albert einstein best biography

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Nonfiction Books » Science » Lives of Scientists » Albert Einstein

The best books on albert einstein, recommended by andrew robinson.

Einstein: A Hundred Years of Relativity by Andrew Robinson

Andrew Robinson , author of a biography of Albert Einstein, picks and talks through the five best Albert Einstein books and discusses the life and times of the 'unique genius.'

Interview by Jo Marchant

Albert Einstein: A Biography by Albrecht Folsing

Einstein 1905: The Standard of Greatness by John S. Rigden

The Born-Einstein Letters,1916-1955 by Albert Einstein and Max Born

The Einstein File by Fred Jerome

Einstein on Politics by David Rowe and Robert Schulmann

1 Albert Einstein: A Biography by Albrecht Folsing

2 einstein 1905: the standard of greatness by john s. rigden, 3 the born-einstein letters,1916-1955 by albert einstein and max born, 4 the einstein file by fred jerome, 5 einstein on politics by david rowe and robert schulmann.

B efore we start talking about the books, can you give us a brief outline of the significance of Einstein and his work? You’re the author of a biography of Albert Einstein called Einstein: A Hundred Years of Relativity that was republished this year to coincide with the centenary of the theory of general relativity. 

There must be literally hundreds of Albert Einstein books. Was it daunting for you to tackle someone of so much significance and interest?

And out of those 1700 Albert Einstein books, we’ve asked you to pick just five! Your first choice is Albert Einstein: A Biography by Albrecht Fölsing published in 1997. What makes this biography so good?

It’s comprehensive, for a start. It is a very big book — one of the biggest on Einstein’s life. Fölsing is a physicist by training so he is able to bring clear explanations of the physics into the life. He’s extremely good at quoting Einstein’s writings and comments in an illuminating way. What makes the book unique is that the author is German, when most biographers come from the English-speaking world. He is able to present Einstein’s ambivalence towards Germany both in physics and in politics and bring that to life in quite a subtle way. To have a German writing on Einstein is particularly interesting.

Just to illuminate that, could you briefly sketch the arc of Einstein’s life for us?

He was born in Germany in 1879 and grew up there until he was 16 when he went to join his parents in Italy. He was unhappy with the German educational system: He was not a very willing student in an authoritarian education system. In fact, his whole life was a battle against authority in different forms. Later in life he said—and it’s one of my favourite quotes from him —“To punish me for my contempt for authority, fate has made me an authority myself.” Finally, he was educated in Switzerland and that’s where he really belongs. He kept Swiss nationality throughout his life, until he went to the United States and became an American citizen when he was quite old, in 1940. So, he is not German by nationality, though he was born there.

“He was not very successful in his relationships with his university lecturers.”

The Swiss atmosphere was very productive for his physics, which started in about 1905 with special relativity and some other key work. He stayed in Germany until 1933, when the Nazis came to power, and he had to get out. He spent a little time in Europe, including in Britain in the early 1930s. Finally, he left Europe forever—never to return—in 1933. He lived in Princeton, New Jersey, at the Institute for Advanced Study, a sort of ivory tower. That suited him very well. He could just think and didn’t have to do any teaching. He lived in Princeton right up to his death in 1955. In that period he wasn’t so successful as a physicist — but became much more involved in political causes like the atomic bomb, the hydrogen bomb, pacifism, and Zionism. As a Jew, he was very interested in the founding of Israel and took an active role in that.

One of the most intriguing things about his life story is the fact that when he did his first really significant revolutionary work in physics, he wasn’t working as a physicist was he? He was working in a patent office and didn’t really have contact with other top physicists at the time.

That’s right. That’s always going to be one of the most intriguing aspects of Einstein and his life. He was a patent clerk in Bern and worked in the patent office for a number of years from 1902. After 1909/1910, he finally takes a position as a professional, academic physicist and moves to various institutions around Europe. Probably his most productive years are those years when he was a patent clerk. Having said that, he came up with general relativity when he was a professor of physics in Berlin. Also, at the patent office, although he was not known in the academic world, he had some contact with academic physicists like Max Planck who was a key supporter of relativity. But we should remember that he was always involved with those two worlds.

Are there any clues as to where his revelations came from? Did his unconventional background play a part in that?

Yes. It’s difficult to pin that down but from an early age—from his teens onwards—he was a great believer in self-education. Like many geniuses, he was not particularly successful in his university training. He attended a famous institution—in Zurich—but was always rebelling against his academic education, constantly reading the latest research on his own. He was not working with other people at all. He was not very successful in his relationships with his university lecturers. He was a rebel and, because he was so passionate about physics, his best ideas really came from his own reading and thinking. From his earliest days as a teenager he was a believer in what he called ‘thought experiments.’ He wasn’t involved with laboratories at all, these experiments were all in his head. One of the most famous ones concerns chasing a light ray. When he was 16 or 17, he imagined whether you could catch up with a light ray and what that would mean.

Did that help him to see things that other physicists didn’t, because he was free to think in his own way?

Let’s dig a little bit more into the science with your next choice which is Einstein 1905: The Standard of Greatness by John Rigden from 2005. This Albert Einstein book is about the so-called ‘miraculous’ year. Can you tell us a bit about that?

Einstein published five papers that year. All of them are considered of great value. The paper that Einstein regarded as the most revolutionary of his work in 1905 was actually about quantum theory. There was another paper about Brownian motion. He showed that the phenomenon of Brownian motion—which had been known for almost 100 years—was actually due to atoms bombarding particles. This was considered proof of the atomic theory of matter by his fellow physicists — the first time that atoms had really been proved to exist. Then, the last of the five papers concerned probably the most famous equation in science: E=mc2. This came out of his first paper on relativity and was published at the end of 1905. As everyone knows, E=mc2 is the basis for what happens with nuclear energy and the atomic bomb later in the century.

This is the principle that energy and mass are two aspects of the same thing. So, if you split apart mass, you’re going to release huge amounts of energy which is what drives nuclear energy and the atomic bomb.

Yes, and c is the speed of light. So, with E=mc2, you can immediately see that the amount of energy is enormous from a small amount of matter because c is such a large number. So, E=mc2 implies a very large amount of energy from a small amount of matter through the process of atomic fission and fusion which Einstein didn’t know about in 1905. Fission was not discovered until later — just before the Second World War , in fact.

Let’s talk about the theory of special relativity, then, which was one of the papers in this miraculous year. Can you talk us through that theory?

It’s a response to Newton’s idea of absolute time and absolute space which Einstein rejected after thinking about it deeply. John Rigden puts it quite well in his book. He says, “A world with absolute space existing apart from absolute time would turn into a world where space and time are joined”. This theory of relativity led to the concept of space-time which is a key thought in general relativity. It’s not easy to explain relativity in a few words, but it rejects absolute time and space, leading to the idea that all motion had to be defined relative to a coordinate system — and that different coordinate systems had to be compared. General relativity was much more comprehensive, it included gravitation and acceleration. In fact, Einstein’s great idea about general relativity was that gravitation and acceleration were equivalent and that we must build our idea of the universe on that thought, rather than regarding them as independent, as Newton did.

General relativity is what we often see illustrated with a rubber sheet with marbles on it distorting the sheet. Is that right?

Yes, the curvature of the rubber sheet is a way of expressing—not literally, it’s a symbol—the curvature of space-time. The experimental proof of general relativity came only later. Probably the most famous aspect of the experimental proof is the bending of a light-ray by the gravitational field of the sun. The light emitted by distant stars was observed to be bent by the gravitational field of the sun in 1919 during an astronomical expedition led by Sir Arthur Eddington, a British astronomer. After that expedition, physicists started to take general relativity much more seriously. There were other experimental proofs as well, but that was the beginning of the idea that general relativity was correct. Before that, it was unproven and Einstein asked astronomers to go looking for it. That’s what happened in 1919. Astronomers were able to back up his theory with observations.

So, after we had the proof of general relativity, how was science different? How did the universe look different? What are the implications of that for the way we see the world now?

The whole idea of the Big Bang has been explained, to a great extent, in terms of general relativity. This came much later than Einstein of course — he was dead by then. General relativity also explains the existence of black holes. Einstein didn’t think they existed, but, since the 1960s, experimental proofs have been found that they do. The whole structure of space and time which Newton imagined, an absolute coordinate system, has been abandoned in favour of a curved space-time formulation. That’s really the result of Einstein’s work.

Going back to the miraculous year of 1905, which is the focus of Rigden’s book. His achievements in so many papers in such a short period of time seems almost superhuman. But he was just human, right? Do we risk exaggerating his genius sometimes?

He was certainly very human and had many failings as well as an extraordinary scientific imagination. Scholars have looked closely at what Einstein was doing in the years up to 1905, there’s not enough evidence to be sure. There were a few letters to his wife, and he published a little bit. There is this feeling that it came out of the blue. It obviously didn’t. No genius works from a sudden eureka moment and it’s not like that, even with Einstein. The problem is that we don’t really know exactly what he was reading and how his thought process worked. What we do know is what he published in 1905 and that he was fascinated by contradictions in physics. He imagined chasing a light-ray in his mind and asked what a light-ray would look like if you caught up with it and came to the conclusion that it’s an impossible physical situation. That, according to Maxwell’s laws of electromagnetism, there was no such thing as catching a light-ray. From that, he concluded that light always moves at a constant speed — independent of the coordinate system you were using to measure it with. It didn’t matter how fast an observer moved, light would always move at a constant speed faster than the observer.

“Einstein’s great idea about general relativity was that gravitation and acceleration were equivalent and that we must build our idea of the universe on that thought.”

Another contradiction that fascinated him was to do with magnetism and electric charge. He imagined that if you had a stationary charge observed by a stationary observer, there would be no magnetic field which could be observed with a compass. But, if you kept the stationary charge and then the observer started to move, by Maxwell’s definition of electromagnetism, he/she would observe a magnetic field with a compass. So which was true? Was there a magnetic field or wasn’t there? He said that’s a contradiction, we have to resolve it. And he did resolve it, with his theory of relativity.

There’s often a temptation to move away from contradiction but it sounds like he just confronted it head-on.

Let’s talk about your next choice of Albert Einstein books which is the Born-Einstein Letters, 1916-1955 , which was republished in 2005. This is a collection of correspondence between Einstein and his friend, the German physicist, Max Born. What do they talk about in the letters?

It was a long friendship. It began with physics but developed into a relationship with many other overtones to do with politics, ethics, and the state of Germany during those years. Both of them won Nobel Prizes, so when we read them we’re exposed to a couple of very intelligent people writing about science. Throughout the letters, you get these human asides: It’s a very unique mixture of science and humanities. They disagreed frequently and they disagreed most famously about quantum theory. In one letter from Einstein to Born he says, ‘The old one does not play dice. I can’t accept the possibility of chance ruling the universe.’ And Born never agreed with that. Right to the end of the correspondence, they’re arguing about the role of probability in physics.

They’re also talking about the First World War and how they react to that and about Jewishness. They’re both Jewish but they have different attitudes to Jewishness. And they’re talking about the Nazi period, of course. During that time, Born escaped from Germany and went to Edinburgh and became a professor. Einstein had gone to the United States — so they didn’t meet. After 1933, they corresponded but they didn’t have any personal contact — which is good, as it means that their ideas are on paper rather than just spoken to each other. We learn a lot. Born edits the letters and has a lot of commentary where he responds after Einstein’s death. Einstein’s step-daughter wrote to him about his last few days in hospital and she said, ‘He left this world without sentimentality or regret.’ Born says, ‘we lost our dearest friend when he died.’ But ‘without sentimentality or regret’ is the keynote of the letters. Einstein can be quite inhuman. He doesn’t have normal human reactions to some things including, for instance, the death of his second wife. His family life was not particularly happy. He divorced his first wife and had a rather difficult relationship with his children. This comes into the book quite a lot because Born is a warmer personality than Einstein. The contrast is interesting.

You say he didn’t have normal human reactions to things. What kind of personality does come across then?

Let’s move on to your next choice of Albert Einstein book: The Einstein File by Fred Jerome, published in 2002. This is a book on an investigation of how the FBI, led by J. Edgar Hoover, spied on Einstein for 23 years. What happened exactly?

It started in the 1930s when Einstein moved to the United States. He had extremely mixed feelings about Russia and about communism . He had some sympathies for socialism but he wasn’t a communist. But the FBI and many right-wing Americans thought that he was. So, even after he became an American citizen in 1940, he was regarded with suspicion by them. He wrote a letter to President Roosevelt in 1939 advocating the building of an atomic bomb, along with some other physicists, which was taken seriously by the American government and Roosevelt. Eventually, the Manhattan Project got going, partly out of Einstein’s interest in the subject. Obviously other factors were involved as well, Einstein was not the only influence, but he was quite important. But even though he was involved in supporting this project, he was not allowed to have access to any secret documents. The army, who ran the Manhattan Project, did not give him security clearance. But it seems the FBI didn’t know that and when they started compiling their file in the 1940s, they assumed that Einstein could be a spy with access to secret information about the atomic bomb project and they acted accordingly.

“Long before many people had realised what a risk to world peace Nazi Germany posed, Einstein recognised it.”

J. Edgar Hoover was convinced he was a security risk and might be leaking information to the Russians. When the Klaus Fuchs spy case happened—around 1950—Hoover became even more convinced that Einstein was a risk. But what finally tipped the balance for Hoover was that Einstein gave a broadcast on television in 1950 where he openly told the whole of the United States that the hydrogen bomb, which President Truman had just announced as a project, could cause a poisoning of the atmosphere and would be a total disaster, that it shouldn’t be followed up. Hoover then became passionately convinced that Einstein’s every move should be tracked and that all political associations that he had should be put into this file. He was hoping to prove that Einstein was a communist and that he might be deported from the United States. That was a serious project of the FBI and the immigration service for five years between 1950 and his death in 1955.

And this didn’t come out until reasonably recently then, with freedom of information requests?

It didn’t come out until the 1990s. It’s quite disturbing, really, to think the FBI could have kept the secret for so long. In fact, some FBI agents—even though they were in the employment of the agency—were not aware about this secret file. Hoover knew that if it got out it would cause tremendous embarrassment to the United States government — this world famous scientist being pursued as a potential spy. He managed to keep the secret but how it was kept in the decades after the 1950s and 1960s is extraordinary and quite alarming, I think.

Was this campaign a complete failure? Or is there evidence that it was able to damage Einstein’s reputation or legacy in any way?

Ironically, I think it probably persuaded Einstein—because he was aware he was under surveillance, he didn’t know the details but he knew he was being watched—to come out and make a very public statement in the press in 1953 in support of intellectuals who were standing up against Joseph McCarthy’s campaign. McCarthy reacted very strongly to this and said Einstein was an ‘enemy of America.’ He later changed that to ‘a disloyal American,’ but he never went back on that statement. Einstein thought he might have to go to jail because he was recommending to people that they should not testify to congressional committees about their political views. He said that courage was needed by American intellectuals otherwise they would become slaves. That is what he felt the American government was trying to do during the Red Scare of the 1950s.

It was a very courageous thing to come out and say in that climate.

It was. It is quite moving to read his own private views and worries but he was quite old by then. He was prepared to stand up because he felt the situation had become so like Nazi Germany in the 1930s. He really felt that having lived through the rise of Nazi Germany, he had a duty to warn Americans that the same thing might happen with McCarthyism. I think you can say he was a real factor in the fall of McCarthy. Only one factor, but he was important. After the fall of McCarthy, Hoover realized there was no point in pursuing Einstein anymore. The whole file was wound down by the FBI just before Einstein’s death — but it does run to 1800 pages. One irony is that much of the file consists of associations to which Einstein had lent his name but very little of it consists of his views.

Let’s move on to Einstein’s political writings, that Hoover failed to read, in Einstein on Politics edited by David Rowe and Robert Schulmann from 2007. What picture do we get from this Albert Einstein book, then, of his political views?

This is the first book which really collects everything together which is why it’s valuable. There were a couple of books before that but this is the first collection in which everything is there that matters: letters, public statements, all of course in English (many of them were originally in German.) The general attitude has always been that Einstein was politically naïve. I don’t think that’s true. When you see what he did and what he stood for, you can’t call him naïve. He was a committed pacifist until 1933 and made a number of provocative speeches about pacifism. After he recognised what the Nazis stood for, he immediately changed his mind and said that there was no possibility of resisting Nazism without military force. He was prescient. Long before many people had realised what a risk to world peace Nazi Germany posed, Einstein recognised it and argued that the countries of the West would have to arm themselves and fight, eventually.

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He was not naïve about Israel . He supported the founding of Israel but persistently said to Israelis that they would have to find an ethical solution to their relationship with the Arabs. Otherwise, the whole state would fail and they had a duty to do so. He never changed his mind and when he was invited to be President of Israel in 1952—not long before his death—he refused saying ‘I have no talent for politics and I would have to say things to my fellow Jews in Israel that they would probably not want to hear about their relationship with the Arabs.’ Again, he was probably right. Whether he could have influenced events more than he did by becoming president, we’ll never know. But he was certainly regarded seriously by the Israelis as a thinker and as an activist. Then, on the matter on world-government, in 1945, it made sense. The United Nations had just started but they were already quarrelling in the Security Council. Einstein said the only way of controlling nationalism was by having a central, military authority. He tried to get both America and the Soviet Union and the British and some other nations involved in that, on the model of the Austro-Hungarian Empire which he had grown up under. He gave a speech at a Nobel Prize winning anniversary dinner in New York, saying, ‘The war is won but the peace is not.’ There was about two or three years of campaigning for world government with other physicists and thinkers. Of course it failed — but that was, I suppose, inevitable in the Cold War.

Is this book just of historical interest, to know what he thought, or do Einstein’s thoughts resonate for us today?

When you read his collected writings, you can’t help but see that there was a connection between his personal integrity and his political views which we all struggle with: how we behave as individuals and how we behave as a collective. His honesty and his courage do make me think. And he wrote well. He had a pungent style, his writing is not woolly, and he had a sense of history too. He also had a wonderful sense of humour. That comes through in virtually everything he writes about politics and human behaviour. Sometimes he was pretty caustic but he was often just gently ironic. I’m sure you’ve seen a photograph at the end of his life of him sticking his tongue out at the photographers. I think impudence and defiance of authority are the defining features of his political statements. I find that, on the whole, admirable.

That is something that seems to run through his scientific thinking and his political views.

He was a rebel, against orthodoxy of all kinds. We haven’t touched on his last 30 years as a physicist which are a bit notorious. He was trying to unify electromagnetism and gravitation — in other words, to extend general relativity to an even more universal understanding of the universe. He didn’t succeed, but in my book I’ve got a piece contributed by Steven Weinberg, the particle physicist, who says that even though Einstein failed we have to admire his determination to carry on and not accept quantum theory as the final theory. He said, ‘I can’t accept that as the final theory of physics, there must be something beyond it.’ He again showed his defiance of orthodoxy because almost every physicist thought he had lost his way. And some of them said so — Bohr, in particular. Niels Bohr came to Princeton in 1939 and Einstein had plenty of opportunity to meet him and talk to his old friend. But he didn’t want to because they disagreed so radically about physics. They spent quite a lot of time ignoring each other. Bohr was very upset about it but Einstein was determined not to reopen this old debate so kept his distance.

How should we remember Einstein?

As a unique genius. I’ve written two books on genius and I can’t think of anybody else who managed to combine science and decent human behaviour in the way that he did. And also as a humorous man. I really admire his jokes…

November 20, 2015

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Andrew Robinson

Andrew Robinson is a London-based writer and author of some twenty-five books on science; history of science; archaeology and scripts; and Indian history and culture. His recent books include a biography of Jean-François Champollion, Cracking the Egyptian Code and India: A Short History . He is author of Einstein: A Hundred Years of Relativity , republished in 2015 to celebrate the centenary of Einstein’s general theory of relativity and described by astronomer Patrick Moore as “by far the best book about Einstein that I have ever come across”.

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Albert Einstein

By: History.com Editors

Updated: May 16, 2019 | Original: October 27, 2009

The German-born physicist Albert Einstein developed the first of his groundbreaking theories while working as a clerk in the Swiss patent office in Bern. After making his name with four scientific articles published in 1905, he went on to win worldwide fame for his general theory of relativity and a Nobel Prize in 1921 for his explanation of the phenomenon known as the photoelectric effect. An outspoken pacifist who was publicly identified with the Zionist movement, Einstein emigrated from Germany to the United States when the Nazis took power before World War II. He lived and worked in Princeton, New Jersey, for the remainder of his life.

Einstein’s Early Life (1879-1904)

Born on March 14, 1879, in the southern German city of Ulm, Albert Einstein grew up in a middle-class Jewish family in Munich. As a child, Einstein became fascinated by music (he played the violin), mathematics and science. He dropped out of school in 1894 and moved to Switzerland, where he resumed his schooling and later gained admission to the Swiss Federal Polytechnic Institute in Zurich. In 1896, he renounced his German citizenship, and remained officially stateless before becoming a Swiss citizen in 1901.

Did you know? Almost immediately after Albert Einstein learned of the atomic bomb's use in Japan, he became an advocate for nuclear disarmament. He formed the Emergency Committee of Atomic Scientists and backed Manhattan Project scientist J. Robert Oppenheimer in his opposition to the hydrogen bomb.

While at Zurich Polytechnic, Einstein fell in love with his fellow student Mileva Maric, but his parents opposed the match and he lacked the money to marry. The couple had an illegitimate daughter, Lieserl, born in early 1902, of whom little is known. After finding a position as a clerk at the Swiss patent office in Bern, Einstein married Maric in 1903; they would have two more children, Hans Albert (born 1904) and Eduard (born 1910).

Einstein’s Miracle Year (1905)

While working at the patent office, Einstein did some of the most creative work of his life, producing no fewer than four groundbreaking articles in 1905 alone. In the first paper, he applied the quantum theory (developed by German physicist Max Planck) to light in order to explain the phenomenon known as the photoelectric effect, by which a material will emit electrically charged particles when hit by light. The second article contained Einstein’s experimental proof of the existence of atoms, which he got by analyzing the phenomenon of Brownian motion, in which tiny particles were suspended in water.

In the third and most famous article, titled “On the Electrodynamics of Moving Bodies,” Einstein confronted the apparent contradiction between two principal theories of physics: Isaac Newton’s concepts of absolute space and time and James Clerk Maxwell’s idea that the speed of light was a constant. To do this, Einstein introduced his special theory of relativity, which held that the laws of physics are the same even for objects moving in different inertial frames (i.e. at constant speeds relative to each other), and that the speed of light is a constant in all inertial frames. A fourth paper concerned the fundamental relationship between mass and energy, concepts viewed previously as completely separate. Einstein’s famous equation E = mc2 (where “c” was the constant speed of light) expressed this relationship.

From Zurich to Berlin (1906-1932)

Einstein continued working at the patent office until 1909, when he finally found a full-time academic post at the University of Zurich. In 1913, he arrived at the University of Berlin, where he was made director of the Kaiser Wilhelm Institute for Physics. The move coincided with the beginning of Einstein’s romantic relationship with a cousin of his, Elsa Lowenthal, whom he would eventually marry after divorcing Mileva. In 1915, Einstein published the general theory of relativity, which he considered his masterwork. This theory found that gravity, as well as motion, can affect time and space. According to Einstein’s equivalence principle–which held that gravity’s pull in one direction is equivalent to an acceleration of speed in the opposite direction–if light is bent by acceleration, it must also be bent by gravity. In 1919, two expeditions sent to perform experiments during a solar eclipse found that light rays from distant stars were deflected or bent by the gravity of the sun in just the way Einstein had predicted.

The general theory of relativity was the first major theory of gravity since Newton’s, more than 250 years before, and the results made a tremendous splash worldwide, with the London Times proclaiming a “Revolution in Science” and a “New Theory of the Universe.” Einstein began touring the world, speaking in front of crowds of thousands in the United States, Britain, France and Japan. In 1921, he won the Nobel Prize for his work on the photoelectric effect, as his work on relativity remained controversial at the time. Einstein soon began building on his theories to form a new science of cosmology, which held that the universe was dynamic instead of static, and was capable of expanding and contracting.

Einstein Moves to the United States (1933-39)

A longtime pacifist and a Jew, Einstein became the target of hostility in Weimar Germany, where many citizens were suffering plummeting economic fortunes in the aftermath of defeat in the Great War. In December 1932, a month before Adolf Hitler became chancellor of Germany, Einstein made the decision to emigrate to the United States, where he took a position at the newly founded Institute for Advanced Study in Princeton, New Jersey . He would never again enter the country of his birth.

By the time Einstein’s wife Elsa died in 1936, he had been involved for more than a decade with his efforts to find a unified field theory, which would incorporate all the laws of the universe, and those of physics, into a single framework. In the process, Einstein became increasingly isolated from many of his colleagues, who were focused mainly on the quantum theory and its implications, rather than on relativity.

Einstein’s Later Life (1939-1955)

In the late 1930s, Einstein’s theories, including his equation E=mc2, helped form the basis of the development of the atomic bomb. In 1939, at the urging of the Hungarian physicist Leo Szilard, Einstein wrote to President Franklin D. Roosevelt advising him to approve funding for the development of uranium before Germany could gain the upper hand. Einstein, who became a U.S. citizen in 1940 but retained his Swiss citizenship, was never asked to participate in the resulting Manhattan Project , as the U.S. government suspected his socialist and pacifist views. In 1952, Einstein declined an offer extended by David Ben-Gurion, Israel’s premier, to become president of Israel .

Throughout the last years of his life, Einstein continued his quest for a unified field theory. Though he published an article on the theory in Scientific American in 1950, it remained unfinished when he died, of an aortic aneurysm, five years later. In the decades following his death, Einstein’s reputation and stature in the world of physics only grew, as physicists began to unravel the mystery of the so-called “strong force” (the missing piece of his unified field theory) and space satellites further verified the principles of his cosmology.

HISTORY Vault: Secrets of Einstein's Brain

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Albert Einstein Biography

Einstein is also well known as an original free-thinker, speaking on a range of humanitarian and global issues. After contributing to the theoretical development of nuclear physics and encouraging F.D. Roosevelt to start the Manhattan Project, he later spoke out against the use of nuclear weapons.

Born in Germany to Jewish parents, Einstein settled in Switzerland and then, after Hitler’s rise to power, the United States. Einstein was a truly global man and one of the undisputed genius’ of the Twentieth Century.

Early life Albert Einstein

Einstein was born 14 March 1879, in Ulm the German Empire. His parents were working-class (salesman/engineer) and non-observant Jews. Aged 15, the family moved to Milan, Italy, where his father hoped Albert would become a mechanical engineer. However, despite Einstein’s intellect and thirst for knowledge, his early academic reports suggested anything but a glittering career in academia. His teachers found him dim and slow to learn. Part of the problem was that Albert expressed no interest in learning languages and the learning by rote that was popular at the time.

“School failed me, and I failed the school. It bored me. The teachers behaved like Feldwebel (sergeants). I wanted to learn what I wanted to know, but they wanted me to learn for the exam.” Einstein and the Poet (1983)

At the age of 12, Einstein picked up a book on geometry and read it cover to cover. – He would later refer to it as his ‘holy booklet’. He became fascinated by maths and taught himself – becoming acquainted with the great scientific discoveries of the age.

Albert Einstein with wife Elsa

Despite Albert’s independent learning, he languished at school. Eventually, he was asked to leave by the authorities because his indifference was setting a bad example to other students.

He applied for admission to the Federal Institute of Technology in Zurich. His first attempt was a failure because he failed exams in botany, zoology and languages. However, he passed the next year and in 1900 became a Swiss citizen.

At college, he met a fellow student Mileva Maric, and after a long friendship, they married in 1903; they had two sons before divorcing several years later.

In 1896 Einstein renounced his German citizenship to avoid military conscription. For five years he was stateless, before successfully applying for Swiss citizenship in 1901. After graduating from Zurich college, he attempted to gain a teaching post but none was forthcoming; instead, he gained a job in the Swiss Patent Office.

While working at the Patent Office, Einstein continued his own scientific discoveries and began radical experiments to consider the nature of light and space.

Einstein in 1921

He published his first scientific paper in 1900, and by 1905 had completed his PhD entitled “ A New Determination of Molecular Dimensions . In addition to working on his PhD, Einstein also worked feverishly on other papers. In 1905, he published four pivotal scientific works, which would revolutionise modern physics. 1905 would later be referred to as his ‘ annus mirabilis .’

Einstein’s work started to gain recognition, and he was given a post at the University of Zurich (1909) and, in 1911, was offered the post of full-professor at the Charles-Ferdinand University in Prague (which was then part of Austria-Hungary Empire). He took Austrian-Hungary citizenship to accept the job. In 1914, he returned to Germany and was appointed a director of the Kaiser Wilhelm Institute for Physics. (1914–1932)

Albert Einstein’s Scientific Contributions

Quantum Theory

Einstein suggested that light doesn’t just travel as waves but as electric currents. This photoelectric effect could force metals to release a tiny stream of particles known as ‘quanta’. From this Quantum Theory, other inventors were able to develop devices such as television and movies. He was awarded the Nobel Prize in Physics in 1921.

Special Theory of Relativity

This theory was written in a simple style with no footnotes or academic references. The core of his theory of relativity is that:

“Movement can only be detected and measured as relative movement; the change of position of one body in respect to another.”

Thus there is no fixed absolute standard of comparison for judging the motion of the earth or plants. It was revolutionary because previously people had thought time and distance are absolutes. But, Einstein proved this not to be true.

He also said that if electrons travelled at close to the speed of light, their weight would increase.

This lead to Einstein’s famous equation:

Where E = energy m = mass and c = speed of light.

General Theory of Relativity 1916

Working from a basis of special relativity. Einstein sought to express all physical laws using equations based on mathematical equations.

He devoted the last period of his life trying to formulate a final unified field theory which included a rational explanation for electromagnetism. However, he was to be frustrated in searching for this final breakthrough theory.

Solar eclipse of 1919

In 1911, Einstein predicted the sun’s gravity would bend the light of another star. He based this on his new general theory of relativity. On 29 May 1919, during a solar eclipse, British astronomer and physicist Sir Arthur Eddington was able to confirm Einstein’s prediction. The news was published in newspapers around the world, and it made Einstein internationally known as a leading physicist. It was also symbolic of international co-operation between British and German scientists after the horrors of the First World War.

In the 1920s, Einstein travelled around the world – including the UK, US, Japan, Palestine and other countries. Einstein gave lectures to packed audiences and became an internationally recognised figure for his work on physics, but also his wider observations on world affairs.

Bohr-Einstein debates

During the 1920s, other scientists started developing the work of Einstein and coming to different conclusions on Quantum Physics. In 1925 and 1926, Einstein took part in debates with Max Born about the nature of relativity and quantum physics. Although the two disagreed on physics, they shared a mutual admiration.

As a German Jew, Einstein was threatened by the rise of the Nazi party. In 1933, when the Nazi’s seized power, they confiscated Einstein’s property, and later started burning his books. Einstein, then in England, took an offer to go to Princeton University in the US. He later wrote that he never had strong opinions about race and nationality but saw himself as a citizen of the world.

“I do not believe in race as such. Race is a fraud. All modern people are the conglomeration of so many ethnic mixtures that no pure race remains.”

Once in the US, Einstein dedicated himself to a strict discipline of academic study. He would spend no time on maintaining his dress and image. He considered these things ‘inessential’ and meant less time for his research. Einstein was notoriously absent-minded. In his youth, he once left his suitcase at a friends house. His friend’s parents told Einstein’s parents: “ That young man will never amount to anything, because he can’t remember anything.”

Although a bit of a loner, and happy in his own company, he had a good sense of humour. On January 3, 1943, Einstein received a letter from a girl who was having difficulties with mathematics in her studies. Einstein consoled her when he wrote in reply to her letter

“Do not worry about your difficulties in mathematics. I can assure you that mine are still greater.”

Einstein professed belief in a God “Who reveals himself in the harmony of all being”. But, he followed no established religion. His view of God sought to establish a harmony between science and religion.

“Science without religion is lame, religion without science is blind.”

– Einstein, Science and Religion (1941)

Politics of Einstein

Einstein described himself as a Zionist Socialist. He did support the state of Israel but became concerned about the narrow nationalism of the new state. In 1952, he was offered the position as President of Israel, but he declined saying he had:

“neither the natural ability nor the experience to deal with human beings.” … “I am deeply moved by the offer from our State of Israel, and at once saddened and ashamed that I cannot accept it.”

Einstein receiving US citizenship.

Albert Einstein was involved in many civil rights movements such as the American campaign to end lynching. He joined the National Association for the Advancement of Colored People (NAACP) and  considered racism, America’s worst disease. But he also spoke highly of the meritocracy in American society and the value of being able to speak freely.

On the outbreak of war in 1939, Einstein wrote to President Roosevelt about the prospect of Germany developing an atomic bomb. He warned Roosevelt that the Germans were working on a bomb with a devastating potential. Roosevelt headed his advice and started the Manhattan project to develop the US atom bomb. But, after the war ended, Einstein reverted to his pacifist views. Einstein said after the war.

“Had I known that the Germans would not succeed in producing an atomic bomb, I would not have lifted a finger.” (Newsweek, 10 March 1947)

In the post-war McCarthyite era, Einstein was scrutinised closely for potential Communist links. He wrote an article in favour of socialism, “Why Socialism” (1949) He criticised Capitalism and suggested a democratic socialist alternative. He was also a strong critic of the arms race. Einstein remarked:

“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!”

Rabindranath Tagore and Einstein

Einstein was feted as a scientist, but he was a polymath with interests in many fields. In particular, he loved music. He wrote that if he had not been a scientist, he would have been a musician. Einstein played the violin to a high standard.

“I often think in music. I live my daydreams in music. I see my life in terms of music… I get most joy in life out of music.”

Einstein died in 1955, at his request his brain and vital organs were removed for scientific study.

Citation: Pettinger, Tejvan . “ Biography of Albert Einstein ”, Oxford, www.biographyonline.net 23 Feb. 2008. Updated 2nd March 2017.

Albert Einstein – His Life and Universe

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19 Comments

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Albert Einstein: Biography, facts and impact on science

A brief biography of Albert Einstein (March 14, 1879 - April 18, 1955), the scientist whose theories changed the way we think about the universe.

• Einstein's birthday and education

Einstein's wives and children

How einstein changed physics.

• Later years and death

Gravitational waves and relativity

Additional resources.

Albert Einstein was a German-American physicist and probably the most well-known scientist of the 20th century. He is famous for his theory of relativity , a pillar of modern physics that describes the dynamics of light and extremely massive entities, as well as his work in quantum mechanics , which focuses on the subatomic realm. 

Albert Einstein's birthday and education

Einstein was born in Ulm, in the German state of Württemberg, on March 14, 1879, according to a biography from the Nobel Prize organization . His family moved to Munich six weeks later, and in 1885, when he was 6 years old, he began attending Petersschule, a Catholic elementary school.

Contrary to popular belief, Einstein was a good student. "Yesterday Albert received his grades, he was again number one, and his report card was brilliant," his mother once wrote to her sister, according to a German website dedicated to Einstein's legacy. But when he later switched to the Luitpold grammar school, young Einstein chafed under the school's authoritarian attitude, and his teacher once said of him, "never will he get anywhere."

In 1896, at age 17, Einstein entered the Swiss Federal Polytechnic School in Zurich to be trained as a teacher in physics and mathematics. A few years later, he gained his diploma and acquired Swiss citizenship but was unable to find a teaching post. So he accepted a position as a technical assistant in the Swiss patent office. 

Related: 10 discoveries that prove Einstein was right about the universe — and 1 that proves him wrong

Einstein married Mileva Maric, his longtime love and former student, in 1903. A year prior, they had a child out of wedlock, who was discovered by scholars only in the 1980s, when private letters revealed her existence. The daughter, called Lieserl in the letters, may have been mentally challenged and either died young or was adopted when she was a year old. Einstein had two other children with Maric, Hans Albert and Eduard, born in 1904 and 1910, respectively.

Einstein divorced Maric in 1919 and soon married his cousin Elsa Löwenthal, with whom he had been in a relationship since 1912.

Einstein obtained his doctorate in physics in 1905 — a year that's often known as his annus mirabilis ("year of miracles" in Latin), according to the Library of Congress . That year, he published four groundbreaking papers of significant importance in physics.

The first incorporated the idea that light could come in discrete particles called photons. This theory describes the photoelectric effect , the concept that underpins modern solar power. The second explained Brownian motion, or the random motion of particles or molecules. Einstein looked at the case of a dust mote moving randomly on the surface of water and suggested that water is made up of tiny, vibrating molecules that kick the dust back and forth. 

The final two papers outlined his theory of special relativity, which showed how observers moving at different speeds would agree about the speed of light, which was a constant. These papers also introduced the equation E = mc^2, showing the equivalence between mass and energy. That finding is perhaps the most widely known aspect of Einstein's work. (In this infamous equation, E stands for energy, m represents mass and c is the constant speed of light).

In 1915, Einstein published four papers outlining his theory of general relativity, which updated Isaac Newton's laws of gravity by explaining that the force of gravity arose because massive objects warp the fabric of space-time. The theory was validated in 1919, when British astronomer Arthur Eddington observed stars at the edge of the sun during a solar eclipse and was able to show that their light was bent by the sun's gravitational well, causing shifts in their perceived positions.

Related: 8 Ways you can see Einstein's theory of relativity in real life

In 1921, he won the Nobel Prize in physics for his work on the photoelectric effect, though the committee members also mentioned his "services to Theoretical Physics" when presenting their award. The decision to give Einstein the award was controversial because the brilliant physicist was a Jew and a pacifist. Anti-Semitism was on the rise and relativity was not yet seen as a proven theory, according to an article from The Guardian .

Einstein was a professor at the University of Berlin for a time but fled Germany with Löwenthal in 1933, during the rise of Adolf Hitler. He renounced his German citizenship and moved to the United States to become a professor of theoretical physics at Princeton, becoming a U.S. citizen in 1940.

During this era, other researchers were creating a revolution by reformulating the rules of the smallest known entities in existence. The laws of quantum mechanics had been worked out by a group led by the Danish physicist Niels Bohr , and Einstein was intimately involved with their efforts.

Bohr and Einstein famously clashed over quantum mechanics. Bohr and his cohorts proposed that quantum particles behaved according to probabilistic laws, which Einstein found unacceptable, quipping that " God does not play dice with the universe ." Bohr's views eventually came to dominate much of contemporary thinking about quantum mechanics.

Einstein's later years and death

After he retired in 1945, Einstein spent most of his later years trying to unify gravity with electromagnetism in what's known as a unified field theory . Einstein died of a burst blood vessel near his heart on April 18, 1955, never unifying these forces.

Einstein's body was cremated and his ashes were spread in an undisclosed location, according to the American Museum of Natural History . But a doctor performed an unauthorized craniotomy before this and removed and saved Einstein's brain. 

The brain has been the subject of many tests over the decades, which suggested that it had extra folding in the gray matter, the site of conscious thinking. In particular, there were more folds in the frontal lobes, which have been tied to abstract thought and planning. However, drawing any conclusions about intelligence based on a single specimen is problematic. 

Related: Where is Einstein's brain?

In addition to his incredible legacy regarding relativity and quantum mechanics, Einstein conducted lesser-known research into a refrigeration method that required no motors, moving parts or coolant. He was also a tireless anti-war advocate, helping found the Bulletin of the Atomic Scientists , an organization dedicated to warning the public about the dangers of nuclear weapons . 

Einstein's theories concerning relativity have so far held up spectacularly as a predictive models. Astronomers have found that, as the legendary physicist anticipated, the light of distant objects is lensed by massive, closer entities, a phenomenon known as gravitational lensing, which has helped our understanding of the universe's evolution. The James Webb Space Telescope , launched in Dec. 2021, has utilized gravitational lensing on numerous occasions to detect light emitted near the dawn of time , dating to just a few hundred million years after the Big Bang.

In 2016, the Advanced Laser Interferometer Gravitational-Wave Observatory also announced the first-ever direct detection of gravitational waves , created when massive neutron stars and black holes merge and generate ripples in the fabric of space-time. Further research published in 2023 found that the entire universe may be rippling with a faint "gravitational wave background," emitted by ancient, colliding black holes.

Find answers to frequently asked questions about Albert Einstein on the Nobel Prize website. Flip through digitized versions of Einstein's published and unpublished manuscripts at Einstein Archives Online. Learn about The Einstein Memorial at the National Academy of Sciences building in Washington, D.C. 

This article was last updated on March 11, 2024 by Live Science editor Brandon Specktor to include new information about how Einstein's theories have been validated by modern experiments.

Sign up for the Live Science daily newsletter now

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Adam Mann is a freelance journalist with over a decade of experience, specializing in astronomy and physics stories. He has a bachelor's degree in astrophysics from UC Berkeley. His work has appeared in the New Yorker, New York Times, National Geographic, Wall Street Journal, Wired, Nature, Science, and many other places. He lives in Oakland, California, where he enjoys riding his bike. 

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• Albert Einstein - Facts

Albert Einstein

Photo from the Nobel Foundation archive.

Albert Einstein The Nobel Prize in Physics 1921

Born: 14 March 1879, Ulm, Germany

Died: 18 April 1955, Princeton, NJ, USA

Affiliation at the time of the award: Kaiser-Wilhelm-Institut (now Max-Planck-Institut) für Physik, Berlin, Germany

Prize motivation: “for his services to Theoretical Physics, and especially for his discovery of the law of the photoelectric effect”

Albert Einstein received his Nobel Prize one year later, in 1922.

Prize share: 1/1

Albert Einstein grew up in Munich, where his father founded an electrical engineering company. After studying at the ETH university in Zurich, Einstein worked at the patent office in Bern, during which time he produced several pioneering works in the field of physics. He was later employed at universities in Bern, Zurich, and Prague, and from 1914, in Berlin. After the Nazis seized power in Germany, Einstein immigrated to the US, where he worked at the Institute for Advanced Study in Princeton, New Jersey. Einstein married twice and had three children by his first marriage.

If metal electrodes are exposed to light, electrical sparks between them occur more readily. For this photoelectric effect to occur, the light waves must be above a certain frequency, however. According to physics theory, the light's intensity should be critical. In one of several epoch-making studies beginning in 1905, Albert Einstein explained that light consists of quanta—packets with fixed energies corresponding to certain frequencies. One such light quantum, a photon, must have a certain minimum frequency before it can liberate an electron.

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• J. Edgar Hoover's FBI hoped to unmask Einstein as a Soviet spy and maintained almost constant surveillance of Einstein. His FBI file totaled 1,800 pages.
• Einstein adored playing violin and said that if he had not gone into physics, he likely would have become a musician.
• Einstein's brain was removed without permission during his autopsy and was sent to be tested for its perceived secrets.

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Legendary scientist Albert Einstein (1879 - 1955) first gained worldwide prominence in 1919 after British astronomers verified predictions of Einstein's general theory of relativity through measurements taken during a total eclipse. Einstein's theories expanded upon universal laws formulated by physicist Isaac Newton in the late seventeenth century.

Before E=MC2

Einstein was born in Germany in 1879. Growing up, he enjoyed classical music and played the violin. One story Einstein liked to tell about his childhood was when he came across a magnetic compass. The needle's invariable northward swing, guided by an invisible force, profoundly impressed him as a child. The compass convinced him that there had to be "something behind things, something deeply hidden."

Even as a small boy Einstein was self-sufficient and thoughtful. According to one account, he was a slow talker, often pausing to consider what he would say next. His sister would recount the concentration and perseverance with which he would build houses of cards.

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, and lived there until his death. Einstein is probably familiar to most people for his mathematical equation about the nature of energy, E = MC2.

E = MC2, Light and Heat

The formula E=MC2 is probably the most famous calculation from Einstein's special theory of relativity . The formula basically states that energy (E) equals mass (m) times the speed of light (c) squared (2). In essence, it means mass is just one form of energy. Since the speed of light squared is an enormous number, 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.

Einstein wrote a paper based on the new understanding of the structure of light. He argued that light can act as though it consists of discrete, independent particles of energy similar to particles of a gas. A few years before, Max Planck's work had contained the first suggestion of discrete particles in energy. Einstein went far beyond this though and his revolutionary proposal seemed to contradict the universally accepted theory that light consists of smoothly oscillating electromagnetic waves. 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 explained how light ejects electrons from metals.

While there was a well-known kinetic energy theory that explained heat as an effect of the ceaseless motion of atoms, it was Einstein who 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 argued, the irregular bombardment by the liquid's invisible atoms should cause the suspended particles to move in a random jittering pattern. This should be observable through a microscope. If the predicted motion is not seen, the whole kinetic theory would be in grave danger. But such a random dance of microscopic particles had long since been observed. With the motion demonstrated in detail, Einstein had reinforced the kinetic theory and created a powerful new tool for studying the movement of atoms.

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Albert Einstein: His life, theories and impact on science

Where would science be without Albert Einstein?

• Early years

Career highlights

Einstein's remarkable brain, einstein's scientific legacy.

• Astronomical legacy

Additional resources

Albert Einstein is often cited as one of the most influential scientists of the 20th century. His work continues to help astronomers study everything from gravitational waves to Mercury 's orbit. 

The scientist's equation that helped explain special relativity – E = mc^2 – is famous even among those who don't understand its underlying physics. Einstein is also known for his theory of general relativity (an explanation of gravity ), and the photoelectric effect (which explains the behavior of electrons under certain circumstances); his work on the latter earned him a Nobel Prize in Physics in 1921.

Einstein also tried in vain to unify all the forces of the universe in a single theory, or a theory of everything, which he was still working on at the time of his death.

Related: What is the Theory of Everything?

Einstein's early years

Einstein was born on March 14, 1879, in Ulm, Germany, a town that today has a population of just more than 120,000. There is a small commemorative plaque where his house used to stand (it was destroyed during World War II). The family moved to Munich shortly after his birth, according to the Nobel Prize website , and later to Italy when his father faced problems with running his own business. Einstein's father, Hermann, ran an electrochemical factory and his mother Pauline took care of Albert and his younger sister, Maria.

— What is wormhole theory?

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— Albert Einstein: Before and after relativity

Einstein would write in his memoirs that  two "wonders"  deeply affected his early years, according to Hans-Josef Küpper, an Albert Einstein scholar. Young Einstein encountered his first wonder — a compass — at age 5: He was mystified that invisible forces could deflect the needle. This would lead to a lifelong fascination with unseen forces. The second wonder came at age 12 when he discovered a book of geometry, which he worshipped, calling it his "holy geometry book."

Contrary to popular belief, young Albert was a good student, according to an online archive . He  excelled in physics and mathematics , but was a more "moderate" pupil in other subjects, Küpper wrote on his website. However, Einstein rebelled against the authoritarian attitude of some of his teachers and dropped out of school at 16. He later took an entrance exam for the Swiss Federal Polytechnic School in Zurich, and while his performances in physics and math were excellent, his marks in other areas were subpar, and he did not pass the exam. The aspiring physicist took additional courses to close the gap in his knowledge and was admitted to the Swiss Polytechnic in 1896. In 1901 he received his diploma to teach physics and mathematics. 

However, Einstein could not find a teaching position, and began work in a Bern patent office in 1901, according to his Nobel Prize biography . It was while there that, in between analyzing patent applications, he developed his work in special relativity and other areas of physics that later made him famous.

Einstein married Mileva Maric, a longtime love of his from Zurich, in 1903. Their children, Hans Albert and Eduard, were born in 1904 and 1910. (The fate of a child born to them in 1902 before their marriage, Lieserl, is unknown.) Einstein divorced Maric in 1919 and soon after married Elsa Löwenthal. Löwenthal died in 1933.

Einstein's career sent him to multiple countries. He earned his doctorate from the University of Zurich in 1905 and subsequently took on professor positions in Zurich (1909), Prague (1911) and Zurich again (1912). Next, he moved to Berlin to become director of the Kaiser Wilhelm Physical Institute and a professor at the University of Berlin (1914). He also became a German citizen. 

A major validation of Einstein's work came in 1919, when Sir Arthur Eddington, secretary of the Royal Astronomical Society, led an expedition to Africa that measured the position of stars during a total solar eclipse . The group found that the position of stars was shifted due to the bending of light around the sun . (In 2008, a BBC/HBO production dramatized the story in " Einstein and Eddington .") 

Einstein remained in Germany until 1933 when dictator Adolf Hitler rose to power. The physicist then renounced his German citizenship and moved to the United States to become a professor of theoretical physics at Princeton. He became a U.S. citizen in 1940 and retired in 1945.

Einstein remained active in the physics community throughout his later years. In 1939, he famously penned a letter to President Franklin D. Roosevelt warning that uranium could be used for an atomic bomb. 

Late in Einstein's life, he engaged in a series of private debates with physicist  Niels Bohr  about the validity of quantum theory . Bohr's theories held the day, and Einstein later incorporated quantum theory into his own calculations. 

Einstein's death

Einstein died of an aortic aneurysm on April 18, 1955. A blood vessel burst near his heart, according to the American Museum of Natural History (AMNH) . When asked if he wanted to have surgery, Einstein refused. "I want to go when I want to go," he said. "It is tasteless to prolong life artificially. I have done my share; it is time to go. I will do it elegantly."

Einstein's body — most of it, anyway — was cremated; his ashes were spread in an undisclosed location, according to the AMNH. However, a doctor at Princeton Hospital, Thomas Harvey, had controversially performed an autopsy, and removed Einstein's brain and eyeballs, according to the BBC .

Harvey sliced hundreds of thin sections of brain tissue to place on microscope slides and  snapped 14 photos  of the brain from several angles. He took the brain tissue, slides and images with him when he moved to Wichita, Kansas, where he was a medical supervisor in a biological testing lab.

Over the next 30 years, Harvey sent a few slides to other researchers who requested them, but kept the rest of the brain in two glass jars, sometimes in a cider box under a beer cooler. The story of Einstein's brain was largely forgotten until 1985, when Harvey and his colleagues published their study results in the journal Experimental Neurology .

Harvey failed a competency exam in 1988, and his medical license was revoked, Blitz wrote. Harvey eventually donated the brain to Princeton Hospital, where the brain's journey had begun. Harvey died in 2007. Pieces of Einstein's brain are now at the Mütter Museum in Philadelphia, Live Science reported .

Harvey's 1985 study authors reported that Einstein's brain had a higher number of glial cells (those that support and insulate the nervous system) per neurons (nerve cells) than other brains they examined. They concluded that it might indicate the neurons had a higher metabolic need — in other words, Einstein's brain cells needed and used more energy, which could have been why he had such advanced thinking abilities and conceptual skills.

However, other researchers have pointed out a few problems with that study, according to Eric H. Chudler , a neuroscientist at the University of Washington. First, for example, the other brains used in the study were all younger than Einstein's brain. Second, the "experimental group" had only one subject — Einstein. Additional studies are needed to see if these anatomical differences are found in other people. And third, only a small part of Einstein's brain was studied.

Another study, published in 1996 in the journal Neuroscience Letters , found that Einstein's brain weighed only 1,230 grams, which is less than the average adult male brain (about 1,400 g). Also, the scientist's cerebral cortex was thinner than that of five control brains, but the density of neurons was higher.

A study published in 2012 in the journal Brain revealed that Einstein's brain had extra folding in the gray matter , the site of conscious thinking. In particular, the frontal lobes, regions tied to abstract thought and planning, had unusually elaborate folding.

Einstein's legacy in physics is significant. Here are some of the key scientific principles that he pioneered:

Theory of special relativity : Einstein showed that physical laws are identical for all observers, as long as they are not under acceleration. However, the speed of light in a vacuum is always the same, no matter at what speed the observer is traveling. This work led to his realization that space and time are linked to what we now call space-time . So, an event seen by one observer may also be seen at a different time by another observer. 

Theory of general relativity : This was a reformulation of the law of gravity. In the 1600s, Newton formulated three laws of motion, among them, outlining how gravity works between two bodies. The force between them depends on how massive each object is, and how far apart the objects are. Einstein determined that when thinking about space-time, a massive object causes a distortion in space-time (like putting a heavy ball on a trampoline). Gravity is exerted when other objects fall into the "well" created by the distortion in space-time, like a marble rolling towards a large ball. General relativity passed a major test in 2019 in an experiment involving a supermassive black hole at the center of the Milky Way .

Photoelectric effect : Einstein's work in 1905 proposed that light should be thought of as a stream of particles (photons) instead of just a single wave, as was commonly thought at the time. His work helped decipher curious results scientists were previously unable to explain. 

Unified field theory : Einstein spent much of his later years trying to merge the fields of electromagnetism and gravity. He was unsuccessful but may have been ahead of his time. Other physicists are still working on this problem.

Einstein's astronomical legacy

There are many applications of Einstein's work, but here are some of the most notable ones in astronomy :

Gravitational waves : In 2016, the Laser Interferometer Gravitational-Wave Observatory (LIGO) detected space-time ripples — otherwise known as gravitational waves— that occurred after black holes collided about 1.4 billion light-years from Earth . LIGO also made an initial detection of gravitational waves in 2015, a century after Einstein predicted these ripples existed. The waves are a facet of Einstein's theory of general relativity.

Mercury's orbit : Mercury is a small planet orbiting close to a very massive object relative to its size — the sun. Its orbit could not be understood until general relativity showed that the curvature of space-time is affecting Mercury's motions and changing its orbit. There is a small chance that over billions of years, Mercury could be ejected from our solar system due to these changes (with an even smaller chance that it could collide with Earth).

Gravitational lensing : This is a phenomenon by which a massive object (like a galaxy cluster or a black hole) bends light around it. Astronomers looking at that region through a telescope can then see objects directly behind the massive object, due to the light being bent. A famous example of this is Einstein's Cross, a quasar in the constellation Pegasus : A galaxy roughly 400 million light-years away bends the light of the quasar so that it appears four times around the galaxy.

Black holes : In April 2019, the Event Horizon telescope showed the first-ever images of a black hole . The photos again confirmed several facets of general relativity, including not only that black holes exist, but also that they have a circular event horizon — a point at which nothing can escape, not even light.

To find the answers to frequently asked questions about Albert Einstein , visit The Nobel Prize website. Additionally, you can learn about The Einstein Memorial at the National Academy of Sciences building in Washington, D.C.  

Bibliography

"Einstein: The Life and Times". American Journal of Physics (1973). https://aapt.scitation.org/doi/abs/10.1119/1

"On the brain of a scientist: Albert Einstein". Experimental Neurology (1985). https://pubmed.ncbi.nlm.nih.gov/3979509/

"The fascinating life and theory of Albert Einstein". Mih, W. C. Nova Publishers (2000).   https://books.google.co.uk/books

"Alterations in cortical thickness and neuronal density in the frontal cortex of Albert Einstein". Neuroscience Letters (1996). https://pubmed.ncbi.nlm.nih.gov/8805120/

"The cerebral cortex of Albert Einstein: a description and preliminary analysis of unpublished photographs". Brain, Volume 136, Issue 4 (2012). https://academic.oup.com/brain/article/136/4/1304/356614?login=true

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• World Biography

Albert Einstein Biography

Born: March 14, 1879 Ulm, Germany Died: April 18, 1955 Princeton, Massachusetts German-born American physicist and scientist

The German-born American physicist (one who studies matter and energy and the relationships between them) Albert Einstein revolutionized the science of physics. He is best known for his theory of relativity, which holds that measurements of space and time vary according to conditions such as the state of motion of the observer.

Early years and education

Albert Einstein was born on March 14, 1879, in Ulm, Germany, but he grew up and obtained his early education in Munich, Germany. He was a poor student, and some of his teachers thought he might be retarded (mentally handicapped); he was unable to speak fluently (with ease and grace) at age nine. Still, he was fascinated by the laws of nature, experiencing a deep feeling of wonder when puzzling over the invisible, yet real, force directing the needle of a compass. He began playing the violin at age six and would continue to play throughout his life. At age twelve he discovered geometry (the study of points, lines, and surfaces) and was taken by its clear and certain proofs. Einstein mastered calculus (a form of higher mathematics used to solve problems in physics and engineering) by age sixteen.

Einstein's formal secondary education ended at age sixteen. He disliked school, and just as he was planning to find a way to leave without hurting his chances for entering the university, his teacher expelled him because his bad attitude was affecting his classmates. Einstein tried to enter the Federal Institute of Technology (FIT) in Zurich, Switzerland, but his knowledge of subjects other than mathematics was not up to par, and he failed the entrance examination. On the advice of the principal, he first obtained his diploma at the Cantonal School in Aarau, Switzerland, and in 1896 he was automatically admitted into the FIT. There he came to realize that he was more interested in and better suited for physics than mathematics.

Einstein passed his examination to graduate from the FIT in 1900, but due to the opposition of one of his professors he was unable to go on to obtain the usual university assistantship. In 1902 he was hired as an inspector in the patent office in Bern, Switzerland. Six months later he married Mileva Maric, a former classmate in Zurich. They had two sons. It was in Bern, too, that Einstein, at twenty-six, completed the requirements for his doctoral degree and wrote the first of his revolutionary scientific papers.

Famous papers

Thermodynamics (the study of heat processes) made the deepest impression on Einstein. From 1902 until 1904 he reworked the foundations of thermodynamics and statistical mechanics (the study of forces and their effect on matter); this work formed the immediate background to his revolutionary papers of 1905, one of which was on Brownian motion.

In Brownian motion, first observed in 1827 by the Scottish botanist (scientist who studies plants) Robert Brown (1773–1858), small particles suspended in a liquid such as water undergo a rapid, irregular motion. Einstein, unaware of Brown's earlier observations, concluded from his studies that such a motion must exist. He was guided by the thought that if the liquid in which the particles are suspended is made up of atoms, they should collide with the particles and set them into motion. He found that the motion of the particles will in time experience a forward movement. Einstein proved that this forward movement is directly related to the number of atoms per gram of atomic weight. Brownian motion is to this day considered one of the most direct proofs of the existence of atoms.

The theory of relativity came from Einstein's search for a general law of nature that would explain a problem that had occurred to him when he was sixteen: if one runs at, say, 4 4 miles per hour (6.4 kilometers per hour) alongside a train that is moving at 4 4 miles per hour, the train appears to be at rest; if, on the other hand, it were possible to run alongside a ray of light, neither experiment nor theory suggests that the ray of light would appear to be at rest. Einstein realized that no matter what speed the observer is moving at, he must always observe the same velocity of light, which is roughly 186,000 miles per second (299,274 kilometers per second). He also saw that this was in agreement with a second assumption: if an observer at rest and an observer moving at constant speed carry out the same kind of experiment, they must get the same result. These two assumptions make up Einstein's special theory of relativity. Also in 1905 Einstein proved that his theory predicted that energy (E) and mass (m) are entirely related according to his famous equation, E=mc 2 . This means that the energy in any particle is equal to the particle's mass multiplied by the speed of light squared.

Academic career

These papers made Einstein famous, and universities soon began competing for his services. In 1909, after serving as a lecturer at the University of Bern, Einstein was called as an associate professor to the University of Zurich. Two years later he was appointed a full professor at the German University in Prague, Czechoslovakia. Within another year-and-a-half Einstein became a full professor at the FIT. Finally, in 1913 the well-known scientists Max Planck (1858–1947) and Walther Nernst (1864–1941) traveled to Zurich to persuade Einstein to accept a lucrative (profitable) research professorship at the University of Berlin in Germany, as well as full membership in the Prussian Academy of Science. He accepted their offer in 1914, saying, "The Germans are gambling on me as they would on a prize hen. I do not really know myself whether I shall ever really lay another egg." When he went to Berlin, his wife remained behind in Zurich with their two sons; they divorced, and Einstein married his cousin Elsa in 1917.

In 1920 Einstein was appointed to a lifelong honorary visiting professorship at the University of Leiden in Holland. In 1921 and 1922 Einstein, accompanied by Chaim Weizmann (1874–1952), the future president of the state of Israel, traveled all over the world to win support for the cause of Zionism (the establishing of an independent Jewish state). In Germany, where hatred of Jewish people was growing, the attacks on Einstein began. Philipp Lenard and Johannes Stark, both Nobel Prize–winning physicists, began referring to Einstein's theory of relativity as "Jewish physics." These kinds of attacks increased until Einstein resigned from the Prussian Academy of Science in 1933.

Career in America

On several occasions Einstein had visited the California Institute of Technology, and on his last trip to the United States he was offered a position in the newly established Institute for Advanced Studies in Princeton, Massachusetts. He went there in 1933.

Einstein played a key role (1939) in the construction of the atomic bomb by signing a famous letter to President Franklin D. Roosevelt (1882–1945). It said that the Germans had made scientific advances and that it was possible that Adolf Hitler (1889–1945, the German leader whose actions led to World War II [1939–45]), might become the first to have atomic weapons. This led to an all-out U.S. effort to construct such a bomb. Einstein was deeply shocked and saddened when his famous equation E=mc 2 was finally demonstrated in the most awesome and terrifying way by using the bomb to destroy Hiroshima, Japan, in 1945. For a long time he could only utter "Horrible, horrible."

It would be difficult to find a more suitable epitaph (a brief statement summing up a person's person's life) than the words Einstein himself used in describing his life: "God …gave me the stubbornness of a mule and nothing else; really …He also gave me a keen scent." On April 18, 1955, Einstein died in Princeton.

For More Information

Cwiklik, Robert. Albert Einstein and the Theory of Relativity. New York: Barron's Educational Series, 1987.

Goldberg, Jake. Albert Einstein. New York: Franklin Watts, 1996.

Goldenstern, Joyce. Albert Einstein: Physicist and Genius. Springfield, NJ: Enslow Publishers, 1995.

Hammontree, Marie. Albert Einstein: Young Thinker. New York: Aladdin, 1986.

Ireland, Karin. Albert Einstein. Englewood Cliffs, NJ: Silver Burdett Press, 1989.

McPherson, Stephanie Sammartino. Ordinary Genius: The Story of Albert Einstein. Minneapolis: Carolrhoda Books, 1995.

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Albert Einstein (1879 - 1955)

Albert Einstein was born at Ulm in Baden-Wurttemberg, Germany, on March 14, 1879, into a non-observant Jewish family. At age 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.

Although considered a slow learner, possibly due to dyslexia, simply shyness or the significantly rare and unusual structure his brain (examined after his death), Einstein built models and mechanical devices for fun. Another, more recent, theory about his mental development is that he had Asperger's syndrome, a condition related to autism.

Einstein began to learn mathematics around age 12. In 1894, his family moved from Munich to Pavia, Italy (near Milan), and this same year Einstein wrote his first scientific work, The Investigation of the State of Aether in Magnetic Fields. He continued his education at Aarau, Switzerland, and in 1896, he entered the Swiss Federal Polytechnic School in Zurich to be trained as a teacher in physics and mathematics. In 1901, he gained his diploma and acquired Swiss citizenship. Unable to find a teaching post, he accepted a position as technical assistant in the Swiss Patent Office, obtaining his doctor's degree in 1905.

In 1908, Einstein was appointed Privadozent in Berne. The next year, he became Professor Extraordinary in Zurich, and in 1911 Professor of Theoretical Physics at Prague, returning to Zurich in 1912 to fill a similar post. In 1914, he was appointed Director of the Kaiser Wilhelm Physical Institute and Professor in the University of Berlin. He became a German citizen in 1914 and remained in Berlin until 1933, when he renounced his citizenship for political reasons and emigrated to America to take the position of Professor of Theoretical Physics at Princeton. He became a U.S. citizen in 1940 and retired from his post in 1945.

In his early days in Berlin, Einstein postulated that they correct interpretation of the special theory of relativity must also furnish a theory of gravitation, and in 1916 he published his paper on the general theory of relativity. During this time, he also contributed to the problems of the theory of radiation and statistical mechanics. In the 1920s, he embarked on the construction of unified field theories, continuing to work on the probabilistic interpretation of quantum theory, and he persevered with this work in America. He won a Nobel Prize for Physics in 1921 "for his services to Theoretical Physics, and especially for his discovery of the law of the photoelectric effect." He contributed to statistical mechanics by his development of the quantum theory of a monatomic gas, and he has also accomplished valuable work in connection with atomic transition probabilities and relativistic cosmology.

Einstein initially favored construction of the atomic bomb, in order to ensure that Hitler did not do so first, and even sent a letter, dated August 2, 1939, to President Roosevelt 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, however, Einstein lobbied for nuclear disarmament and a world government. Along with Albert Schweitzer and Bertrand Russell, he 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.

Einstein's latter years were also spent searching for a unified field theory, for a universal force that would link gravitation with electromagnetic and subatomic forces, a problem on which no one to date has been entirely successful.

Einstein received honorary doctorate degrees in science, medicine and philosophy from many European and American universities. During the 1920s, he lectured in Europe, America and the Far East and was awarded Fellowships or Memberships to all of the leading scientific academies throughout the world. He gained numerous awards in recognition of his work, including the Copley Medal of the Royal Society of London in 1925, and the Franklin Medal of the Franklin Institute in 1935.

Einstein married Mileva Maric in 1903, and they had a daughter and two sons; the marriage was dissolved in 1919, and that same year he married his cousin Elsa Lowenthal, who died in 1936. Einstein died on April 18, 1955, in Princeton, New Jersey. Element 99 was named einsteinium (Es) in his honor.

Albert Einstein

• Occupation: Physicist
• Born: March 14, 1879 in Ulm, Germany
• Died: April 18, 1955 in Princeton, New Jersey
• Best known for: Founder of modern physics and the formula E=MC2

Overview and Interesting Facts

• His birthday, March 14, is also known as "Pi" day because 3/14 makes up the first three digits of the number pi (3.14).
• When a young Einstein was introduced to his new baby sister, he thought that she was a toy his parents had bought for him. After looking her over for a few minutes he responded "where are the wheels?"
• Einstein's parents initially wanted to name him "Abraham" but, according to Albert, they eventually thought the name sounded "too Jewish" and opted for another "A" name, "Albert."
• While working at the patent office, Einstein found he could get his daily job done in just a few hours. This left the rest of the day open for him to work on his own scientific theories.
• Einstein and two of his best friends formed a discussion group they jokingly called the Olympia Academy where they debated physics theories and philosophy.
• When his son Hans Albert announced that he wanted to be an engineer Einstein replied "I think it's a disgusting idea."
• In 1921, the United States Senate debated the Theory of Relativity while Einstein was visiting the United States.
• Einstein chose to exchange letters with Sigmund Freud in 1932 to discuss politics and war. Freud was also a known pacifist. Einstein suggested in his letters that the only way to end war was to have an international organization with more power than the current League of Nations.
• When Einstein discovered that the Germans had put a $5,000 bounty on his head he replied "I didn't know it was worth that much!"
• He once had a pet parrot named Bibo.
• The FBI gathered 1,427 pages of information while investigating Einstein to determine if he was a communist. Einstein wasn't a communist and no incriminating evidence was found. Oddly enough, Einstein did unknowingly have an affair with a Soviet spy. Fortunately for him, the FBI didn't discover the affair despite their ongoing investigation.
• When asked if he believed in immortality Einstein responded "No. And one life is enough for me."
• Einstein was once playing violin in a quartet that included a famous violin virtuoso. When Einstein's timing got off the frustrated virtuoso stopped playing and said "What's the matter professor, can't you count?"
• He nicknamed his violin Lina.
• Einstein loved to walk, but didn't drive. His wife Elsa once said "The professor does not drive. It's too complicated for him."

• Growing up Einstein
• Education, the Patent Office, and Marriage
• The Miracle Year
• Theory of General Relativity
• Academic Career and Nobel Prize
• Leaving Germany and World War II
• More Discoveries
• Later Life and Death
• Albert Einstein Quotes and Bibliography

• Science & Math

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Albert Einstein: A Biography Hardcover – March 1, 1997

• Print length 889 pages
• Language English
• Publisher Viking Adult
• Publication date March 1, 1997
• Dimensions 6 x 2 x 9.25 inches
• ISBN-10 0670855456
• ISBN-13 978-0670855452
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• Publisher ‏ : ‎ Viking Adult; 1st edition (March 1, 1997)
• Language ‏ : ‎ English
• Hardcover ‏ : ‎ 889 pages
• ISBN-10 ‏ : ‎ 0670855456
• ISBN-13 ‏ : ‎ 978-0670855452
• Item Weight ‏ : ‎ 3 pounds
• Dimensions ‏ : ‎ 6 x 2 x 9.25 inches
• #342 in Relativity Physics (Books)
• #89,228 in Biographies (Books)

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The 15 Best Documentaries About Albert Einstein

Oct 20, 2023 | Best Of , Celebrities , History , Science

When it comes to understanding one of history’s greatest minds, no other resource is more revealing and engaging than documentaries about Albert Einstein. Through a combination of archival footage, interviews with experts in the field, and reenactments of key moments from his life, these documentaries bring alive the brilliance of the Nobel Prize-winning physicist. As we trace his journey from student to scientist, it’s remarkable to see how Einstein changed and shaped the world of science in so many ways. From his revolutionary theories on relativity to his pioneering work with quantum mechanics, these documentaries will leave you inspired by the genius that was Albert Einstein.

1. Einstein (2008)

2. Working With Einstein (1979)

3. Einstein’s Universe (1979)

4. Einstein and the Theory of Relativity (2020)

5. Inside Einstein’s Mind (2015)

The 10 Best Free Documentaries About Albert Einstein

1. albert einstein full documentary hd 2015.

Einstein’s scientific discoveries shook the foundations of most existing theories and opened a world of possibilities. This documentary looks at the life and work of Albert Einstein, the genius who changed the way we look at our universe. Through interviews with scientists, historians, and experts on his life, this film takes an in-depth look at how he made such revolutionary leaps in science, and how his discoveries have impacted our lives today. From the basics of relativity to his groundbreaking work on quantum mechanics, Albert Einstein’s impact on the world is undeniable.

2. Albert Einstein – Greatest Brain of the 20th Century Documentary

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3. Albert Einstein – Biography of a Genius – Full Documentary

Albert Einstein was a Nobel Prize-winning physicist who revolutionized the field of science with his groundbreaking theories and discoveries. His most famous equation, E = m c2, is known as one of the world’s most recognizable equations. He developed two major pillars of modern physics : quantum mechanics and the theory of relativity. With these discoveries he forever changed the way scientists viewed the universe. He was also influential in the philosophy of science, and received the Nobel Prize for his work on Photoelectric effect which was a major step towards quantum theory. His impact on mankind has been extraordinary and he continues to be an inspiration for generations of scientists to come.

4. Theory Of Relativity Full Documentary – Best Story Of Albert Einstein’s Extraordinary Universe

Einstein’s Extraordinary Universe is a documentary that traverses three different regions to explore the legacy of Albert Einstein. By visiting research facilities across the globe, viewers can glimpse into how his theories continue to shape and challenge our understanding of the universe today—a full century after he first published them. The documentary provides audiences with an up-close and personal look into the science of our universe through engaging interviews, stunning visuals and other immersive elements. It is a great way to learn more about this remarkable man and his lasting impact on modern science.

5. Albert Einstein – Genius – Physics – Science – Part 1

Are you interested in learning more about one of the most brilliant minds of the 20th century? Do you want to uncover fascinating stories about Albert Einstein and his influence on modern science? Look no further than ExoticWorldVideos. Here, you can explore and appreciate some of the best documentaries about one of history’s greatest inventors. Einstein’s theories of relativity revolutionized the way we look at the world.

6. Albert EINSTEIN 1879 – 1955 HD Real Video Footage of His Life

Filmgoers get an intimate look into the life of Albert Einstein, from his pioneering work in theoretical physics to his later years advocating for peace and nuclear disarmament. Through newsreel, film, and home movie footage, we witness the incredible story of one of the world’s greatest minds. From his early success as a student to international accolades such as the Nobel Prize in Physics, Einstein’s brilliance and impact are made tangible. In addition, his commitment to world peace is clearly seen as he speaks out against nuclear arms during the height of the Cold War. From intellectual prodigy to humanitarian leader, this documentary provides a comprehensive look into the life of Albert Einstein.

7. Albert Einstein – Documentary

Copyright Disclaimer: This content is protected under the US Copyright Act of 1976. Fair use and educational purposes are considered when creating this material, allowing for comment, criticism, news reporting, teaching, scholarship and research. It is not intended to infringe upon any copyrights but rather to provide a unique perspective on the Albert Einstein documentaries. To ensure fair usage it is encouraged to keep the content non-profit, educational or for personal use. There are plenty of documentaries about Albert Einstein available to watch that explore his life and work. Some provide a comprehensive look into his scientific achievements while others focus on more personal aspects such as his relationships and philosophy on life.

8. Albert Einstein – Genius – Physics – Science – Part 2

As a child, I was fascinated by stories of extraordinary scientists who made amazing discoveries and pushed the boundaries of science. In particular, I was drawn to Albert Einstein — the man who revolutionized modern physics with his Theory of Relativity. To this day, his theories are studied and discussed in classrooms around the world. There have been many documentaries produced about Albert Einstein over the years, and they offer a wealth of information on his life and work. From his groundbreaking scientific research to his personal struggles, each documentary provides an in-depth look at one of history’s most influential figures.

9. What Inside Albert Einstein Mind The Theory of General Relativity Documentary NOVA Full HD

Albert Einstein is one of the most iconic and influential scientific figures in history. His theories of relativity have shaped our knowledge and understanding of physics, and his genius continues to fascinate people across the world. To get an even greater insight into this brilliant man’s life, there are a number of documentaries available which explore the subject in depth. NOVA’s ‘What’s Inside Albert Einstein’s Mind? The Theory of General Relativity Documentary’ is one such film, providing a comprehensive look at the theories which formed the basis of modern physics.

10. Albert Einstein Documentary

Explore the life of world-renowned physicist, Albert Einstein, with our comprehensive collection of eBooks and audiobooks. Our selection covers a range of topics from his childhood to his contribution to modern science and beyond. Get an in-depth look at Einstein’s theories, his family life, and much more – all provided through engaging texts and interviews. With such a rich collection of material, Einstein fans and students alike will be able to discover new details about this fascinating figure. Whether it’s learning more about his groundbreaking discoveries or delving into the life he led, you can find all the answers in our selection of titles.

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The embodiment of genius and the pre-eminent scientist of the modern age, his theories and discoveries have profoundly affected the way people view and understand the world and their place in it. Einstein was also known as a philosopher and humanist who was keenly interested in and concerned about the affairs of the world.

His sagacious, wise, and humorous quotations, letters, and articles are widely used throughout popular culture as well as in historical and academic works. Einstein’s name and image are instantly recognizable everywhere in the world.

Albert Einstein was a theoretical physicist and the most famous scientist in human history. He developed the general theory of relativity, one of the two pillars of modern physics, alongside quantum mechanics. He is perhaps best known in popular culture for his mass/energy equivalence formula E=mc2. In 1921 he received the Nobel Prize in Physics for his “services to theoretical physics”, and in particular his discovery of the photoelectric effect, a pivotal step in the evolution of quantum theory.

Einstein was born in Ulm, Germany on March 14, 1879. As a child, he exhibited an extraordinary curiosity for and understanding of the mysteries of science. The young Einstein also took music lessons, playing both violin and piano; stoking a passion for music that he maintained throughout his life. Moving first to Italy and then Switzerland, the young prodigy graduated from high school in 1896.

In 1905, while working as a patent clerk in Bern, Switzerland, Einstein had what came to be known as his “Annus Mirabilis” (miracle year). It was during this time that the young physicist obtained his Doctorate degree and published four of his most influential research papers, including the Special Theory of Relativity, the Photoelectric Effect, Brownian Motion, and Mass/Energy Equivalence, and his worldwide fame was assured. In 1915, Einstein completed his General Theory of Relativity, and brought to the world a fuller understanding of the interaction of space, time and gravity.

The practical applications of Einstein’s theories include the development of everyday and indispensable items such as Televisions, Remote Controls, Digital Cameras, and GPS tracking systems.

In 1999 Albert Einstein was recognized by TIME Magazine as the “Person of the Century”. Einstein’s intellect, along with his wise and passionate dedication to the causes of social justice and pacifism, left humanity with a fuller understanding of its place in the universe and with pioneering moral guidance for future generations.

Einstein's Influence

Below you will find a selection of the industries and fields of research still reverberating from Einstein’s genius.

Theoretical Physics

Special Relativity, General Relativity, Brownian Motion, Photoelectric Effect

Patent Industry

Founded Swiss Patent Office

GPS Technologies

Theories of Relativity Applied to Satellite Navigation Systems

Mathematics

Differential Geometry, Tensor Calculus

Aerospace and Aeronautics

Early Theories on Relativity Impacting Space Travel

Computing and Information Theory

Early Work on Quantum Computing and Information Theory

Theoretical Cosmology, Cosmological Constant, Expanding Universe Theory

Early Work on Nuclear Energy, Advocacy for Peaceful use of Nuclear Power

Philosophy of Science

Discussions on the Nature of Reality and Scientific Theories

Quantum Theory

Wave-Particle Duality, Quantum Entanglement

Nuclear Technology

Theoretical Foundations for Nuclear Fission and Fusion

Social Sciences

Advocacy for Civil Rights and Social Justice Change

Academia and Education

University Teaching. Scientific Research Institutions

Photonics and Quantum Optics

Quantum Theory of Light, Photoelectric Cells

Military Technology

Indirect Influence through the Development of the Atomic Bomb

5 Fascinating Facts About Albert Einstein

One of science's greatest minds of all time, Albert Einstein , was born on March 14, 1879, at his family's home in Ulm, Germany. He shares his birthday with Pi Day, a celebration of this special never-ending number. Einstein's life in science started early, with him writing his first scientific paper when he was only a teenager. In 1905, Einstein published several influential works, tackling such topics as relativity and introducing his most famous equation on mass and energy E=mc2. And, in 1921, he earned the Nobel Prize in physics.

Let's take a closer look at the life of this incredible genius:

Einstein was a late talker

His parents worried that there was something wrong with him early on and even had him examined by doctors. He didn't really start using words until after he was two years old, but even after he started speaking, he often took unnatural pauses. No one knew in these very early years that they had a genius on their hands. In fact, many biographies on Einstein include the family maid's opinion of young Einstein. She thought he was "a dope." While he was slow with language, Einstein showed early sparks of interest in science. A gift of a compass from his father when he was five years old led to a lifetime fascination with magnetic fields.

READ MORE: What Was Albert Einstein's IQ?

Einstein wasn't a big fan of school

Despite some claims, he actually did well in his classes, especially math and science. Einstein, however, didn't like the way he was taught. He later remarked that "It is almost a miracle that modern teaching methods have not yet entirely strangled the holy curiosity of inquiry; for what this delicate little plant needs more than anything, besides stimulation, is freedom," according to an article on the American Institute of Physics website .

Some of his most important learning was done outside of class. His uncle, Jakob Einstein, introduced him to algebra. A young Jewish medical student, Max Talmud, also served as an advisor of sorts. Talmud visited the Einstein home for dinner weekly for a time and brought books for young Einstein to read. These influential texts included People's Books on Natural Science and philosophical works by Immanuel Kant and David Hume.

Einstein had a lifelong passion for music

At the age of 6, he took up the violin at his mother's request. Einstein was quickly won over by classical music, especially the works of Wolfgang Mozart . According to Jürgen Neffe's Einstein: A Biography , Einstein once said that "Mozart's music is so pure and beautiful that I see it as a reflection of the inner beauty of the universe."

Over the years, Einstein became quite a skilled musician. A 17-year-old Einstein earned praise from his rendition of a Beethoven sonata he played for an exam at school. The evaluator stated that he "shone in a deeply felt performance," according to Physics World magazine. For the rest of his life, music would be a source of joy for the famous scientist.

Einstein had a daughter, but no one really knows what happened to her

He became involved with fellow student Mileva Marić and she gave birth to a daughter in 1902. The child was named Lieserl. Einstein and Mileva were unwed and living apart at the time of the child's birth. When they were reunited later, Mileva did not have the baby with her. There has been much speculation about Lieserl's fate over the years, from her being raised by relatives or put up for adoption or dying young from illness. But no one knows for certain what became of Lieserl. Einstein and Mileva later married and had two sons, Hans Albert and Eduard, before divorcing in 1919.

Not only was he a great scientist, but Einstein was also passionate about social issues

He had been a pacifist during World War I , but he became concerned at the rising anti-Semitism in Germany following the war. He began to speak out in favor of creating a homeland for the Jewish people in Palestine. Einstein visited the United States in the early 1920s to raise funds for what is now known as Hebrew University. In 1952, he was even invited to become the president of Israel, but he turned the job down.

Einstein also supported the civil rights movement in America. In the 1940s, he penned the essay "The Negro Question," which appeared in Pageant magazine. Einstein wrote that the racial divide in his new homeland (he became a U.S. citizen in 1940) deeply troubled him. "I can escape the feeling of complicity in it only by speaking out." A member of the NAACP, Einstein considered racism to be the "worst disease" in the country.

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