimensionen") in 1905.
That same year, in his spare time, he wrote four articles that participated in the foundation of modern physics, without much scientific literature to which he could refer or many scientific colleagues with whom he could discuss the theories. Most physicists agree that three of those papers (on Brownian motion, the photoelectric effect, and special relativity) deserved Nobel Prizes. Only the paper on the photoelectric effect would be mentioned by the Nobel committee in the award. This is ironic, not only because Einstein is far better-known for relativity, but also because the photoelectric effect is a quantum phenomenon, and Einstein became somewhat disenchanted with the path quantum theory would take.
Max Planck presents Einstein with the Max-Planck medal, Berlin June 28, 1929
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Max Planck presents Einstein with the Max-Planck medal, Berlin June 28, 1929
Annus Mirabilis Papers
For more details on this topic, see Annus Mirabilis Papers.
Einstein submitted this series of papers to the "Annalen der Physik". They are commonly referred to as the "Annus Mirabilis Papers" (from Annus mirabilis, Latin for 'year of wonders'). The International Union of Pure and Applied Physics (IUPAP) commemorated the 100th year of the publication of Einstein's extensive work in 1905 as the 'World Year of Physics 2005'.
The first paper, named "On a Heuristic Viewpoint Concerning the Production and Transformation of Light", ("Ãber einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt") proposed that "energy quanta" (which are essentially what we now call photons) were real, and showed how they could be used to explain such phenomena as the photoelectric effect. This paper was specifically cited for his Nobel Prize. Max Planck had made the formal assumption that energy was quantized in deriving his black-body radiation law, published in 1901, but had considered this to be no more than a mathematical trick. The photoelectric effect thus provided a simple confirmation of Max Planck's hypothesis of quanta.
His second article in 1905, named "On the Motion—Required by the Molecular Kinetic Theory of Heat—of Small Particles Suspended in a Stationary Liquid", ("Ãber die von der molekularkinetischen Theorie der Wärme geforderte Bewegung von in ruhenden Flüssigkeiten suspendierten Teilchen") covered his study of Brownian motion, and provided empirical evidence for the existence of atoms. Before this paper, atoms were recognized as a useful concept, but physicists and chemists hotly debated whether atoms were real entities. Einstein's statistical discussion of atomic behavior gave experimentalists a way to count atoms by looking through an ordinary microscope. Wilhelm Ostwald, one of the leaders of the anti-atom school, later told Arnold Sommerfeld that he had been converted to a belief in atoms by Einstein's complete explanation of Brownian motion.[10]
Einstein's third paper that year, "On the Electrodynamics of Moving Bodies" ("Zur Elektrodynamik bewegter Körper"), was published in September 1905. This paper introduced the special theory of relativity, a theory of time, distance, mass and energy which was consistent with electromagnetism, but omitted the force of gravity. While developing this paper, Einstein wrote to Mileva about "our work on relative motion", and this has led some to ask whether Mileva played a part in its development. A few historians of science believe that Einstein and his wife were both aware that the famous Frenchman Henri Poincaré had already published the equations of Relativity, a few weeks before Einstein submitted his paper; most believe their work was independent, especially given Einstein's isolation at this time. Similarly, it's debatable if he knew the 1904 paper of Lorentz which contained most of the theory and to which Poincaré referred. See also relativity priority dispute.
In a fourth paper, "Does the Inertia of a Body Depend Upon Its Energy Content?", ("Ist die Trägheit eines Körpers von seinem Energieinhalt abhängig?"), published late in 1905, he showed that from relativity's axioms, it is possible to deduce the famous equation that the energy of a body at rest (E) equals its mass (m) times the speed of light (c) squared: E = mc².
Middle years
Einstein at the 1911 Solvay Conference.
Einstein at the 1911 Solvay Conference.
In 1906, Einstein was promoted to technical examiner second class. In 1908, Einstein was licensed in Bern, Switzerland, as a Privatdozent (unsalaried teacher at a university). During this time, Einstein described why the sky is blue in his paper on the phenomenon of critical opalescence, which shows the cumulative effect of scattering of light by individual molecules in the atmosphere.[11] In 1911, Einstein became first associate professor at the University of Zurich, and shortly afterwards full professor at the (German) University of Prague, only to return the following year to Zurich in order to become full professor at the ETH Zurich. At that time, he worked closely with the mathematician Marcel Grossmann. In 1912, Einstein started to refer to time as the fourth dimension (although H.G. Wells had done this earlier, in 1895 in The Time Machine).
In 1914, just before the start of World War I, Einstein settled in Berlin as professor at the local university and became a member of the Prussian Academy of Sciences. He took Prussian citizenship. His pacifism and Jewish origins irked German nationalists. After he became world-famous, nationalistic hatred of him grew and for the first time he was the subject of an organized campaign to discredit his theories. From 1914 to 1933, he served as director of the Kaiser Wilhelm Institute for Physics in Berlin. He also held the position of extraordinary professor at the University of Leiden from 1920 until 1946, where he regularly gave guest lectures.
In 1917, Einstein published "On the Quantum Mechanics of Radiation" ("Zur Quantenmechanik der Strahlung", Physkalische Zeitschrift 18, 121-128). This article introduced the concept of stimulated emission, the physical principle that allows light amplification in the laser. He also published a paper that year that used the general theory of relativity to model the behavior of the entire universe, setting the stage for modern cosmology. In this work he created his self-described "worst blunder", the cosmological constant.
On May 14, 1904, Albert and Mileva's first son, Hans Albert Einstein, was born. Their second son, Eduard Einstein, was born on July 28, 1910. Hans Albert became a professor of hydraulic engineering at the University of California, Berkeley, having little interaction with his father, but sharing his love for sailing and music. Eduard, the younger brother, intended to practice as a Freudian analyst but was institutionalized for schizophrenia and died in an asylum. Einstein divorced Mileva on February 14, 1919, and married his cousin Elsa Löwenthal (born Einstein: Löwenthal was the surname of her first husband, Max) on June 2, 1919. Elsa was Albert's first cousin (maternally) and his second cousin (paternally). She was three years older than Albert, and had nursed him to health after he had suffered a partial nervous breakdown combined with a severe stomach ailment; there were no children from this marriage.
"Einstein theory triumphs," declared the New York Times on November 10, 1919.
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"Einstein theory triumphs," declared the New York Times on November 10, 1919.
General relativity
In November 1915, Einstein presented a series of lectures before the Prussian Academy of Sciences in which he described his theory of gravity, known as general relativity. The final lecture ended with his introduction of an equation that replaced Newton's law of gravity, the Field Equation.[12] This theory considered all observers to be equivalent, not only those moving at a uniform speed. In general relativity, gravity is no longer a force (as it is in Newton's law of gravity) but is a consequence of the curvature of space-time.
In 1919, predictions made using the theory were confirmed by Arthur Eddington's measurements (during a solar eclipse), of how much the light emanating from a star was bent by the Sun's gravity when it passed close to the Sun, an effect called gravitational lensing. The observations were carried out on May 29, 1919, at two locations, one in Sobral, Ceará, Brazil, and another in the island of Principe, in the west coast of Africa. On November 7, The Times reported the confirmation, cementing Einstein's fame.
Many scientists were still unconvinced for various reasons ranging from disagreement with Einstein's interpretation of the experiments, to a belief that an absolute frame of reference was necessary. In Einstein's view, many of them simply could not understand the mathematics involved[citation needed]. Einstein's public fame which followed the 1919 article created resentment[citation needed] among these scientists some of which lasted well into the 1930s.
On March 30, 1921, Einstein went to New York to give a lecture on his new Theory of Relativity, the same year he was awarded the Nobel Prize. Though he is now most famous for his work on relativity, it was for his earlier work on the photoelectric effect that he was given the Prize, as his work on general relativity was still disputed. The Nobel committee decided that citing his less-contested theory in the Prize would gain more acceptance from the scientific community.
The "Copenhagen" interpretation
Einstein and Niels Bohr sparred over quantum theory during the 1920s. Photo taken by Paul Ehrenfest during their visit to Leiden in December 1925
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Einstein and Niels Bohr sparred over quantum theory during the 1920s. Photo taken by Paul Ehrenfest during their visit to Leiden in December 1925
Einstein postulated that light can be described not only as a wave with no kinetic energy, but also as massless discrete packets of energy called quanta with measurable kinetic energy (now known as photons). In 1909 Einstein presented his first paper on the quantification of light to a gathering of physicists and told them that they must find some way to understand waves and particles together.
In the mid-1920s, as the original quantum theory was replaced with a new theory of quantum mechanics, Einstein balked at the Copenhagen interpretation of the new equations either because it settled for a probabilistic, non-visualizable account of physical behaviour, or because it described matter as being in necessarily contradictory states. However, Einstein agreed that the theory was the best available[citation needed], but he looked for a more "complete" explanation, i.e., either more deterministic or one that could more fundamentally explain the reason for probabilities in a logical way. He could not abandon the belief that physics described the laws that govern "real things", nor could he abandon the belief that there are no explanations that contain contradictions, which had driven him to his successes explaining photons, relativity, atoms, and gravity.
In a 1926 letter to Max Born, Einstein made a remark that is now famous:
Quantum mechanics is certainly imposing. But an inner voice tells me it is not yet the real thing. The theory says a lot, but does not really bring us any closer to the secret of the Old One. I, at any rate, am convinced that He does not throw dice.
To this, Bohr, who sparred with Einstein on quantum theory, retorted, "Stop telling God what He must do!" The Bohr-Einstein debates on foundational aspects of quantum mechanics happened during the Solvay Conferences.
Einstein was not rejecting probabilistic theories per se. Einstein himself was a great statistician[13], using statistical analysis in his works on Brownian motion and photoelectricity and in papers published before the miraculous year 1905; Einstein had even discovered Gibbs ensembles. He believed, however, that at the core reality behaved deterministically. Many physicists argue that experimental evidence contradicting this belief was found much later with the discovery of Bell's Theorem and Bell's inequality.
Bose-Einstein statistics
In 1924, Einstein received a short paper from a young Indian physicist named Satyendra Nath Bose describing light as a gas of photons and asking for Einstein's assistance in publication. Einstein realized that the same statistics could be applied to atoms, and published an article in German (then the lingua franca of physics) which described Bose's model and explained its implications. Bose-Einstein statistics now describe any assembly of these indistinguishable particles known as bosons. The Bose-Einstein condensate phenomenon was predicted in the 1920s by Bose and Einstein, based on Bose's work on the statistical mechanics of photons, which was then formalized and generalized by Einstein. The first such condensate was produced by Eric Cornell and Carl Wieman in 1995 at the University of Colorado at Boulder. Einstein's original sketches on this theory were recovered in August 2005 in the library of Leiden University.[14]
Einstein also assisted Erwin Schrödinger in the development of the quantum Boltzmann distribution, a mixed classical and quantum mechanical gas model although he realized that this was less significant than the Bose-Einstein model and declined to have his name included on the paper.
The Einstein refrigerator
Einstein and Szilárd's patent diagram for the Einstein Refrigerator.
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Einstein and Szilárd's patent diagram for the Einstein Refrigerator.
Einstein and former student Leó Szilárd co-invented a unique type of refrigerator (usually called the Einstein refrigerator) in 1926.[15] On November 11, 1930, U.S. Patent 1,781,541 was awarded to Albert Einstein and Leó Szilárd. The patent covered a thermodynamic refrigeration cycle providing cooling with no moving parts, at a constant pressure, with only heat as an input. The refrigeration cycle used ammonia, butane, and water.
World War II
When Adolf Hitler came to power in January 1933, Einstein was a guest professor at Princeton University, a position which he took in December 1932, after an invitation from the American educator, Abraham Flexner. In 1933, the Nazis passed "The Law of the Restoration of the Civil Service" which forced all Jewish university professors out of their jobs, and throughout the 1930s a campaign to label Einstein's work as "Jewish physics"—in contrast with "German" or "Aryan physics"—was led by Nobel laureates Philipp Lenard and Johannes Stark. With the assistance of the SS, the Deutsche Physik supporters worked to publish pamphlets and textbooks denigrating Einstein's theories and attempted to politically blacklist German physicists who taught them, notably Werner Heisenberg. Einstein renounced his Prussian citizenship and stayed in the United States, where he was given permanent residency. He accepted a position at the newly founded Institute for Advanced Study in Princeton Township, New Jersey. He became an American citizen in 1940, though he still retained Swiss citizenship.
In 1939, under the encouragement of Szilárd, Einstein sent a letter to President Franklin Delano Roosevelt urging the study of nuclear fission for military purposes, under fears that the Nazi government would be first to develop atomic weapons. Roosevelt started a small investigation into the matter which eventually became the massive Manhattan Project. Einstein himself did not work on the bomb project, however.
The International Rescue Committee was founded in 1933 at the request of Albert Einstein to assist opponents of Adolf Hitler.
For more information, see the section below on Einstein's political views.
Institute for Advanced Study
His work at the Institute for Advanced Study focused on the unification of the laws of physics, which he referred to as the Unified Field Theory. He attempted to construct a model which would describe all of the fundamental forces as different manifestations of a single force. This took the form of an attempt to unify the gravitational and electrodynamic forces, but was hindered because the strong and weak nuclear forces were not understood independently until around 1970, fifteen years after Einstein's death. Einstein's goal of unifying the laws of physics under a single model survives in the current drive for unification of the forces.
Generalized theory
Einstein began to form a generalized theory of gravitation with the Universal Law of Gravitation and the electromagnetic force in his first attempt to demonstrate the unification and simplification of the fundamental forces. In 1950 he described his work in a Scientific American article. Einstein was guided by a belief in a single statistical measure of variance for the entire set of physical laws. Einstein's Generalized Theory of Gravitation is a universal mathematical approach to field theory. He investigated reducing the different phenomena by the process of logic to something already known or evident.
Einstein postulated a four-dimensional space-time continuum expressed in axioms represented by five component vectors. Particles appear in his research as a limited region in space in which the field strength or the energy density are particularly high. Einstein treated subatomic particles as objects embedded in the unified field, influencing it and existing as an essential constituent of the unified field but not of it. Einstein also investigated a natural generalization of symmetrical tensor fields, treating the combination of two parts of the field as being a natural procedure of the total field and not the symmetrical and antisymmetrical parts separately. He researched a way to delineate the equations and systems to be derived from a variational principle.
Einstein became increasingly isolated in his research on a generalized theory of gravitation and was ultimately unsuccessful in his attempts. In particular, his pursuit of a unification of the fundamental forces ignored work in the physics community at large, most notably the discovery of the strong nuclear force and weak nuclear force.
Einstein's two-story house, white frame with front porch in Greek revival style, in Princeton (112 Mercer Street).
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Einstein's two-story house, white frame with front porch in Greek revival style, in Princeton (112 Mercer Street).
Final years
In 1948, Einstein served on the original committee which resulted in the founding of Brandeis University. A portrait of Einstein was taken by Yousuf Karsh on February 11 of that same year. In 1952, the Israeli government proposed to Einstein that he take the post of second president. He declined the offer, and is believed to be the only United States citizen ever to have been offered a position as a foreign head of state. On March 30, 1953, Einstein released a revised unified field theory.
He died at 1:15 AM[16] in Princeton hospital[17] in Princeton, New Jersey, on April 18, 1955 at the age of 76 from internal bleeding, which was caused by the rupture of an aortic aneurism, leaving the Generalized Theory of Gravitation unsolved. The only person present at his deathbed, a hospital nurse, said that just before his death he mumbled several words in German that she did not understand. He was cremated without ceremony on the same day he died at Trenton, New Jersey, in accordance with his wishes. His ashes were scattered at an undisclosed location.
An autopsy was performed on Einstein by Dr. Thomas Stoltz Harvey, who removed and preserved his brain. Harvey found nothing unusual with his brain, but in 1999 further analysis by a team at McMaster University revealed that his parietal operculum region was missing and, to compensate, his inferior parietal lobe was 15% wider than normal.[18] The inferior parietal region is responsible for mathematical thought, visuospatial cognition, and imagery of movement. Einstein's brain also contained 73% more glial cells than the average brain.
Personality
Religious views
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Although he was raised Jewish, Einstein was not a believer in the religious aspects of Judaism, though he still considered himself an ethnic Jew. He did not believe in a personal god, but rather in a set of deterministic physical laws governing the universe, and possibly in a creator god that set the universe in motion. In 1954 he stated this belief in a personal letter: "It was, of course, a lie what you read about my religious convictions, a lie which is being systematically repeated. I do not believe in a personal God and I have never denied this but have expressed it clearly. If something is in me which can be called religious, then it is the unbounded admiration for the structure of the world so far as our science can reveal it."
He also said (in an essay reprinted in Living Philosophies, vol. 13, 1931): "A knowledge of the existence of something we cannot penetrate, our perceptions of the profoundest reason and the most radiant beauty, which only in their most primitive forms are accessible to our minds—it is this knowledge and this emotion that constitute true religiosity; in this sense, and this [sense] alone, I am a deeply religious man."
The following is a response made to Rabbi Herbert Goldstein of the International Synagogue in New York which read, "I believe in Spinoza's God who reveals himself in the orderly harmony of what exists, not in a God who concerns himself with the fates and actions of human beings." After being pressed on his religious views by Martin Buber, Einstein exclaimed, "What we [physicists] strive for is just to draw His lines after Him." He also quoted once "When I read the Bhagavad Gita, I ask myself how God created the universe. Everything else seems superfluous." Summarizing his religious beliefs, he once said: "My religion consists of a humble admiration of the illimitable superior spirit who reveals himself in the slight details we are able to perceive with our frail and feeble mind."
Einstein was an Honorary Associate of the Rationalist Press Association beginning in 1934, and was an admirer of Ethical Culture.[19]
Political views
Einstein and Solomon Mikhoels, the chairman of the Soviet Jewish Anti-Fascist Committee, in 1943.
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Einstein and Solomon Mikhoels, the chairman of the Soviet Jewish Anti-Fascist Committee, in 1943.
Einstein considered himself a pacifist[20] and humanitarian,[21] and in later years, a committed democratic socialist. He once said, "I believe Gandhi's views were the most enlightened of all the political men of our time. We should strive to do things in his spirit: not to use violence for fighting for our cause, but by non-participation of anything you believe is evil." Einstein's views on other issues, including socialism, McCarthyism and racism, were controversial. In a 1949 article entitled "Why Socialism?",[22] Albert Einstein described the "predatory phase of human development", exemplified by a chaotic capitalist society, as a source of evil to be overcome. He disapproved of the totalitarian regimes in the Soviet Union and elsewhere, and argued in favor of a democratic socialist system which would combine a planned economy with a deep respect for human rights. Einstein was a co-founder of the liberal German Democratic Party and a member of the AFL-CIO-affiliated union the American Federation of Teachers.
Einstein was very much involved in the Civil Rights movement. He was a close friend of Paul Robeson for over 20 years. Einstein was a member of several civil rights groups (including the Princeton chapter of the NAACP) many of which were headed by Paul Robeson. He served as co-chair with Paul Robeson of the American Crusade to End Lynching. When W.E.B. DuBois was frivolously charged with being a communist spy during the McCarthy era while he was in his 80s, Einstein volunteered as a character witness in the case. The case was dismissed shortly after it was announced that he was to appear in that capacity. Einstein was quoted as saying that "racism is America's greatest disease".
The U.S. FBI kept a 1,427 page file on his activities and recommended that he be barred from immigrating to the United States under the Alien Exclusion Act, alleging that Einstein "believes in, advises, advocates, or teaches a doctrine which, in a legal sense, as held by the courts in other cases, 'would allow anarchy to stalk in unmolested' and result in 'government in name only'", among other charges. They also alleged that Einstein "was a member, sponsor, or affiliated with thirty-four communist fronts between 1937-1954" and "also served as honorary chairman for three communist organizations".[23] It should be noted that many of the documents in the file were submitted to the FBI, mainly by civilian political groups, and not actually written by FBI officials.
In 1939, Einstein signed a letter, written by Leó Szilárd, to President Roosevelt arguing that the United States should start funding research into the development of nuclear weapons.
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In 1939, Einstein signed a letter, written by Leó Szilárd, to President Roosevelt arguing that the United States should start funding research into the development of nuclear weapons.
Einstein opposed tyrannical forms of government, and for this reason (and his Jewish background), opposed the Nazi regime and fled Germany shortly after it came to power. At the same time, Einstein's anarchist nephew Carl Einstein, who shared many of his views, was fighting the fascists in the Spanish Civil War. Einstein initially favored construction of the atomic bomb, in order to ensure that Hitler did not do so first, and even sent a letter[24] to President Roosevelt (dated August 2, 1939, before World War II broke out, and probably written by Leó Szilárd) encouraging him to initiate a program to create a nuclear weapon. Roosevelt responded to this by setting up a committee for the investigation of using uranium as a weapon, which in a few years was superseded by the Manhattan Project.
After the war, though, Einstein lobbied for nuclear disarmament and a world government: "I do not know how the Third World War will be fought, but I can tell you what they will use in the Fourth—rocks!"[25]
A 5 Israeli pound note from 1968 with the portrait of Einstein.
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A 5 Israeli pound note from 1968 with the portrait of Einstein.
Einstein was a supporter of Zionism. He supported Jewish settlement in Israel and was active in the establishment of the Hebrew University in Jerusalem, which published (1930) a volume titled About Zionism: Speeches and Lectures by Professor Albert Einstein, and to which Einstein bequeathed his papers. However, he opposed nationalism and expressed skepticism about whether a Jewish nation-state was the best solution. In later life, in 1952, he was offered the post of second president of the newly created state of Israel, but declined the offer, claiming that he lacked the necessary people skills. Einstein was disturbed by the violence taking place in Israel after the Second World War and expressed that he was disappointed with the Jewish Ultra-Nationalist Organization (Irgun and the Stern Gang). Nonetheless, Einstein remained deeply committed to the welfare of the Jewish state and the Jewish people for the rest of his life.
Albert Einstein was closely associated with plans for what the press called "a Jewish-sponsored non-quota university," from August 19, 1946, with the announcement of the formation of the Albert Einstein Foundation for Higher Learning, Inc. until June 22, 1947, when he withdrew support and barred the use of his name by the foundation. The university opened in 1948 as Brandeis University.
Einstein, along with Albert Schweitzer and Bertrand Russell, fought against nuclear tests and bombs. As his last public act, and just days before his death, he signed the Russell-Einstein Manifesto, which led to the Pugwash Conferences on Science and World Affairs. His letter to Russell read:
Dear Bertrand Russell,
Thank you for your letter of April 5. I am gladly willing to sign your excellent statement. I also agree with your choice of the prospective signers.
With kind regards, A. Einstein
Citizenship
Einstein was born a German citizen. At the age of seventeen, on January 28, 1896, he was released from his German citizenship by his own request and with the approval of his father. He remained stateless for five years. On February 21, 1901 he gained Swiss citizenship, which he never revoked. Einstein obtained Prussian citizenship in April 1914 when he entered the Prussian civil service, but due to the political situation and the persecution of Jewish people in Nazi Germany, he left civil service in March 1933 and thus also lost the Prussian citizenship. On October 1, 1940, Einstein became an American citizen. He remained both an American and a Swiss citizen until his death on April 18, 1955.
Popularity and cultural impact
Einstein's popularity has led to widespread use of Einstein in advertising and merchandising, including the registration of "Albert Einstein" as a trademark.
The photo (detail from the original) of this humorous expression was taken during Einstein's birthday on March 14, 1951, UPI.
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The photo (detail from the original) of this humorous expression was taken during Einstein's birthday on March 14, 1951, UPI.
Entertainment
Albert Einstein has become the subject of a number of novels, films and plays, including Jean-Claude Carrier's 2005 French novel, Einstein S'il Vous Plait (Please Mr Einstein), Nicolas Roeg's film Insignificance, Fred Schepisi's film I.Q., Alan Lightman's novel Einstein's Dreams, and Steve Martin's comedic play "Picasso at the Lapin Agile". He was the subject of Philip Glass's groundbreaking 1976 opera Einstein on the Beach. His humorous side is also the subject of Ed Metzger's one-man play Albert Einstein: The Practical Bohemian.
He is often used as a model for depictions of mad scientists and absent-minded professors in works of fiction; his own character and distinctive hairstyle suggest eccentricity, or even lunacy and are widely copied or exaggerated. TIME magazine writer Frederic Golden referred to Einstein as "a cartoonist's dream come true."[26]
On Einstein's 72nd birthday in 1951, the UPI photographer Arthur Sasse was trying to coax him into smiling for the camera. Having done this for the photographer many times that day, Einstein stuck out his tongue instead.[27] The image has become an icon in pop culture for its contrast of the genius scientist displaying a moment of levity. Yahoo Serious, an Australian film maker, used the photo as an inspiration for the intentionally anachronistic movie Young Einstein.
Licensing
Einstein bequeathed his estate, as well as the use of his image (see personality rights), to the Hebrew University of Jerusalem.[28] Einstein actively supported the university during his life and this support continues with the royalties received from licensing activities. The Roger Richman Agency licences the commercial use of the name "Albert Einstein" and associated imagery and likenesses of Einstein, as agent for the Hebrew University of Jerusalem. As head licensee the agency can control commercial usage of Einstein's name which does not comply with certain standards (e.g., when Einstein's name is used as a trademark, the ⢠symbol must be used).[29] As of May, 2005, the Roger Richman Agency was acquired by Corbis.
Honors
Einstein on the cover of TIME as Person of the Century.
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Einstein on the cover of TIME as Person of the Century.
Einstein has received a number of posthumous honors. For example:
* In 1992, he was ranked #10 on Michael H. Hart's list of the most influential figures in history.
* In 1999, he was named Person of the Century by TIME magazine.
* Also in 1999, Gallup recorded him as the fourth most admired person of the 20th century.
* The year 2005 was designated as the "World Year of Physics" by UNESCO for its coinciding with the centennial of the "Annus Mirabilis" papers, celebrated at the Einstein Symposium.
Among Einstein's many namesakes are:
* a unit used in photochemistry, the einstein.
* the chemical element 99, einsteinium.
* the asteroid 2001 Einstein.
* the Albert Einstein Award.
* the Albert Einstein Peace Prize.
* the Albert Einstein College of Medicine of Yeshiva University[30] was named after Einstein upon his death in 1955.
* the Albert Einstein Medical Center[31] in Philadelphia, PA.
Works by Albert Einstein
Clay portrait of Einstein by the sculptor Moshe Ziffer.
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Clay portrait of Einstein by the sculptor Moshe Ziffer.
* The Investigation of the State of Aether in Magnetic Fields, 1895. (PDF format)
* "On the Electrodynamics of Moving Bodies" Annalen der Physik. June 30, 1905
* "Does the Inertia of a Body Depend Upon Its Energy Content?" Annalen der Physik. September 27, 1905.
* "Inaugural Lecture to the Prussian Academy of Sciences." 1914. (PDF format)
* "The Foundation of the General Theory of Relativity ." Annalen der Physik, 49. 1916.
* "Aether and the theory of relativity" (1920) translated in Sidelights on relativity (Dover, NY, 1983), pp.1-24 (ed. was an address delivered on May 5th, 1920, in the University of Leyden; classes general relativity as a form of (nonparticulate) aether theory)
* Relativity: The Special and General Theory. 1920, revised edition, 1954, ISBN 0517884410 (Project Gutenberg E-text) Einstein Reference Archive (HTML and PDF format)
* "Fundamental ideas and problems of the theory of relativity." 1921 Nobel Lecture in Physics. Nordic Assembly of Naturalists at Gothenburg, 11 July 1923.
* Einstein A., Lorenz H. A., Weyl H. and Minkowski H. The Principle of Relativity. Trans. W. Perrett and G. B. Jeffery. New York: Dover Publications, 1923.
* The World As I See It, 1934, ISBN 080650711X
* Einstein, Albert; Leopold Infeld (1938). The Evolution of Physics. ISBN 0671201565.
* "Why Socialism?" Monthly Review. May 1949 (original manuscript).
* On the Generalized Theory of Gravitation. April, 1950.
* Ideas & Opinions ISBN 0517003937 (writings from 1919 – 1954, containing material from The World As I See It (1934) and Out of My Later Years (1950) and Mein Weltbild (Zurich 1953))
Notes
1. ^ The Exceptional Brain of Albert Einstein.
2. ^ Muir, Hazel. "Einstein and Newton showed signs of autism", New Scientist, 2003-04-30. URL accessed on 2006-01-04. See also People speculated to have been autistic.
3. ^ Highfield.
4. ^ Ibid.
5. ^ PBS - Einstein's Wife - Families & Allies
6. ^ The institute / IPI / Federal Institute of Intellectual Property. URL accessed on November 21, 2005.
7. ^ Galison p. 368.
8. ^ Arguing about Einstein's wife (April 2004) - Physics World - PhysicsWeb (See above). URL accessed on November 21, 2005.
9. ^ Galison p. 370.
10. ^ Smoluchowski worked on Brownian motion at the same time as Einstein. He published in 1906 the same formula as Einstein (arrived at by a different method), except for a mistaken factor. See Paul Langevin’s 1908 paper ‘‘On the Theory of Brownian Motion’’. URL accessed on March 17, 2006. for details.
11. ^ PBS - NOVA - Einstein's Big Idea - "Genius Among Geniuses", by Thomas Levenson
12. ^ David Hilbert actually published the field equation in an article that was dated five days before Einstein's lecture. But according to Thorne (pp. 117–118), Hilbert had discovered the correct derivation after "mulling over things he had learned" on a recent visit by Einstein to Gottingen. Thorne goes on to say "Quite naturally, and in accord with Hilbert's view of things, the resulting law of warpage was quickly given the name the Einstein field equation rather than being named after Hilbert. .... In fact without Einstein the general relativistic laws of gravity might not have been discovered until several decades later." See Relativity priority disputes for more details.
13. ^ The Economist - Miraculous visions - 100 years of Einstein
14. ^ Einstein archive at the Instituut-Lorentz. URL accessed on November 21, 2005.
15. ^ Einstein's Refrigerator. URL accessed on November 21, 2005.
16. ^ Neuroscience for Kids - "What Became of Albert Einstein's Brain?"
17. ^ Historical Society of Princeton - "Einstein in Princeton"
18. ^ BBC News : Sci/Tech : Why size mattered for Einstein. URL accessed on November 21, 2005.
19. ^ The Humanist Way: An Introduction to Ethical Humanist Religion. URL accessed on February 25, 2006.
20. ^ Einstein : American Museum of Natural History. URL accessed on November 21, 2005.
21. ^ Ibid.
22. ^ Einstein, Albert, "Why Socialism?", Monthly Review, May 1949. URL accessed on 2006-01-16.
23. ^ Federal Bureau of Investigation - Freedom of Information Privacy Act. URL accessed on November 21, 2005.
24. ^ Einstein's Letters to Roosevelt. URL accessed on November 21, 2005.
25. ^ Calaprice p. 173. Other versions of the quote exist.
26. ^ TIME 100: Person of the Century - Albert Einstein
27. ^ mental_floss library. URL accessed on November 21, 2005.
28. ^ http://aip.org/history/esva/einuse.htm. URL accessed on November 21, 2005.
29. ^ ALBRT EINSTEIN BRAND LOGO. URL accessed on November 21, 2005.
30. ^ Albert Einstein College of Medicine of Yeshiva University. URL accessed on November 21, 2005.
31. ^ Albert Einstein Medical Center. URL accessed on November 21, 2005.
References
* American Institute of Physics (1996). Einstein-Image and Impact. URL accessed on 2006-02-25.
* Bodanis, David (June 2005). Einstein the Nobody. URL accessed on 2006-02-25.
* Bolles, Edmund Blair (April 2004). Einstein Defiant: Genius versus Genius in the Quantum Revolution. National Academy Press. ISBN 0309089980.
* Butcher, Sandra Ionno (March 2005). The Origins of the Russell-Einstein Manifesto.
* Calaprice, Alice (2005). The new quotable Einstein, p. 173, Princeton University Press. ISBN 0-691-12075-7.
* Clark, Ronald W. (1971). Einstein: The Life and Times. Avon. ISBN 0-380-44123-3.
* Galison, Peter (Winter 2000). "Einstein's Clocks: The Question of Time". Critical Inquiry 26 (2): 355–389.
The Albert Einstein Memorial, Washington DC at the National Academy of Sciences in Washington, DC.
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The Albert Einstein Memorial, Washington DC at the National Academy of Sciences in Washington, DC.
* Golden, Frederic (2000-01-03). Person of the Century: Albert Einstein. URL accessed on 2006-02-25.
* Highfield, Roger; Carter, Paul (1993). The Private Lives of Albert Einstein. Faber and Faber, London, Boston. ISBN 0-571-17170-2 (US ed. ISBN 0312110472).
* Holt, Jim (February 2005). Time Bandits. URL accessed on 2006-03-18.
* Levenson, Thomas (June 2005). Genius Among Geniuses. URL accessed on 2006-02-25.
* Dan Levitt (Producer). (2003) Brilliant Minds: Secrets of the Cosmos [TV-Series]. Boston: Veriscope Pictures.
* MartÃnez, Alberto A. (April 2004). Arguing about Einstein's wife. Physics World. URL accessed on 2005-11-23.
* Pais, Abraham (1982). Subtle is the Lord. The Science and the Life of Albert Einstein. Oxford: Oxford University Press. ISBN 0-19-520438-7. This is the definitive scientific biography.
* Pais, Abraham (1994). Einstein Lived Here. Oxford: Oxford University Press. ISBN 0198539940. This book discusses non-science aspects of Einstein; marriages, affairs, illegitimate daughter, public image.
* Pickover, Clifford A. (2005-09-09). Sex, Drugs, Einstein, and Elves: Sushi, Psychedelics, Parallel Universes, and the Quest for Transcendence. Smart Publications. ISBN 1890572179. Discusses the final disposition of Einstein's brain, hair, and eyes as well as the importance of Einstein and his work in the shaping of science and culture.
* Smith, Peter D. (2000). Einstein (Life & Times Series). Haus Publishing. ISBN 1904341152.
* Stachel, John (1998-03-30). Einstein's Miraculous Year: Five Papers That Changed the Face of Physics. Princeton University Press. ISBN 0691059381.
* Stern, Fritz (1999). 'Einstein's German World'. Princeton, N.J, Princeton University Press,. ISBN 069105939X.
* Thorne, Kip (January 1, 1995). Black Holes and Time Warps: Einstein's Outrageous Legacy, Reprint edition, W. W. Norton & Company. ISBN 0393312763.
See also
* History of special relativity
* History of general relativity
* EPR paradox
External links
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* Works by Albert Einstein at Project Gutenberg
* Nobel Prize in Physics: The Nobel Prize in Physics 1921—Albert Einstein
* Annalen der Physik: Works by Einstein digitalized at The University of Applied Sciences in Jena (Fachhochschule Jena)
* S. Morgan Friedman, "Albert Einstein Online"—Comprehensive listing of online resources about Einstein.
* American Institute of Physics: Albert Einstein includes his life and work, audio files and full site available as a downloadable PDF for classroom use
* TIME magazine 100: Albert Einstein
* Albert Einstein Quotes - Hundreds of famous Albert Einstein quotes
* Audio excerpts of famous speeches: E=mc² and relativity, Impossibility of atomic energy, arms race (From Time magazine archives)
* John J. O'Connor and Edmund F. Robertson. Albert Einstein at the MacTutor History of Mathematics archive.
* Leiden University: Einstein Archive
* PBS NOVA—Einstein
* PBS Einstein's wife: Mileva Maric
* FBI: FBI files—investigation regarding affiliation with the Communist Party
* University of Frankfurt: Einstein family pictures
* Salon.com: Did Einstein cheat?
* Official Einstein Archives Online
* Einstein@Home: A public distributed computing project to search for the gravitational waves predicted by Einstein's Theory of General Relativity
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Persondata
NAME Einstein, Albert
ALTERNATIVE NAMES
SHORT DESCRIPTION Physicist
DATE OF BIRTH March 14, 1879
PLACE OF BIRTH Ulm, Baden-Württemberg, German Empire
DATE OF DEATH April 18, 1955
PLACE OF DEATH Princeton, New Jersey
Retrieved from "http://en.wikipedia.org/wiki/Albert_Einstein"
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