biography about stephen hawking

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Stephen Hawking

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When was Stephen Hawking born?

Stephen Hawking was born on January 8, 1942.

When did Stephen Hawking die?

Stephen Hawking died on March 14, 2018.

Where did Stephen Hawking get his education?

Stephen Hawking received a bachelor’s degree in physics from University College, Oxford , in 1962 and a doctorate in physics from Trinity Hall, Cambridge , in 1966.

What was Stephen Hawking famous for?

Stephen Hawking worked on the physics of black holes . He proposed that black holes would emit subatomic particles until they eventually exploded. He also wrote best-selling books, the most famous of which was A Brief History of Time: From the Big Bang to Black Holes (1988).

Stephen Hawking (born January 8, 1942, Oxford , Oxfordshire, England—died March 14, 2018, Cambridge, Cambridgeshire) was an English theoretical physicist whose theory of exploding black holes drew upon both relativity theory and quantum mechanics . He also worked with space-time singularities.

Hawking studied physics at University College, Oxford ( B.A. , 1962), and Trinity Hall, Cambridge ( Ph.D. , 1966). He was elected a research fellow at Gonville and Caius College at Cambridge. In the early 1960s Hawking contracted amyotrophic lateral sclerosis , an incurable degenerative neuromuscular disease. He continued to work despite the disease’s progressively disabling effects.

Hawking worked primarily in the field of general relativity and particularly on the physics of black holes. In 1971 he suggested the formation, following the big bang , of numerous objects containing as much as one billion tons of mass but occupying only the space of a proton . These objects, called mini black holes , are unique in that their immense mass and gravity require that they be ruled by the laws of relativity, while their minute size requires that the laws of quantum mechanics apply to them also. In 1974 Hawking proposed that, in accordance with the predictions of quantum theory, black holes emit subatomic particles until they exhaust their energy and finally explode. Hawking’s work greatly spurred efforts to theoretically delineate the properties of black holes, objects about which it was previously thought that nothing could be known. His work was also important because it showed these properties’ relationship to the laws of classical thermodynamics and quantum mechanics.

Hawking’s contributions to physics earned him many exceptional honours. In 1974 the Royal Society elected him one of its youngest fellows. He became professor of gravitational physics at Cambridge in 1977, and in 1979 he was appointed to Cambridge’s Lucasian professorship of mathematics, a post once held by Isaac Newton . Hawking was made a Commander of the Order of the British Empire (CBE) in 1982 and a Companion of Honour in 1989. He also received the Copley Medal from the Royal Society in 2006 and the U.S. Presidential Medal of Freedom in 2009. In 2008 he accepted a visiting research chair at the Perimeter Institute for Theoretical Physics in Waterloo, Ontario, Canada.

His publications included The Large Scale Structure of Space-Time (1973; coauthored with G.F.R. Ellis), Superspace and Supergravity (1981), The Very Early Universe (1983), and the best sellers A Brief History of Time: From the Big Bang to Black Holes (1988), The Universe in a Nutshell (2001), A Briefer History of Time (2005), and The Grand Design (2010; coauthored with Leonard Mlodinow).

Biography Online

Stephen Hawking Biography

Early life Stephen Hawking

Stephen William Hawking was born on 8 January 1942 in Oxford, England. His family had moved to Oxford to escape the threat of V2 rockets over London. As a child, he showed prodigious talent and unorthodox study methods. On leaving school, he got a place at University College, Oxford University where he studied Physics. His physics tutor at Oxford, Robert Berman, later said that Stephen Hawking was an extraordinary student. He used few books and made no notes, but could work out theorems and solutions in a way other students couldn’t.

“My goal is simple. It is a complete understanding of the universe, why it is as it is and why it exists at all.”

– Stephen Hawking’s Universe (1985) by John Boslough, Ch. 7

It was in Cambridge that Stephen Hawking first started to develop symptoms of neuro-muscular problems – a type of motor neuron disease. This quickly started to hamper his physical movements. His speech became slurred, and he became unable to even to feed himself. At one stage, the doctors gave him a lifespan of three years. However, the progress of the disease slowed down, and he has managed to overcome his severe disability to continue his research and active public engagements. At Cambridge, a fellow scientist developed a synthetic speech device which enabled him to speak by using a touchpad. This early synthetic speech sound has become the ‘voice’ of Stephen Hawking, and as a result, he has kept the original sound of this early model – despite technological advancements.

Nevertheless, despite the latest technology, it can still be a time-consuming process for him to communicate. Stephen Hawking has taken a pragmatic view to his disability:

“It is a waste of time to be angry about my disability. One has to get on with life and I haven’t done badly. People won’t have time for you if you are always angry or complaining. ” The Guardian (27 September 2005)

Stephen Hawking’s principal fields of research have been involved in theoretical cosmology and quantum gravity.

Amongst many other achievements, he developed a mathematical model for Albert Einstein’s General Theory of Relativity. He has also undertaken a lot of work on the nature of the Universe, The Big Bang and Black Holes.

In 1974, he outlined his theory that black holes leak energy and fade away to nothing. This became known as “Hawking radiation” in 1974. With mathematicians Roger Penrose he demonstrated that Einstein’s General Theory of Relativity implies space and time would have a beginning in the Big Bang and an end in black holes.

Despite being one of the best physicists of his generation, he has also been able to translate difficult physics models into a general understanding for the general public. His books – A Brief History of Time and The Universe in A Nutshell have both became runaway bestsellers – with a Brief History of Time staying in the Bestsellers lists for over 230 weeks and selling over 10 million copies. In his books, Hawking tries to explain scientific concepts in everyday language and give an overview to the workings behind the cosmos.

“The whole history of science has been the gradual realization that events do not happen in an arbitrary manner, but that they reflect a certain underlying order, which may or may not be divinely inspired.”

– A Brief History Of Time (1998) ch. 8

Stephen Hawking has become one of the most famous scientists of his generation. He makes frequent public engagements and his portrayed himself in popular media culture from programmes, such as The Simpsons to Star Trek.

Hawking had the capacity to relate the most complex physics to relateable incidents in everyday life.

“The message of this lecture is that black holes ain’t as black as they are painted. They are not the eternal prisons they were once thought. Things can get out of a black hole both on the outside and possibly to another universe. So if you feel you are in a black hole, don’t give up – there’s a way out.”

Stephen Hawking. 7 January 2016 – Reith lecture at the Royal Institute in London.

In the late 1990s, he was reportedly offered a knighthood, but 10 years later revealed he had turned it down over issues with the government’s funding for science

He married Jane Wilde, a language student in 1965. He said this was a real turning point for him at a time when he was fatalistic because of his illness. They later divorced but had three children.

Stephen Hawking passed away on 14 March 2018 at his home in Cambridge.

Citation: Pettinger, Tejvan . “ Biography of Stephen Hawking ”, Oxford, UK – www.biographyonline.net . Last updated 15 January 2018.

A Brief History Of Time

A Brief History Of Time by Stephen Hawking at Amazon

Quotes of Stephen Hawking

“If we do discover a complete theory, it should in time be understandable in broad principle by everyone, not just a few scientists. Then we shall all, philosophers, scientists, and just ordinary people, be able to take part in the discussion of the question of why it is that we and the universe exist. If we find the answer to that, it would be the ultimate triumph of human reason — for then we would know the mind of God.”

– Black Holes and Baby Universes and Other Essays (1993)

“Even if there is only one possible unified theory, it is just a set of rules and equations. What is it that breathes fire into the equations and makes a universe for them to describe? The usual approach of science of constructing a mathematical model cannot answer the questions of why there should be a universe for the model to describe. Why does the universe go to all the bother of existing?”

– A Brief History of Time (1988)

“One, remember to look up at the stars and not down at your feet. Two, never give up work. Work gives you meaning and purpose and life is empty without it. Three, if you are lucky enough to find love, remember it is there and don’t throw it away.”

– Stephen Hawking

“For millions of years, mankind lived just like the animals. Then something happened which unleashed the power of our imagination. We learned to talk and we learned to listen. Speech has allowed the communication of ideas, enabling human beings to work together to build the impossible. Mankind’s greatest achievements have come about by talking, and its greatest failures by not talking. It doesn’t have to be like this. Our greatest hopes could become reality in the future. With the technology at our disposal, the possibilities are unbounded. All we need to do is make sure we keep talking.”

– Stephen Hawking (BT advert 1993)

Stephen Hawking.org.uk

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Stephen Hawking biography: Theories, books & quotes

A brief history of theoretical physicist Stephen Hawking.

Professor Stephen Hawking speaks about "Why We Should Go into Space" for the NASA Lecture Series, April 21, 2008

Scientific achievements
Filmography
Quotes and controversial statements

Additional resources

Stephen Hawking is regarded as one of the most brilliant theoretical physicists in history.

His work on the origins and structure of the universe, from the Big Bang to black holes, revolutionized the field, while his best-selling books have appealed to readers who may not have Hawking's scientific background. Hawking died on March 14, 2018 , at the age of 76.

Stephen Hawking was seen by many as the world's smartest person, though he never revealed his IQ score. When asked about his IQ score by a New York Times reporter he replied, "I have no idea, people who boast about their IQ are losers," according to the news site The Atlantic .

Related: 4 bizarre Stephen Hawking theories that turned out to be right (and 6 we're not sure about)

In this brief biography, we look at Hawking's education and career — ranging from his discoveries to the popular books he's written — and the disease that robbed him of mobility and speech.

The early life of Stephen Hawking

British cosmologist Stephen William Hawking was born in Oxford, England on Jan. 8, 1942 — 300 years to the day after the death of the astronomer Galileo Galilei . He attended University College, Oxford, where he studied physics, despite his father's urging to focus on medicine. Hawking went on to Cambridge to research cosmology , the study of the universe as a whole.

In early 1963, just shy of his 21st birthday, Hawking was diagnosed with motor neuron disease, more commonly known as Lou Gehrig's disease or amyotrophic lateral sclerosis (ALS) . Doctors told Hawkings that he would likely not survive more than two years with the disease. Completing his doctorate did not appear likely, but Hawking defied the odds. He also obtained his PhD in 1966 for his thesis entitled " Properties of expanding universes ". In that same year, Hawking also won the prestigious Adams Prize for his essay entitled "Singularities and the Geometry of Space-Time".

From then Hawking went on to forge new roads into the understanding of the universe in the decades since.

As the disease spread, Hawking became less mobile and began using a wheelchair. Talking grew more challenging and, in 1985, an emergency tracheotomy caused his total loss of speech. A speech-generating device constructed at Cambridge, combined with a software program, served as his electronic voice, allowing Hawking to select his words by moving the muscles in his cheek.

Just before his diagnosis, Hawking met Jane Wilde, and the two were married in 1965. The couple had three children before separating in 1990. Hawking remarried in 1995 to Elaine Mason but divorced in 2006.

Stephen Hawking's greatest scientific achievements

Stephen Hawking pictured in Princeton, New Jersey, in 1979

Throughout his career, Hawking proposed several theories regarding astronomical anomalies, posed curious questions about the cosmos and enlightened the world about the origin of everything. Here are just some of the many milestones Hawking made in the name of science.

In 1970, Hawkings and fellow physicist and Oxford classmate, Roger Penrose, published a joint paper entitled " The singularities of gravitational collapse and cosmology ". In this paper, Hawking and Penrose proposed a new theory of spacetime singularities — a breakdown in the fabric of the universe found in one of Hawking's later discoveries, the black hole. This early work not only challenged concepts in physics but also supported the concept of the Big Bang as the birth of the universe, as outlined in Albert Einstein's theory of general relativity in the 1940s.

Over the course of his career, Hawking studied the basic laws governing the universe. In 1974, Hawking published another paper called " Black hole explosions? ", in which he outlined a theorem that united Einstein's theory of general relativity, with quantum theory — which explains the behavior of matter and energy on an atomic level. In this new paper, Hawking hypothesized that matter not only fell into the gravitational pull of black holes but that photons radiated from them — which has now been confirmed in laboratory experiments by the Technion-Israel Institute of Technology in Israel — aptly named "Hawking radiation".

Professor Stephen Hawking experiences the freedom of weightlessness during a zero gravity flight.

In 1974, Hawking was inducted into the Royal Society, a worldwide fellowship of scientists. Five years later, he was appointed Lucasian Professor of Mathematics at Cambridge, the most famous academic chair in the world (the second holder was Sir Isaac Newton , also a member of the Royal Society).

During the 1980s, Hawking turned his attention to the Big Bang and the uncertainties about the beginning of the universe. "Events before the Big Bang are simply not defined, because there’s no way one could measure what happened at them. Since events before the Big Bang have no observational consequences, one may as well cut them out of the theory and say that time began at the Big Bang," he said during his lecture called The Beginning of Time . In 1983, Hawking, along with scientists James Harlte, published a paper outlining their " no-boundary proposal " for the universe. In their paper, Hawking and Hartle describe the shape of the universe as reminiscent of a shuttlecock — with the Big Bang at the narrowest point and the expanding universe emerging from it.

Related: Can we time travel? A theoretical physicist provides some answers

Books by Stephen Hawking

In the last three decades of Hawking's life, he not only continued to publish academic literature, but he also published several popular science books to share his theories of the history of the universe with the layperson. His most popular book " A Brief History of Time " (10th-anniversary edition: Bantam, 1998) was first published in 1988 and became an international bestseller. It has sold almost 10 million copies and has been translated into 40 different languages.

Hawking went on to write other nonfiction books aimed at non-scientists. These include " A Briefer History of Time ," " The Universe in a Nutshell ," " The Grand Design " and " On the Shoulders of Giants ."

Along with his many successful books about the inner workings of the universe, Hawking also began a series of science fiction books called " George and the Big Bang ", with his daughter Lucy Hawking in 2011. Aimed at middle school children, the series follows George's adventures as he travels through space.

Stephen Hawking's filmography

Hawking has made several television appearances, including a playing hologram of himself on "Star Trek: The Next Generation" and a cameo on the television show "Big Bang Theory." He has also voiced himself in several episodes of the animated series "Futurama" and "The Simpson". In 1997, PBS also presented an educational miniseries titled " Stephen Hawking's Universe ," which probes the theories of the cosmologist.

In 2014, a movie based on Hawking's life was released. Called "The Theory of Everything," the film drew praise from Hawking , who said it made him reflect on his own life. "Although I'm severely disabled, I have been successful in my scientific work," Hawking wrote on Facebook in November 2014. "I travel widely and have been to Antarctica and Easter Island, down in a submarine and up on a zero-gravity flight. One day, I hope to go into space."

Related: The Theory of Everything: Searching for the universal rules of physics

Stephen Hawking's quotes and controversial statements

Hawking's quotes range from notable to poetic to controversial. Among them:

"Even if there is only one possible unified theory, it is just a set of rules and equations. What is it that breathes fire into the equations and makes a universe for them to describe? The usual approach of science of constructing a mathematical model cannot answer the questions of why there should be a universe for the model to describe. Why does the universe go to all the bother of existing? "— A Brief History of Time: From the Big Bang to Black Holes , 1988
"All of my life, I have been fascinated by the big questions that face us, and have tried to find scientific answers to them. If, like me, you have looked at the stars, and tried to make sense of what you see, you too have started to wonder what makes the universe exist."— Stephen Hawking's Universe , 1997.
"Science predicts that many different kinds of universe will be spontaneously created out of nothing. It is a matter of chance which we are in." — The Guardian, 2011 .
"We should seek the greatest value of our action." — The Guardian, 2011.
"The whole history of science has been the gradual realization that events do not happen in an arbitrary manner, but that they reflect a certain underlying order, which may or may not be divinely inspired. "— A Brief History of Time: From the Big Bang to Black Holes , 1988.
"The greatest enemy of knowledge is not ignorance, it is the illusion of knowledge."
"It is not clear that intelligence has any long-term survival value." — Life in the Universe , 1996.
"One cannot really argue with a mathematical theorem." — A Brief History of Time: From the Big Bang to Black Holes , 1988.
"It is a waste of time to be angry about my disability. One has to get on with life and I haven't done badly. People won't have time for you if you are always angry or complaining." — The Guardian, 2005 .
"I relish the rare opportunity I've been given to live the life of the mind. But I know I need my body and that it will not last forever." — Stem Cell Universe , 2014.

Stephen Hawking in front of a projection with a starry background and the text

A list of Hawking quotes would be incomplete without mentioning some of his more controversial statements.

He frequently said that humans must leave Earth if we wished to survive.

"It will be difficult enough to avoid disaster in the next hundred years, let alone the next thousand or million...Our only chance of long-term survival is not to remain inward-looking on planet Earth, but to spread out into space," he said during an interview with video site Big Think , 2010.
"[W]e must … continue to go into space for the future of humanity…I don't think we will survive another 1,000 years without escaping beyond our fragile planet," Hawking said during a lecture at the Oxford Union debating society , 2016.
"We are running out of space and the only places to go to are other worlds. It is time to explore other solar systems. Spreading out may be the only thing that saves us from ourselves. I am convinced that humans need to leave Earth," he said during a speech at the Starmus Festival in Norway, 2017.

He also said time travel should be possible, and that we should explore space for the romance of it.

"Time travel used to be thought of as just science fiction, but Einstein's general theory of relativity allows for the possibility that we could warp space-time so much that you could go off in a rocket and return before you set out. I was one of the first to write about the conditions under which this would be possible. I showed it would require matter with negative energy density, which may not be available. Other scientists took courage from my paper and wrote further papers on the subject," he told the new site Parade in 2010. "Science is not only a disciple of reason, but, also, one of romance and passion," he adds.

The theoretical physicist was also concerned that robots could not only have an impact on the economy but also mean doom for humanity.

"The automation of factories has already decimated jobs in traditional manufacturing, and the rise of artificial intelligence is likely to extend this job destruction deep into the middle classes, with only the most caring, creative or supervisory roles remaining," he wrote in a 2016 column in The Guardian .

"The development of full artificial intelligence could spell the end of the human race," he told the BBC in 2014. Hawking added, however, that AI developed to date has been helpful. It's more the self-replication potential that worries him. "It would take off on its own, and re-design itself at an ever-increasing rate. Humans, who are limited by slow biological evolution, couldn't compete, and would be superseded."

"The genie is out of the bottle. I fear that AI may replace humans altogether," Hawking told WIRED in November 2017.

An avowed atheist, Hawking also occasionally waded into the topic of religion.

"Because there is a law such as gravity, the universe can and will create itself from nothing. Spontaneous creation is the reason there is something rather than nothing, why the universe exists, why we exist. It is not necessary to invoke God to light the blue touch paper and set the universe going." — The Grand Design, by Stephen Hawking and Leonard Mlodinow.
"I regard the brain as a computer which will stop working when its components fail…There is no heaven or afterlife for broken down computers; that is a fairy story for people afraid of the dark," he said during a 2011 interview with The Guardian .
"Before we understand science, it is natural to believe that God created the universe. But now science offers a more convincing explanation. What I meant by 'we would know the mind of God' is, we would know everything that God would know, if there were a God, which there isn't. I'm an atheist," Hawking said in a 2014 interview with the news site El Mundo .

For more information about Stephen Hawking, his theories and read through the many transcriptions of his influential lectures, check out his official website . You can also watch Hawking probe the origins of the cosmos in his extraordinary TED talk .

Bibliography

#5: Stephen Hawking’s warning: Abandon earth-or face extinction . Big Think. (2010, July 27). https://bigthink.com/surprising-science/5-stephen-hawkings-warning-abandon-earth-or-face-extinction/

Beck, J. (2017, October 11). “people who boast about their IQ are losers.” The Atlantic. https://www.theatlantic.com/science/archive/2017/10/trump-tillerson-iq-brag-boast-psychology-study/542544/

The beginning of time . Stephen Hawking. (n.d.-c). https://www.hawking.org.uk/in-words/lectures/the-beginning-of-time

Guardian News and Media. (2005, September 27). Interview: Stephen Hawking . The Guardian. https://www.theguardian.com/science/2005/sep/27/scienceandnature.highereducationprofile

Guardian News and Media. (2011a, May 15). Stephen Hawking: “there is no heaven; it’s a Fairy story.” The Guardian. https://www.theguardian.com/science/2011/may/15/stephen-hawking-interview-there-is-no-heaven

Guardian News and Media. (2011b, May 15). Stephen Hawking: “there is no heaven; it’s a Fairy story.” The Guardian. https://www.theguardian.com/science/2011/may/15/stephen-hawking-interview-there-is-no-heaven

Guardian News and Media. (2016, December 1). This is the most dangerous time for our planet | Stephen Hawking . The Guardian. https://www.theguardian.com/commentisfree/2016/dec/01/stephen-hawking-dangerous-time-planet-inequality

Hartle, J. B., & Hawking, S. W. (1983, December 15). Wave function of the universe . Physical Review D. https://journals.aps.org/prd/abstract/10.1103/PhysRevD.28.2960

Hawking radiation and the sonic black hole - technion - israel institute of technology . Technion. (2021, February 17). https://www.technion.ac.il/en/2021/02/hawking-radiation-and-the-sonic-black-hole/

Hawking, S. W. (1974, March 1). Black Hole Explosions? . Nature News. https://www.nature.com/articles/248030a0

Life in the universe . Stephen Hawking. (n.d.-a). https://www.hawking.org.uk/in-words/lectures/life-in-the-universe

Medeiros, J. (2017, November 28). Stephen Hawking: “I fear ai may replace humans altogether.” WIRED UK. https://www.wired.co.uk/article/stephen-hawking-interview-alien-life-climate-change-donald-trump

Oxford Union Speech . Stephen Hawking. (n.d.-b). https://www.hawking.org.uk/in-words/speeches/speech-5

Pablo Jáuregui, Enviado especial Guía de Isora (Tenerife), & Chocolatillo. (2018, March 14). Stephen Hawking: “no hay ningún dios. soy ateo.” ELMUNDO. https://www.elmundo.es/ciencia/2014/09/21/541dbc12ca474104078b4577.html

The singularities of gravitational collapse and cosmology . Royal Society Publishing. (1970, January 27). https://royalsocietypublishing.org/doi/10.1098/rspa.1970.0021

Hawking, S. W. (1966). Properties of expanding universes. https://doi.org/10.17863/CAM.11283

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Biography of Stephen Hawking, Physicist and Cosmologist

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Stephen Hawking (January 8, 1942–March 14, 2018) was a world-renowned cosmologist and physicist, especially esteemed for overcoming an extreme physical disability to pursue his groundbreaking scientific work. He was a bestselling author whose books made complex ideas accessible to the general public. His theories provided deep insights into the connections between quantum physics and relativity, including how those concepts might be united in explaining fundamental questions related to the development of the universe and the formation of black holes.

Fast Facts: Stephen Hawking

Known For : Cosmologist, physicist, best-selling science writer
Also Known As : Steven William Hawking
Born : January 8, 1942 in Oxfordshire, England
Parents : Frank and Isobel Hawking
Died: March 14, 2018 in Cambridge, England
Education : St Albans School, B.A., University College, Oxford, Ph.D., Trinity Hall, Cambridge, 1966
Published Works : A Brief History of Time: From the Big Bang to Black Holes, The Universe in a Nutshell, On the Shoulders of Giants, A Briefer History of Time, The Grand Design, My Brief History
Awards and Honors : Fellow of the Royal Society, the Eddington Medal, the Royal Society's Hughes Medal, the Albert Einstein Medal, the Gold Medal of the Royal Astronomical Society, Member of the Pontifical Academy of Sciences, the Wolf Prize in Physics, the Prince of Asturias Awards in Concord, the Julius Edgar Lilienfeld Prize of the American Physical Society, the Michelson Morley Award of Case Western Reserve University, the Copley Medal of the Royal Society
Spouses : Jane Wilde, Elaine Mason
Children : Robert, Lucy, Timothy
Notable Quote : “Most of the threats we face come from the progress we’ve made in science and technology. We are not going to stop making progress, or reverse it, so we must recognize the dangers and control them. I’m an optimist, and I believe we can.”

Stephen Hawking was born on January 8, 1942, in Oxfordshire, England, where his mother had been sent for safety during the German bombings of London of World War II. His mother Isobel Hawking was an Oxford graduate and his father Frank Hawking was a medical researcher.

After Stephen's birth, the family reunited in London, where his father headed the division of parasitology at the National Institute for Medical Research. The family then moved to St. Albans so that Stephen's father could pursue medical research at the nearby Institute for Medical Research in Mill Hill.

Education and Medical Diagnosis

Stephen Hawking attended school in St. Albans, where he was an unexceptional student. His brilliance was much more apparent in his years at Oxford University. He specialized in physics and graduated with first-class honors despite his relative lack of diligence. In 1962, he continued his education at Cambridge University, pursuing a Ph.D. in cosmology.

At age 21, a year after beginning his doctoral program, Stephen Hawking was diagnosed with amyotrophic lateral sclerosis (also known as motor neuron disease, ALS, and Lou Gehrig's disease). Given only three years to live, he has written that this prognosis helped motivate him in his physics work .

There is little doubt that his ability to remain actively engaged with the world through his scientific work helped him persevere in the face of the disease. The support of family and friends were equally key. This is vividly portrayed in the dramatic film "The Theory of Everything."

The ALS Progresses

As his illness progressed, Hawking became less mobile and began using a wheelchair. As part of his condition, Hawking eventually lost his ability to speak, so he utilized a device capable of translating his eye movements (since he could no longer utilize a keypad) to speak in a digitized voice.

In addition to his keen mind within physics, he gained respect throughout the world as a science communicator. His achievements are deeply impressive on their own, but some of the reason he is so universally respected was his ability to accomplish so much while suffering the severe debility caused by ALS.

Marriage and Children

Just before his diagnosis, Hawking met Jane Wilde, and the two were married in 1965. The couple had three children before separating. Hawking later married Elaine Mason in 1995 and they divorced in 2006.

Career as Academic and Author

Hawking stayed on at Cambridge after his graduation, first as a research fellow and then as a professional fellow. For most of his academic career, Hawking served as the Lucasian Professor of Mathematics at the University of Cambridge, a position once held by Sir Isaac Newton .

Following a long tradition, Hawking retired from this post at age 67, in the spring of 2009, though he continued his research at the university's cosmology institute. In 2008 he also accepted a position as a visiting researcher at Waterloo, Ontario's Perimeter Institute for Theoretical Physics.

In 1982 Hawking began work on a popular book on cosmology. By 1984 he had produced the first draft of "A Brief History of Time," which he published in 1988 after some medical setbacks. This book remained on the Sunday Times bestsellers list for 237 weeks. Hawking's even more accessible "A Briefer History of Time" was published in 2005.

Fields of Study

Hawking's major research was in the areas of theoretical cosmology , focusing on the evolution of the universe as governed by the laws of general relativity . He is most well-known for his work in the study of black holes . Through his work, Hawking was able to:

Prove that singularities are general features of spacetime.
Provide mathematical proof that information which fell into a black hole was lost.
Demonstrate that black holes evaporate through Hawking radiation .

On March 14, 2018, Stephen Hawking died in his home in Cambridge, England. He was 76. His ashes were placed in London’s Westminster Abbey between the final resting places of Sir Isaac Newton and Charles Darwin.

Stephen Hawking made large contributions as a scientist, science communicator, and as a heroic example of how enormous obstacles can be overcome. The Stephen Hawking Medal for Science Communication is a prestigious award that "recognizes the merit of popular science on an international level."

Thanks to his distinctive appearance, voice, and popularity, Stephen Hawking is often represented in popular culture. He made appearances on the television shows "The Simpsons" and "Futurama," as well as having a cameo on "Star Trek: The Next Generation" in 1993.

"The Theory of Everything," a biographical drama film about Hawking's life, was released in 2014.

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7 Fascinating Facts About Stephen Hawking

Few people emerge from the fields of cosmology and theoretical physics with the sort of name recognition equal to that of a celebrity athlete or actor, but that's exactly what happened with Stephen Hawking . Thanks to his groundbreaking work with black holes and relativity, he went on to hold distinguished academic posts, be appointed Commander of the Order of the British Empire and earn the U.S. Presidential Medal of Freedom ... all while his body deteriorated from a crippling disease that was supposed to have killed him by the mid-1960s.

In honor of his inspiring endurance, and his immense contributions to the understanding of the cosmos that swirls around us, here are seven facts about the life of this otherworldly scientist:

He was an average student in elementary school

Hawking didn’t have the sort of sparkling early academic career you'd expect from a Grade-A genius. He claimed he didn't learn to properly read until he was 8 years old, and his grades never surpassed the average scores of his classmates at St. Albans School. Of course, there was a reason those same classmates nicknamed him "Einstein"; Hawking built a computer with friends as a teenager and demonstrated a tremendous capacity for grasping issues of space and time. He also got it together when it counted, dominating his Oxford entrance exams to score a scholarship to study physics at age 17.

Upon his ALS diagnosis, Hawking was told he only had two-and-a-half years to live

After falling while ice skating during his first year as a grad student at Cambridge University, Hawking was told he had the degenerative motor neuron disease Amyotrophic Lateral Sclerosis (ALS) and had only two-and-a-half years to live. Obviously that prognosis was light years off, but it seems early onset of the disease was a blessing in disguise, of sorts. Most ALS patients are diagnosed in their mid-50s and live another two to five years, but those diagnosed earlier tend to have a slower-progressing form of the disease. Furthermore, the loss of motor skills forced the burgeoning cosmologist to become more creative. "By losing the finer dexterity of my hands, I was forced to travel through the universe in my mind and try to visualize the ways in which it worked," he later noted.

He was initially puzzled by his own equation

Hawking's equation, which involves the speed of light, Newton’s constant and other symbols that make the non-mathematically inclined run for cover, measures emissions from black holes that today is known as Hawking radiation. Hawking was initially puzzled by these findings, as he believed black holes to be celestial death traps that swallowed up all energy. However, he determined there was room for this phenomenon through the merging of quantum theory, general relativity and thermodynamics, distilling it all into one (relatively) simple but elegant formula in 1974. Already known for establishing important ground rules about the properties of black holes, this discovery kicked his career into a higher gear and set him on the path to stardom. Hawking later said he would like this equation to be carved on his tombstone.

Hawking almost died in 1985

Although the doomsday predictions of his early doctors were off, Hawking did almost die after contracting pneumonia while traveling to Geneva in 1985. While he was unconscious and hooked up to a ventilator, the option of removing the fragile scientist from life support was being considered until his then-wife, Jane, rejected the idea. Hawking instead underwent a tracheotomy, an operation that helped him breathe but permanently took away his ability to speak, prompting the creation of his famous speech synthesizer.

He considered his non-descript computer voice part of his identity

Hawking's original synthesizer was created by a California-based company called Words Plus, which ran a speech program called Equalizer on an Apple II computer. Adapted to a portable system that could be mounted on a wheelchair, the program enabled Hawking to "speak" by using a hand clicker to choose words on a screen. After he eventually lost use of his hands, Hawking had an infrared switch mounted on his glasses that generated words by detecting cheek movement. He also had the communication technology overhauled by Intel, though he insisted on retaining the same robotic voice with its distinctly non-British accent he'd been using for three decades, as he considered it an indelible part of his identity.

Hawking wrote books using his vocal synthesizer

Hawking long believed he could write a book about the mysteries of the universe that would connect with the public, a task that seemed all but impossible after he lost the abilities to write and speak. However, he painstakingly pressed forward with his speech synthesizer, receiving valuable assistance from students who relayed draft revisions with his editor in the United States via speakerphone. Hawking's vision ultimately was realized, as A Brief History of Time landed on the London Sunday Times best-seller list for 237 weeks after its publication in 1988. He went on to pen an autobiography, several other books about his field and a series of science-themed novels, co-written with his daughter, Lucy.

He had a wicked sense of humor

Despite his extraordinary physical challenges, Hawking wasn't shy about appearing on television. He first appeared as himself on a 1993 episode of Star Trek: The Next Generation , cracking jokes while playing poker with Albert Einstein and Isaac Newton . He also lent his voice to the animated shows The Simpsons and Futurama , and, fittingly, surfaced on the hit sitcom The Big Bang Theory . Of course, screen time wasn’t only about laughs for the world-renowned physicist, who returned to his bread-and-butter topics of cosmology and the origins of life for his six-part 1997 miniseries Stephen Hawking's Universe . He also provided plenty of stark, sobering descriptions of his life for the 2013 documentary Hawking .

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Stephen Hawking

Stephen Hawking was a theoretical physicist and cosmologist, widely considered to be one of the greatest scientists of his time. He was the first scientist to devise a cosmology that married the general theory of relativity and quantum mechanics, and he made huge contributions to our understanding of black holes.

Hawking wrote a number of popular science books including the bestseller A Brief History of Time .

Early Life and Education

Stephen Hawking was born on January 8, 1942 in Oxford, England, UK. His father was Frank Hawking, an English biologist; his mother was Isobel Walker, a Scottish Philosophy, Politics and Economics graduate; both parents were graduates of the University of Oxford. Stephen had two younger sisters and an adopted brother.

Stephen Hawking was an average student at school, deeply interested in science. After winning a scholarship in Natural Sciences at age 17, he graduated at age 20 with a first-class honors degree in Physics from University College, Oxford.

Thereafter, Hawking carried out research at Trinity Hall, University of Cambridge, for a PhD in Astronomy and Cosmology.

In his early days at Cambridge, at age 21, Hawking was diagnosed with Amyotrophic lateral sclerosis (ALS), a motor neuron disease in which the nerves controlling the muscles become inactive while the sensory nerves function normally. At first his doctors expected him to die within two years.

Due to this sustained condition, it took him about 40 hours to devise a 45 minute lecture.

Contributions and Achievements

Hawking was known for bringing about a limited union between two very different fields: Albert Einstein’s general theory of relativity and quantum theory.

At one time it was thought that absolutely nothing could escape from a black hole. Hawking’s equations produced an amazing result – that over time black holes can lose energy – now known as Hawking radiation – hence they can shrink and ‘evaporate,’ disappearing from the universe.

In his 2008 book The Black Hole War , the theoretical physicist Leonard Susskind wrote:

Hawking’s calculation showing how black holes evaporate was more than a brilliant tour de force. I believe that in time, when the repercussions are fully understood, physicists will recognize it as the beginning of a great scientific revolution.

In 1931, Georges Lemaître was the first scientist to propose that the universe and time itself began in a single instant, emerging in a Big Bang. Lemaître believed the universe hatched from a ‘cosmic egg’ whose radius was similar to the earth-sun distance. In 1970, working with Roger Penrose, Hawking showed that if a Big Bang had happened and general relativity were true, then the universe must have grown from a point whose volume was zero, but which contained the entire mass of the universe. Such a point of infinite density is known as a singularity.

Interestingly, at the heart of every black hole lurks a singularity, where gravity has crushed the entire mass of the black hole into a point whose volume is zero.

Hawking was awarded the CBE in 1982, and became a Companion of Honour in 1989. He received numerous awards and medals, including becoming a Fellow of The Royal Society and a Member of the US National Academy of Sciences. He was honored with the Presidential Medal of Freedom in 2009.

Stephen Hawking was the University of Cambridge’s Lucasian Professor of Mathematics from 1979-2009, a position once held by Sir Isaac Newton .

A highly successful lecturer and author, from 1986 Hawking made use of an adaptive communication system including a speech synthesizer known as the Equalizer to combat ALS. Using the Equalizer, he authored books, scientific papers, and lectures, and was capable of communicating at the modest rate of about 15 words per minute.

His computer synthesized voice and the concept a genius mind trapped within a powerless body captured the public imagination all over the world. Arguably, Hawking became the most famous scientist of the late 20th and early 21st centuries, making appearances in TV shows such as The Big Bang Theory , The Simpsons , and Red Dwarf . The 2014 movie The Theory of Everything was a drama about Hawking’s life and work.

Hawking’s 1988 book A Brief History of Time became an instant best-seller and was translated into 30 languages. It sold over 10 million copies worldwide. His 2001 book The Universe in a Nutshell was hailed as a masterpiece of modern physics.

Personal Life

Stephen Hawking married Jane Wilde, a language student, in 1965, and they had three children: Lucy, Robert and Tim.

The couple separated in 1991. From 2009 Hawking was almost completely paralyzed.

Stephen Hawking died peacefully, age 76, at home, on March 14, 2018, in Cambridge, UK. His ashes were laid to rest in London’s Westminster Abbey between the final resting places of Isaac Newton and Charles Darwin.

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Stephen Hawking

1942-2018 English Theoretical Physicist, Cosmologist and Author

Biography, Fun Facts, Gallery, Quotes and Works of Stephen Hawking

Stephen William Hawking was born on January 8, 1942, in Oxford, England. His birth date coincided with the 300th anniversary of Galileo's death.

His father, Frank Hawking, was a research biologist, and his mother, Isobel Eileen Hawking, was a political activist and one of the first women to study at Oxford University in the 1930s. He had two younger sisters, Philippa and Mary, and an adopted brother, Edward.

Stephen Hawking At NASAs StarChild Learning Center 1980

Primary Education : Hawking attended Byron House School in Highgate, London. His family moved to St Albans, Hertfordshire, where he attended St Albans School. He was an average student at school but showed a strong interest in science.

Oxford University : At 17, Hawking enrolled at University College, Oxford. Initially, he wanted to study mathematics, but the college did not offer a degree in that subject, so he pursued physics. Despite his casual attitude towards academics, he graduated with first-class honors in natural science.
Cambridge University : After Oxford, Hawking pursued a Ph.D. in cosmology at Trinity Hall, Cambridge. His doctoral thesis, titled "Properties of Expanding Universes," examined the implications of general relativity and the nature of the universe's expansion. His supervisor was Denis Sciama, a prominent physicist.

Career and Scientific Contributions

Hawking's early work focused on the implications of Einstein's general theory of relativity. He was influenced by Roger Penrose's theorem on spacetime singularities, which led to his own work on black holes and singularities.

Black Hole Theories :

Hawking Radiation: In 1974, Hawking proposed that black holes are not entirely black but emit radiation due to quantum effects near the event horizon. This radiation, now known as Hawking radiation, implies that black holes can eventually evaporate. This discovery bridged the gap between general relativity and quantum mechanics.
Area Theorem: Hawking formulated the area theorem, which states that the total surface area of a black hole's event horizon can never decrease over time. This idea is analogous to the second law of thermodynamics.
Penrose-Hawking Singularity Theorems: Collaborating with Roger Penrose, Hawking developed the Penrose-Hawking singularity theorems, which demonstrated that the universe must have begun as a singularity, supporting the Big Bang theory.
No Boundary Proposal: In the early 1980s, Hawking and James Hartle proposed the Hartle-Hawking state, suggesting that the universe has no boundaries in imaginary time. This concept implies that the universe is finite but without boundaries, like the surface of a sphere.

Academic Positions :

Lucasian Professor of Mathematics:** Hawking held the prestigious position of Lucasian Professor of Mathematics at the University of Cambridge from 1979 to 2009, a post once held by Sir Isaac Newton.

Personal Life

Marriages and Family :

Jane Wilde: Hawking married Jane Wilde, a friend of his sister, in 1965. They had three children: Robert, born in 1967; Lucy, born in 1970; and Timothy, born in 1979. The couple divorced in 1995.
Elaine Mason:** In 1995, Hawking married Elaine Mason, one of his nurses. The marriage ended in 2006.

Public Engagement : Hawking was known for his sense of humor and wit. He made several appearances in popular media, including guest roles in *The Simpsons*, *Star Trek: The Next Generation*, and *The Big Bang Theory*. He used his public presence to raise awareness about scientific issues and disability rights.

Fun Facts about Stephen Hawking

1. Galileo Connection : Stephen Hawking was born on the 300th anniversary of Galileo Galilei's death.

2. Speech Synthesizer : Hawking's speech synthesizer, which had an American accent, became an iconic part of his identity. He humorously referred to it as his "American accent."

3. Zero-Gravity Flight : In 2007, Hawking experienced zero-gravity on a flight provided by Zero Gravity Corporation. Despite his ALS, he floated freely in the plane, fulfilling a long-held desire.

4. Pop Culture Icon : Hawking appeared in various TV shows, including *The Simpsons*, *Futurama*, and *The Big Bang Theory*, where he was often humorously depicted.

5. Star Trek Cameo : In an episode of *Star Trek: The Next Generation*, Hawking played a holographic version of himself, playing poker with other great scientists, including Albert Einstein and Isaac Newton.

6. Limerick Enthusiast : Hawking enjoyed writing and reciting limericks. He once composed a limerick about his work on black holes.

7. Record Sales : "A Brief History of Time" remained on the British Sunday Times best-seller list for a record-breaking 237 weeks.

8. Music Collaborations : Hawking's synthesized voice appeared in songs by artists like Pink Floyd and Monty Python.

Quotes by Stephen Hawking

1. "Intelligence is the ability to adapt to change."

2. "Life would be tragic if it weren't funny."

3. "Look up at the stars and not down at your feet. Try to make sense of what you see and wonder about what makes the universe exist. Be curious."

4. "We are just an advanced breed of monkeys on a minor planet of a very average star. But we can understand the universe. That makes us something very special."

5. "My goal is simple. It is a complete understanding of the universe, why it is as it is and why it exists at all."

6. "However difficult life may seem, there is always something you can do and succeed at. It matters that you don’t just give up."

7. "People who boast about their IQ are losers."

8. "The greatest enemy of knowledge is not ignorance, it is the illusion of knowledge."

9. "I have noticed that even people who claim everything is predetermined and that we can do nothing to change it look before they cross the road."

10. "Science is not only a disciple of reason but, also, one of romance and passion."

Major Works of Stephen Hawking

1. A Brief History of Time (1988): This book explores fundamental questions about the nature of the universe, the Big Bang, black holes, and time travel. It aimed to make complex scientific concepts accessible to a general audience and became a global bestseller.

2. Black Holes and Baby Universes and Other Essays (1993): A collection of essays and lectures covering a range of topics, including Hawking's thoughts on black holes, the universe, and his personal life.

3. The Universe in a Nutshell (2001): A follow-up to "A Brief History of Time", this book provides updated content and more visual explanations of complex scientific ideas.

4. A Briefer History of Time (2005): Co-authored with Leonard Mlodinow, this book simplifies and updates the concepts from "A Brief History of Time" for a broader audience.

5. The Grand Design (2010): Co-authored with Leonard Mlodinow, this book explores the origins of the universe, the laws of nature, and the role of God in creation, proposing that the laws of physics alone can explain the universe's existence.

6. My Brief History (2013): An autobiographical work that provides insights into Hawking’s personal and professional life, detailing his early years, his diagnosis with ALS, and his scientific achievements.

Scientific Papers:

1. " Singularities in the Universe " (1965): Co-authored with Roger Penrose, this paper discusses the implications of general relativity on singularities in the universe, leading to the Penrose-Hawking singularity theorems.

2. " Black Hole Explosions? " (1974): This groundbreaking paper introduced the concept of Hawking radiation, suggesting that black holes can emit particles and eventually evaporate.

3. " Particle Creation by Black Holes " (1975): This paper further elaborates on the mechanisms behind Hawking radiation and its implications for black holes and quantum mechanics.

4. " The Large Scale Structure of Space-Time " (1973): Co-authored with George Ellis, this book provides a comprehensive overview of the nature of the universe, addressing the properties and dynamics of space-time.

5. " The Nature of Space and Time " (1996): Co-authored with Roger Penrose, this work discusses the differences in their approaches to understanding the universe, particularly regarding quantum mechanics and general relativity.

Stephen Hawking's life and work have had a profound impact on our understanding of the universe. His contributions to science, his resilience in the face of a debilitating disease, and his efforts to communicate complex ideas to the public have made him an enduring figure in both science and popular culture.

World Biography

Stephen Hawking Biography

Born: January 8, 1942 Oxford, England English scientist, physicist, and mathematician

British physicist and mathematician Stephen Hawking has made fundamental contributions to the science of cosmology—the study of the origins, structure, and space-time relationships of the universe.

Stephen William Hawking was born on January 8, 1942, in Oxford, England. His father, a well-known researcher in tropical medicine, urged his son to seek a career in medicine, but Stephen found biology and medicine were not exact enough. Therefore, he turned to the study of mathematics and physics.

Hawking was not an outstanding student at St. Alban's School, nor later at Oxford University, which he entered in 1959. He was a social young man who did little schoolwork because he was able to grasp the essentials of a mathematics or physics problem quickly. At home he reports, "I would take things apart to see how they worked, but they didn't often go back together." His early school years were marked by unhappiness at school, with his peers and on the playing field. While at Oxford he became increasingly interested in physics (study of matter and energy), eventually graduating with a first class honors in physics (1962). He immediately began postgraduate studies at Cambridge University.

Graduate school

The onset of Hawking's graduate education at Cambridge marked a turning point in his life. It was then that he embarked upon the formal study of cosmology, which focused his study. And it was then that he was first stricken with Lou Gehrig's disease, a weakening disease of the nervous and muscular system that eventually led to his total confinement in a wheelchair. At Cambridge his talents were recognized, and he was encouraged to carry on his studies despite his growing physical disabilities. His marriage in 1965 was an important step in his emotional life. Marriage gave him, he recalled, the determination to live and make professional progress in the world of science. Hawking received his doctorate degree in 1966. He then began his lifelong research and teaching association with Cambridge University.

Theory of singularity

Hawking made his first major contribution to science with his idea of singularity, a work that grew out of his collaboration (working relationship) with Roger Penrose. A singularity is a place in either space or time at which some quantity becomes infinite (without an end). Such a place is found in a black hole, the final stage of a collapsed star, where the gravitational field has infinite strength. Penrose proved that a singularity could exist in the space-time of a real universe.

Drawing upon the work of both Penrose and Albert Einstein (1879–1955), Hawking demonstrated that our universe had its origins in a singularity. In the beginning all of the matter in the universe was concentrated in a single point, making a very small but tremendously dense body. Ten to twenty billion years ago that body exploded in a big bang that initiated time and the universe. Hawking was able to produce current astrophysical (having to do with the study of stars and the events that occur around them) research to support the big bang theory of the origin of the universe and oppose the competing steady-state theory.

Hawking's research led him to study the characteristics of the best-known singularity: the black hole. A black hole's edges, called the event horizon, can be detected. Hawking proved that the surface area (measurement of the surface) of the event horizon could only increase, not decrease, and that when two black holes merged the surface area of the new hole was larger than the sum of the two original.

Hawking's continuing examination of the nature of black holes led to two important discoveries. The first, that black holes can give off heat, opposed the claim that nothing could escape from a black hole. The second concerned the size of black holes. As originally conceived, black holes were immense in size because they were the end result of the collapse of gigantic stars. Hawking suggested the existence of millions of mini-black holes formed by the force of the original big bang explosion.

Stephen Hawking. Reproduced by permission of AP/Wide World Photos.

Unified field theory

In the 1980s Hawking answered one of Einstein's unanswered theories, the famous unified field theory. A complete unified theory includes the four main interactions known to modern physics. The unified theory explains the conditions that were present at the beginning of the universe as well as the features of the physical laws of nature. When humans develop the unified field theory, said Hawking, they will "know the mind of God."

Publications

As Hawking's physical condition grew worse his intellectual achievements increased. He wrote down his ideas in A Brief History of Time: From the Big Bang to Black Holes. It sold over a million copies and was listed as the best-selling nonfiction book for over a year.

In 1993 Hawking wrote Black Holes and Baby Universes and Other Essays, which, in addition to his scientific thoughts, contains chapters about Hawking's personal life. He coauthored a book in 1996 with Sir Roger Penrose titled The Nature of Space and Time. Issues discussed in this book include whether the universe has boundaries and if it will continue to expand forever. Hawking says yes to the first question and no to the second, while Penrose argues the opposite. Hawking joined Penrose again the following year in the creation of another book, The Large, the Small, and the Human Mind (1997). In 2002 he was likewise celebrating the publication of The Universe in a Nutshell. Despite decreasing health, Hawking traveled on the traditional book release circuit. People with disabilities look to him as a hero.

Honors and commitments

Hawking's work in modern cosmology and in theoretical astronomy and physics is widely recognized. He became a fellow of the Royal Society of London in 1974 and five years later was named to a professorial chair at Cambridge University that was once held by Sir Isaac Newton (1642–1727). Beyond these honors he has earned a host of honorary degrees, awards, prizes, and lectureships from the major universities and scientific societies of Europe and America. By the end of the twentieth century Stephen Hawking had become one of the best-known scientists in the world. His popularity includes endorsing a wireless Internet connection and speaking to wheelchair-bound youth. He also had a special appearance on the television series Star Trek.

Though very private, it is generally known that Stephen's first marriage ended in 1991. He has three children from that marriage.

When asked about his objectives, Hawking told Zygon in a 1995 interview, "My goal is a complete understanding of the universe, why it is as it is and why it exists at all."

For More Information

Ferguson, Kitty. Stephen Hawking: A Quest for a Theory of the Universe. New York: F. Watts, 1991.

Henderson, Harry. Stephen Hawking. San Diego, CA: Lucent Books, 1995.

McDaniel, Melissa. Stephen Hawking: Revolutionary Physicist. New York: Chelsea House, 1994.

White, Michael, and John Gribbin. Stephen Hawking: A Life in Science. New York: Viking, 1992.

User Contributions:

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A brief history of Stephen Hawking's time on planet Earth in one chart

Stephen Hawking was a theoretical physicist who pioneered new understandings of black holes, the universe, and how much one person can achieve.

Hawking died early in the morning on March 14, 2018 — Pi Day and Albert Einstein's birthday .

In passing, he left behind an incredible legacy, especially as a person who struggled with ALS, a neurodegenerative disease that confined him to a wheelchair for the vast majority of his life.

Though Hawking's life has filled many books and a feature-length film , we've summarized some of the most memorable and notable moments in the graphical timeline below.

Remembering Stephen Hawking:

Stephen Hawking has died at 76 — here are some of the most remarkable and memorable things he ever said
These 15 photos show how Stephen Hawking defied his disability and lived an incredible life
Stephen Hawking was only expected to live a few years after being diagnosed with ALS at age 21 — here's what the disease is
Stephen Hawking died on a day that is cosmically connected to Albert Einstein and Pi
The man who helped Stephen Hawking achieve his lifelong dream of experiencing zero gravity remembers what it was like to watch the acclaimed physicist break free of his wheelchair
Stephen Hawking was rumored to run over the toes of people he didn't like with his wheelchair
Stephen Hawking had a 'sense of humor as vast as the universe': unique tributes flood in for esteemed scientist

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Main content

Stephen Hawking

Toggle-div#toggle"> 1940s: birth and childhood.

It is a curious fact that Stephen William Hawking was born on 8th January 1942, exactly 300 years after the death of the Italian astronomer, Galileo Galilei. Perhaps it seems a fitting symmetry. Often referred to as ‘the father of observational astronomy,’ Galileo was one of Stephen’s inspirations during his long career as a theoretical physicist and cosmologist.

Stephen was born in Oxford during WWII, the eldest of four children to parents Dr Frank Hawking and Eileen Isobel Hawking. With his siblings, Stephen had a happy childhood mostly spent in Highgate, London and then in St. Albans, Hertfordshire. Stephen admitted to being a late developer and recalled that he was never more than halfway up the class at St Albans School. However, he developed an early curiosity as to how things work, saying later, ‘If you understand how the universe operates, you control it, in a way.’ His classmates called him ‘Einstein’ as they clearly saw the signs of genius in him, missed by his teachers. While still at school, Stephen speculated about the origin of the universe with his friends and wondered whether God created it – “I wanted to fathom the depths of the universe.” This spirit of enquiry set the pattern for his academic career.

toggle-div#toggle"> 1960s: graduation from Oxford and the move to Cambridge

Somewhat reluctantly, Stephen agreed to apply to his father’s college, University College, Oxford . Stephen wanted to read mathematics but his father, tropical medicine specialist Dr Frank Hawking, was adamant that there would be no jobs for mathematicians and Stephen should read medicine. They compromised on Natural Sciences and Stephen went up to Oxford at the young age of 17 in 1959. Despite claiming to do very little work, Stephen performed well enough in his written examinations to be called for a ‘viva’ (an interview) to determine which class of degree he should receive. Stephen told the examiners that if they awarded him a first-class degree he would leave Oxford and go to Cambridge but if he got a second, he would stay in Oxford. They duly gave him a first, as of course, he hoped they would. Stephen went to Trinity Hall, Cambridge in 1962. However, while still an undergraduate, Stephen had begun to realise all was not well. He had become increasingly clumsy, was struggling with small tasks such as doing up his shoelaces and his movements were erratic and ungainly. After an accident at a skating lake in St Albans, his mother took him to Guy’s Hospital in London for tests. Soon after Stephen’s 21st birthday, these tests showed he had a progressive and incurable illness. These tests were exhaustive although primitive by today’s standards. Even after these were completed, oddly Stephen was not told his diagnosis. Eventually, he discovered he had motor neurone disease which slowly and inexorably erodes muscle control but leaves the brain intact. He was given only two years to live. Stephen later recalled that he became desperately demoralised at this time but he did find two sources of inspiration and solace: the intense music of Wagner (a subsequent lifelong passion) and falling in love with Jane Wilde, the woman who would become his wife. The young couple vowed to fight Stephen’s illness together. Stephen now had someone to live for, and in the manner typical of his stubbornness, he threw himself into his research – “To my surprise I found I liked it”, he said later.

Despite his renewed enthusiasm, Stephen’s early career progressed erratically. In Cambridge, he had hoped to study under the most famous astronomer of the time, Fred Hoyle, but Professor Hoyle had too many students already and sent him to physicist and cosmologist Dennis Sciama instead. Later, Stephen recognised this as a piece of luck which laid the foundation of his later career and said that he would have been unlikely to flourish under Hoyle’s supervision. In fact, the two clashed in public in 1964 when Stephen interrupted Fred Hoyle, during a lecture, to tell the famous scientist he had got something wrong. When Hoyle asked how he knew this, Stephen said, ‘Because I have worked it out’. Sciama also introduced Stephen to Roger Penrose in 1965 when Penrose gave a talk on singularity theorems in Cambridge. In that same year, Stephen received his Ph.D for his thesis entitled ‘Properties of Expanding Universes.’ This thesis was released in 2017 on the University of Cambridge’s website, causing the site to crash almost immediately due to the extraordinarily high demand.

In 1965, Stephen applied for a research fellowship at Gonville & Caius College in Cambridge and was accepted. He was to remain a fellow there for the rest of his life. Marriage to Jane and children followed; Robert (1967), Lucy (1970) and Timothy (1979). Supported and cared for by his wife, his loyal PhD students, friends, family, colleagues and his children, Stephen settled into day to day academic life, and continued working right up until his death in March 2018.

toggle-div#toggle"> Mid-60s to early-70s: serious career work

The accolades began. In 1966 Stephen won the Adams Prize for his essay entitled, ‘Singularities and the Geometry of Space-Time’, and which formed the basis for his first academic book, co-authored with George Ellis, The Large Scale Structure of Space-Time . This book remains in print today.

In 1969, during a trip to the USA, Stephen observed Joseph Weber’s early and rudimentary experiments for detecting gravitational waves. Stephen would have loved to conduct his own experiments in this new and exciting scientific area but understood that his disability was a barrier in that era. As ever, Stephen made an advantage out of what other people would perceive as a setback, arguing that a theorist can conclude an argument in an afternoon: an experiment can take years. “I was glad I remained a theorist”, he admitted afterwards.

Against the background of increasing and fervent scientific discovery, Stephen began working on the basic laws that govern the universe – the field he had been obsessed with since he was a young schoolboy. Since their first meeting in 1965, Stephen and Roger Penrose had many discussions about singularity theorems which culminated in their joint paper in 1970. In that paper, Stephen showed that Einstein’s general theory of relativity implied space and time would have a beginning in the Big Bang and an end in black holes. Together, Hawking and Penrose developed a singularity theorem proving this theory and this led to Stephen’s ensuing fascination with black holes. His subsequent work in this area laid the foundations for today’s understanding of the universe and how it began.

toggle-div#toggle"> 1970s: ‘I was writing the rulebook for black holes’

The 1970s were a prolific period of work. In 1970, shortly after the birth of his daughter and in a ‘eureka’ moment, Stephen realized, almost in an instant: ● that when black holes merge, the surface area of the final black hole must exceed the sum of the areas of the initial black holes, ● that this places limits on the amount of energy that can be carried away by gravitational waves in such a merger, ● there are parallels to be drawn between the laws of thermodynamics and the behaviour of black holes.

In 1973, and at a bit of a loose end after the publication of his first book, The Large Scale Structure of Space-Time , Stephen decided the next step in his research would be to combine general relativity (the theory of the very large) with quantum theory (the theory of the very small). To his disbelief, it seemed that emissions could emanate from a black hole, that particles could escape, i.e. ‘radiate’ from a black hole’s event horizon, a revolutionary quantum effect that appeared to make a mockery of the laws of physics. This research was published in 1974 by Nature as ‘Black hole explosions?’ . However, when announced at a conference in Oxford, his theory was seen as controversial and angrily disputed. Now widely accepted and known as Hawking radiation , Stephen’s proposal unifies the seemingly impossible – general relativity with quantum theory, the large with the small.

Despite their names becoming joined in a formula, Stephen and Jacob Bekenstein never actually worked together. In 1972, Bekenstein proposed that black holes have an entropy. Bekenstein had a formula for entropy that said the entropy was proportional to the area of the event horizon but his numerical co-efficient was incorrect. Stephen did not believe this because black holes were thought to have zero temperatures. It was not until Stephen discovered black hole temperature that he came to believe that black holes have entropy. Stephen was able thereby to confirm the idea that black holes have entropy and fix the coefficient in Bekenstein’s formula.

S = Entropy A = The area of the horizon c = The speed of light G = Newton’s constant of gravitation k = Boltzmann’s constant ħ = Planck’s constant

Stephen’s equation reveals a ‘deep and previously unexpected relationship between gravity and thermodynamics, the science of heat’. But it also raises questions – where does the information about the previously existing matter go when matter ‘disappears’ into a hole? And if information is lost, this is incompatible with quantum mechanics at least in its usual form. This is Stephen’s black hole ‘Information Paradox’ that violates a fundamental tenet of quantum mechanics and has led to decades of furious debate.

The late 1970s were a golden age for Stephen’s academic career and for the field of theoretical physics in general. After being promoted to Reader in Gravitational Physics at Cambridge in 1975, and subsequently Professor of Gravitational Physics in 1977, in 1979 he was appointed as the Lucasian Professor of Mathematics , a position he held until 2009. The chair was founded in 1663 with money left in the will of the Reverend Henry Lucas who had been the Member of Parliament for the University. Previously held by Isaac Newton in 1669, this chair was awarded to Stephen in recognition of his ground-breaking scientific work on black holes. In 1979 Stephen was also awarded the first, prestigious Albert Einstein medal, in recognition of ‘scientific findings, works or publications related to Albert Einstein’. This was a period of intense speculation in physics and growing public interest in black holes. Journalists for print and television regularly interviewed Stephen - his name was becoming known.

toggle-div#toggle"> 1980s: A health crisis, and authorial success

Stephen sought to understand the whole universe in scientific terms. As he said famously, ‘My goal is simple. It is a complete understanding of the universe.’ The singularity theorems proved by Stephen and Penrose had shown conclusively that the universe had a beginning in a Big Bang. But the singularity theorems did not say how the universe had begun. Rather, they showed something more sweeping: Einstein’s general relativity breaks down at the Big Bang, and quantum theory becomes important. Working with Jim Hartle, Stephen set out to use the techniques he had developed to understand the quantum dynamics of black holes, to describe the quantum birth of the universe. Stephen first put forward a proposal along these lines at a conference in the Vatican in 1981, where he suggested that the universe began with four space dimensions curled up as a sphere, without any boundary, which through a quantum transition gave rise to the universe with three space dimensions and one time dimension that we have today. Asking what came before the Big Bang, he famously said, `is like asking what lies South of the South Pole’. Stephen and Hartle aptly called their model the no boundary wave function, or no boundary proposal, the first scientific model of the origin of the universe.

Stephen continued to study the no boundary proposal throughout his career. He discovered that there was a profound connection between the no boundary wave function and cosmic inflation – the idea that our universe started with a rapid burst of expansion. In a series of papers over many years Stephen and his students consolidated this connection, showing that the no boundary proposal predicts an early period of inflation. But the scientific importance of the no boundary proposal is not just as a successful theory of the origin of the basic structure of the universe. Perhaps even more important is the impact it has had on how we think about the universe, and our place in it. The no boundary proposal describes an ensemble of universes. Working with Thomas Hertog, Stephen showed this leads to what he called a `top-down approach to cosmology’, reconstructing the universe’s history backwards in time starting from our position within it. ‘The history of the universe depends on the question we ask,’ he used to say.

In 1982, a letter from Buckingham Palace arrived at Stephen’s family home in Cambridge to tell him he had been honoured with the award of a CBE - Commander of the British Empire. Stephen, despite his anti-establishment leanings, still felt proud to accept it as a mark of his outstanding achievement. The award also heralded the first of what would turn out to be many meetings with Her Majesty the Queen over the decades to come. But neither Stephen nor his family could have known that at the time, as the great scientist was constantly aware that each day could be his last.

Despite his condition, Stephen was an enthusiastic traveller, although his journeys did not always go smoothly. In 1985 Stephen contracted pneumonia on a trip to a science conference near Geneva. The Swiss doctors advised his wife, Jane, that recovery was impossible, and she should switch off Stephen’s ventilator which would have brought about his immediate death. Jane flatly refused and arranged for Stephen to be flown home to Addenbrooke’s Hospital in Cambridge. In order to save Stephen’s life, a tracheostomy was performed, which had the difficult side effect of taking away his natural speaking voice. After a frustrating period where he was only able to communicate with a spelling card and eyebrow movements, Stephen was relieved and delighted when technology came to his rescue. He worked closely with computer developers, latterly at Intel, to devise a computerised communication system and voice synthesiser that, with its famously flat American accent, quickly became his trademark. Stephen learned the art of brevity, of expressing complicated ideas and opinions in very few words. Using this system, Stephen not only wrote seven books and a number of scientific papers but developed his own style of dry, unanswerable wit. It was during this challenging period that Stephen began working on A Brief History of Time , an idea he first had in 1982.

Determined to write a book about physics that would sell at airport book shops, sharing the excitement of science with a general audience, Stephen toiled over A Brief History of Time for six years. His hard work paid off as this book became a surprise runaway best seller which also propelled him into an ever-widening public sphere with, at times, intense media speculation. A Newsweek cover at the time described him as a ‘Master of the Universe’. Helpfully, A Brief History of Time turns complicated scientific theories and projections into (mostly) everyday language: as Stephen said, “I think it is important for scientists to explain their work, particularly in cosmology”. Its resounding success led to a spot on the UK best-selling list for a record-breaking 4.5 years, translation into over 40 languages and sales of over 20 million copies. It was said that Stephen had answered the most fundamental questions of existence. Stephen had always firmly believed that everyone should have a basic understanding of science in this increasingly scientific and technological world and dedicated an enormous amount of time and effort in order to engage the general public with science. He has also co-authored a series of six adventure novels about science with his daughter, Lucy Hawking, in order to make science entertaining and accessible to a young readership.

toggle-div#toggle"> 1990s: Publishing success and a party no-one came to

The 1990s were another period of relentless work academically and now, increasingly, as a popular author and celebrity. In 1993 he published Black Holes and Baby Universes and Other Essays , a collection of works exploring ways in which the universe may be governed. This was followed in 1998 by Universe: The Cosmos Explained , clarifying the basis of our existence with more following in the 2000s – Universe in a Nutshell (2001), On the Shoulders of giants (2002) and The Theory of Everything: The Origin and Fate of the Universe (2002). While these did not achieve the global accolade of A Brief History of Time , they all successfully contributed to our general body of scientific knowledge.

Academically, Stephen continued his work in physics and in 1993 co-edited a book on Euclidean quantum gravity with Gary Gibbons. In 1994 Stephen and Roger Penrose delivered a series of six lectures that were subsequently published in 1996 as The Nature of Space and Time , and Stephen enjoyed several of his now-famous scientific ‘bets’ he had with colleagues, notably with Kip Thorne and John Preskill at Caltech, and Peter Higgs over the existence of the Higgs Boson (Stephen lost that one). Stephen also married again in 1995 to Elaine Mason, a former nurse.

In 1990, with lifelong friend, the physicist Kip Thorne, Stephen approached the controversial notion of whether time travel is allowed by the laws of physics utilising the concept of wormholes, hypothetical tubes of space-time. Stephen concluded this serious analysis with the finding that although it may turn out that time travel is impossible, “… it is important that we understand why it is impossible.” As a later aside to this, nearly 20 years later Stephen planned a party for time travellers. He wrote invitations, set a date, time and venue and provided precise GPS coordinates. But he did not send out the invitations until after the party date was over. That way, only those who could genuinely travel back in time would know of it and be able to attend. On the due day Stephen sat politely and waited. But no-one came. And that was the point. “I have experimental evidence that time travel is not possible”, he said afterwards. And the champagne went back on ice.

toggle-div#toggle"> 2000s: Debates and bets

In a sensational scientific U-turn in 2004, Stephen announced he had solved the black hole information paradox he had identified in 1974, stating that black holes do not destroy all that is sucked into them and that information can be retrieved. Conceding a bet with fellow scientists when he had previously argued to the contrary, Stephen and Kip Thorne awarded their American colleague, John Preskill, an encyclopaedia on baseball saying, that ‘(baseball) information can be retrieved at will’. At the time, Stephen confessed that saying information was lost in black holes was his biggest blunder. However, physicists continue to argue about whether information is lost in black holes or not. It is perhaps a tribute to Stephen’s genius that the discussion is still going on after almost half a century.

The marriage to Elaine broke down and the couple divorced in 2006. In April 2007, Stephen undertook a zero-gravity flight in a Boeing 727 jet in order to promote public interest in space travel and raise money for research into ALS. He had been invited by space pioneer and entrepreneur Peter Diamandis who founded the X Prize. A keen advocate of the need for space travel to find alternative planets for human habitation, Stephen remained in the air for two hours and underwent eight zero-gravity dives, allowing him to experience weightlessness and to be freed from the frustrating restrictions of his wheelchair. One of the most iconic of all the images of Stephen shows him floating, weightless, with an apple hovering above his shoulder and a huge smile on this face. He quipped afterwards, “Space, here I come. A zero-gravity flight is the first step towards space travel.” Stephen always hoped to make it into space himself one day. He was invited by Richard Branson to travel on Branson’s first space flight. Such was Stephen’s pioneering spirit, he accepted immediately. Sadly, Stephen never got the chance to fly in space.

Also in 2007, Stephen founded the Centre for Theoretical Cosmology , based in the Centre for Mathematical Sciences, University of Cambridge, and set up to, ‘advance the scientific understanding of our universe, taking forward the vision of its founder.’ More recently, the Centre launched the Stephen Hawking Programme , a campaign to celebrate and memorialise Stephen's life and work through a programme of teaching, research and outreach. The programme will perpetuate Stephen's legacy and will ensure the vitality and excellence of its ongoing research in cosmology and gravitation.

In 2009, Stephen was awarded the US Presidential Medal of Freedom by President Barack Obama, the highest civilian award in the United States. Received by very few scientists, it was given in recognition of his ‘persistence and dedication [which] has unlocked new pathways of discovery and inspired everyday citizens.’

toggle-div#toggle"> 2010s: ‘It has been a glorious time to be alive…’

In 2012, in a dazzling, star-lit ceremony, Stephen opened the Paralympics in London’s Docklands to a packed stadium. Entitled ‘Enlightenment’, Stephen compared the entire event with some 3,000 performers promising an ‘evening of exploration’, as he exhorted the 62,000 spectators to ‘look up at the stars’. As an addition to the fun-fest of the splendidly choreographed display by disabled athletes, Stephen’s appearance received loud applause when he said, “However difficult life may seem there is always something you can do and succeed at. Good luck to you all…”.

In 2013, Stephen won one of the two Breakthrough Prizes in Fundamental Physics for his discovery of Hawking radiation from black holes, and for ‘his deep contributions to quantum gravity and quantum aspects of the early universe’. This award was especially treasured by Stephen as it validated his lifelong discoveries without the need for experimental confirmation that, in this case, is very difficult to achieve. So difficult in fact, that this lack of experimental confirmation of Hawking radiation and other of his theories excluded Stephen from winning the Nobel prize for physics – the major disappointment in his academic life and career.

In 2014, Stephen revised his theory about the information paradox, even writing that, ‘there are no black holes’ – or at least in the way that cosmologists traditionally understand them. His theory removed the existence of an ‘event horizon’, the point where nothing can escape. Instead, he proposed that there would be an ‘apparent horizon’ that would alter according to quantum changes within the black hole. But the theory, too, remains controversial.

That same year saw the release of The Theory of Everything , the film of Stephen’s life which opened to great critical acclaim. Based on the personal memoir of Stephen’s wife, Jane, the film garnered major awards, resulting in an Oscar for actor, Eddie Redmayne, who perfectly captured not only Stephen’s declining health but his wit, determination, stubbornness and single-minded pursuit of scientific knowledge. Stephen was initially cautious about the film but once he met Redmayne and read the script, he changed his view and allowed the film to use his synthesised voice. Overall both Stephen and Jane were pleased with the film although Stephen would have liked it to contain more physics. Its success brought Stephen’s academic discoveries to a wider public and further underlined his innate humanity.

Stephen celebrated his 75th birthday in January 2017, an incredible achievement for someone who was told he had two years to live in 1962. Cambridge University marked this august occasion with an international conference entitled ‘Gravity and Black Holes’ , held in July at the Centre for Mathematical Sciences. Twenty renowned scientists gave papers at the three-day conference. At the time, Stephen said, “It has been a glorious time to be alive and doing research into theoretical physics. Our picture of the Universe has changed a great deal in the last 50 years, and I’m happy if I’ve made a small contribution.” And he said he wanted others to feel the passion he has for understanding the universal laws that govern us all. “I want to share my excitement and enthusiasm about this quest. So, remember to look up at the stars and not down at your feet. Try to make sense of what you see and wonder about what makes the universe exist. Be curious, and however difficult life may seem, there is always something you can do, and succeed at. It matters that you don’t just give up.”

Also in 2017 Stephen co-authored a paper with Malcolm Perry (Cambridge) and Professor Andrew Strominger (Harvard) entitled ‘Soft Hair on Black Holes’ , purporting to make progress towards an ultimate solution to the black hole information paradox. Refuting Stephen’s earlier argument claiming that information was irretrievably lost in black holes the paper identifies how information is not lost but is ‘contained’ within strands surrounding the black hole’s edge, the event horizon.

In November 2017, Stephen made what would become his last public appearance to a packed Union chamber when he gave the inaugural speech for the Cambridge Union Society’s announcement of its Professor Hawking Fellowship. The Fellowship is designed to celebrate STEM disciplines and acknowledges those individuals who, according to Lord Smith of Finsbury, chair of the Union’s trustees, ‘… have changed the world through the application of science and technology’. In 2019, the choice of Hawking Fellow was Bill Gates.

On 14th March 2018, Professor Stephen Hawking died peacefully at his home in Cambridge (in a strange tribute, this date is also the birthday of Albert Einstein). At the private funeral in Cambridge, the streets thronged with admirers and fans who saw Stephen as very much ‘one of their own’. His impressive but poignant memorial service held on 15th June 2018 in Westminster Abbey was a more formal affair with luminaries from academia around the world paying tribute to Stephen’s scientific legacy. However, at both ceremonies, there was much emphasis on Stephen’s humanity, his humour, his family (he was a devoted family man with three much-loved children and grandchildren) and his charitable work, mostly for the disabled community and education. His ashes are interred next to Sir Isaac Newton and Charles Darwin. The words on Stephen’s grave stone are a direct translation from the Latin of those on Isaac Newton’s grave – ‘Here lies what was mortal of…..’

There is a postscript. In October 2018, John Murray published Stephen’s posthumous popular book, Brief Answers to the Big Questions. This book was a project that Stephen had begun in his lifetime, to bring his writings for a general audience together into one definitive volume. While the manuscript remained unfinished at the time of Stephen’s death, his colleagues, family and friends collaborated in order to publish this collection of short essays on the questions that Stephen was so frequently asked during his lifetime. It felt important to those who had been close to Stephen for so many years that his theories, thoughts and ideas were published in order that he himself should define his legacy. Brief Answers to the Big Questions has been a best seller in 45 countries and sold 2.5 million copies since publication, showing that Stephen’s influence and brilliance remain undimmed, even though he is no longer with us.

Finally, two posthumous papers appeared. The first in April 2018 was written with Thomas Hertog. Stephen details his last theory on the origin of the Universe, based on the concept of eternal inflation which lays the ground for the existence of parallel universes. It argues there are many universes other than our own. The paper is entitled “A Smooth Exit From Inflation” and its latest revisions were made on 4th March, ten days before Stephen died.

When Stephen died, there was a paper in preparation with Sasha Haco, a graduate students, Malcolm Perry and Andrew Strominger. In this paper, an explanation of how black hole entropy arises at the microscopic level is proposed. If the ideas in this paper hold water, then it gives insight into the information paradox and how it might be resolved. As Stephen’s lifelong friend, the physicist Kip Thorne said at Stephen’s memorial service at Westminster Abbey ‘Stephen gave us big questions.” As more work is done on Stephen’s theories over the decades and centuries to come, we may find that Stephen gave us the answers as well. We just need to be smart enough to find them.

toggle-div#toggle"> Career

Research Fellow, Gonville and Caius Coll., 1965–69; Fellow for distinction in science, 1969–; Mem. Inst. of Theoretical Astronomy, Cambridge, 1968–72; Research Asst, Inst. of Astronomy, Cambridge, 1972–73; Cambridge University: Research Asst, Dept of Applied Maths and Theoretical Physics, 1973–75; Reader in Gravitational Physics, 1975–77, Professor, 1977–79. Fairchild Distinguished Schol., Calif Inst. of Technol., 1974–75. Reith Lectr, 2015. Mem., Pontical Acad. of Scis, 1986–; Foreign Mem., Amer. Acad. of Arts and Scis, 1984; Internat. Mem. (formerly Foreign Mem.), Amer. Philosophical Soc., 1985. Hon. Mem., RAS (Can), 1985. Hon. DSc: Oxon, 1978; Newcastle, Leeds, 1987; Cambridge, 1989; hon. degrees: Chicago, 1981; Leicester, New York, Notre Dame, Princeton, 1982; Tufts, Yale, 1989; Harvard, 1990. (Jtly) Eddington Medal, RAS, 1975; Pius XI Gold Medal, Pontical Acad. of Scis, 1975; Dannie Heinemann Prize for Math. Phys., Amer. Phys. Soc. and Amer. Inst. of Physics, 1976; William Hopkins Prize, Cambridge Philosoph. Soc., 1976; Maxwell Medal, Inst. of Physics, 1976; Hughes Medal, Royal Soc., 1976; Albert Einstein Award, 1978; Albert Einstein Medal, Albert Einstein Soc., Berne, 1979; Franklin Medal, Franklin Inst., USA, 1981; Gold Medal, RAS, 1985; Paul Dirac Medal and Prize, Inst. of Physics, 1987; (jtly) Wolf Foundn Prize for Physics, 1988; Britannica Award, 1989; Prince of Asturias Foundn Award, Spain, 1989; Julius Edgar Lilienfeld Prize, 1999; Klein Medal, Nobel Inst., 2003; Michelson Award, Case Western Univ., 2003; James Smithson Bicentennial Medal, Smithsonian Inst., Washington, 2005; Copley Medal, Royal Soc., 2006; Fonseca Prize, Univ. of Santiago de Compostela, Spain, 2008; US Presidential Medal of Freedom, 2009; Cosmos Award for outstanding public presentation of Science, Planetary Soc., 2010; Special Fundamental Physics Prize, Fundamental Physics Prize Foundn, 2012

Scientific Methods
Famous Physicists
Stephen Hawking

Stephen William Hawking

Stephen Hawking is one of the most precious gems in the world of physics, who was ahead of his time. His disability of having unsteady feet and being diagnosed with degenerative disease couldn’t stop Stephen Hawking from becoming the world’s most famous and acclaimed scientist. Even his survival would have been a marvel to this world, but he lived amazingly till 76.

Table of Contents

Who was Stephen Hawking?
Stephen Hawking’s Education Awards & Achievements
The Black Hole Theory

The Big Bang

Hawking radiation, the multiverse, who was stephen william hawking.

Stephen William Hawking was a British physicist, born on 8th January 1942. He is considered the most brilliant theoretical physicist of all time. He revolutionized the field of physics through his work on the origin of the universe and the black hole explosion theory. From the big bang to black holes, all his best-selling books appealed to physics lovers across the globe.

The English theoretical physicist whose theory of the explosion of black holes illustrated upon the theory of relativity and quantum mechanics. He also worked in the field of space-time singularities.

Stephen Hawking’s Education Awards & Achievements

Stephen William Hawking studied physics in 1962 at the University College, Cambridge and in 1966 in the Trinity Hall, Cambridge,. His contributions in physics are unparalleled, which often left other scientists scratching their heads.

Professor Stephen William Hawking holds 13 honorary degrees. He was bestowed CBE (1982), Fellow of Honor (1989) and the Presidential Medal of Freedom (2009).

He has received the Fundamental Physics Award (2013), the Copley Medal (2006) and the Wolf Foundation Award (1988). Along with a bunch of other honours awards and medals, he won the Adams Prize in 1966 for his essay Singularities and the Space-time Geometry.

He was also a member of the Royal Society, the National Academy of Sciences of the United States and the Pontifical Academy of Sciences.

The physics of black hole.

Stephen William Hawking’s name has always been associated with the black hole. He put forward his stroke of genius combining Einstein’s Theory of Relativity , which has already aroused curiosity and has been under debate for decades, and the theory of quantum mechanics. In the early 1970s, Hawkins turned his attention to both of these theories, and later on, Stephen William Hawking’s most famous thesis on black holes was proven right.

Hawking’s doctoral thesis was written at a critical time when there was an argument between two cosmological theories: the Big Bang theory and the Steady State theory. Both these theories were considered to be opposing each other at that time. However, both theories accepted that the universe is expanding, but the first one explains that the universe is expanding from an ultra-compact, super-dense state at a finite time in the past, and the second one assumes that the universe has been intensifying forever.

Hawking showed in his thesis that the Steady State theory is mathematically self-contradictory. He reasoned instead that the universe began as a dense point called a singularity which was infinitely small. His description has been accepted worldwide today.

The photons or the particles of light can’t escape from the black holes because of their intense and strong gravity. But Stephen Hawking argued on it, explaining the truth, which was more complex than the assumed fact. He applied quantum theory, especially the idea of “virtual photons”; he realized that some of these photons could appear to be radiated from the black hole . At a laboratory experiment in the Technion-Israel Institute of Technology, it has recently been confirmed that this theory is correct and is named Hawking Radiation.

Instead of a real black hole, the researchers used a “sonic black hole” from which sound waves cannot outflow.

Stephen Hawking was also involved in the most exciting topics toward the conclusion of his life was the multiverse theory. He proposed the idea that our universe, with its start in the Big Bang, is just one of an infinite number of contemporaneous bubble universes. In his very last paper in 2018, he proposed a novel mathematical framework and tried to seek out the universe in his own words. But as with any assumption concerning parallel universes, we do not have any idea if his ideas are right now. Maybe the scientists will be able to test his belief in the coming times.

Not only an amazing physicist but Stephen Hawking was an amazing and inspiring personality too, he left behind his great research theories and thoughts as his legacy to us, which is truly a gift in physics.

Stay tuned to BYJU’S for more such interesting articles. Also, register to “BYJU’S – The Learning App” for loads of interactive, engaging Physics-related videos and unlimited academic assistance.

Frequently Asked Questions

What stephen hawking is famous for.

Apart from one of the most brilliant British physicists Stephen Hawking is famous for his theories on the Big Bang and the black hole concept.

What is Stephen Hawking’s IQ

Stephen Hawking has tried to keep his IQ a secret but it was estimated that his IQ is around 160.

When did Stephen Hawking write his first book?

In 1973 Stephen Hawking wrote his first book which is named as “The Large Scale Structure of Space-TIme”

How many types of Black holes are there?

There are four types of black holes:

Intermediate
Supermassive

What is Big Bang Theory?

The Big Bang theory is the prevailing cosmological model explaining the existence of the observable universe from the earliest known periods through its subsequent large-scale evolution.

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Stephen Hawking

Born January 8 , 1942 · Oxford, Oxfordshire, England, UK
Died March 14 , 2018 · Cambridge, Cambridgeshire, England, UK (Lou Gehrig's Disease)
Birth name Stephen William Hawking
Height 5′ 11¾″ (1.82 m)
Stephen William Hawking was born on 8 January 1942 on Oxford, Oxfordshire, England. He was an English theoretical physicist, cosmologist, author and Director of Research at the Centre for Theoretical Cosmology within the University of Cambridge. His scientific works include a collaboration with Roger Penrose on gravitational singularity theorems in the framework of general relativity and the theoretical prediction that black holes emit radiation, often called Hawking radiation. Hawking was the first to set out a theory of cosmology explained by a union of the general theory of relativity and quantum mechanics. He was a vigorous supporter of the many-worlds interpretation of quantum mechanics. Hawking was an Honorary Fellow of the Royal Society of Arts (FRSA), a lifetime member of the Pontifical Academy of Sciences, and a recipient of the Presidential Medal of Freedom, the highest civilian award in the United States. In 2002, Hawking was ranked number 25 in the BBC's poll of the 100 Greatest Britons. He was the Lucasian Professor of Mathematics at the University of Cambridge between 1979 and 2009 and achieved commercial success with works of popular science in which he discusses his own theories and cosmology in general; his book "A Brief History of Time" appeared on the British Sunday Times best-seller list for a record-breaking 237 weeks. At the release party for the home video version of A Brief History of Time (1991) , Leonard Nimoy , who had played Spock on Star Trek (1966) , learned that Hawking was interested in appearing on the series. Nimoy made the necessary contact, and Hawking played a holographic simulation of himself in an episode of Star Trek: The Next Generation (1987) in 1993. The same year, his synthesizer voice was recorded for the song "Keep Talking" by the rock band Pink Floyd , and in 1999 for an appearance on The Simpsons (1989) . Hawking also guest-starred on Futurama (1999) and The Big Bang Theory (2007) . Hawking allowed the use of his copyrighted voice in the biographical drama The Theory of Everything (2014) , in which he was portrayed by Eddie Redmayne in an Academy Award-winning role. Hawking died at age 76 in his home in Cambridge, Cambridgeshire, England, early in the morning of 14 March 2018. - IMDb Mini Biography By: Pedro Borges
Spouses Elaine Mason (September 16, 1995 - 2006) (divorced) Jane Hawking (July 14, 1965 - 1995) (divorced, 3 children)
Children Robert Hawking Lucy Hawking Tim Hawking
His computerized voice box for communicating
Often made philosophical predictions regarding astrophysics
His work often focused on black holes
Well-known for his self-deprecating humor where he frequently makes jokes about his ailment and physical appearance.
He appeared as guest star on a Star Trek episode, and asked the crew to make a tour of the U.S.S. Enterprise. When he saw the warp drive, he said "I'm working on that...".
He occupied the same post, as Lucasian professor of mathematics at Cambridge University, as was earlier occupied by Sir Isaac Newton.
He was a huge fan of Star Trek (1966) and the only person ever to play himself in any Star Trek film or series. He was also a huge fan of Doctor Who (1963) and Red Dwarf (1988) .
On account of the American accent on his voice synthesizer, many people have no idea that he was really English. He had said he would like to replace it with a synthesizer with an English accent, but he had become so synonymous with his that he knew he couldn't.
Claimed to have disproved Time Travel by throwing a Party for Time Travelers, and then advertising it the day after. No-one attended.
I think that computer viruses should count as life. I think it says something about human nature that the only form of life we have created so far is purely destructive. We've created life in our own image.
To confine our attention to terrestrial matters would be to limit the human spirit.
We are just an advanced breed of monkeys on a minor planet of a very average star. But we can understand the Universe. That makes us something very special.
My goal is simple. It is complete understanding of the universe, why it is as it is, and why it exists at all.
Some of our greatest catastrophes have been caused by people talking, and some by people not talking.

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Stephen Hawking

Introduction.

Stephen William Hawking was born on January 8, 1942, in Oxford, England. He studied at the University of Oxford and earned a bachelor’s degree from there in 1962. When Hawking was 21, he was diagnosed with amyotrophic lateral sclerosis—a disease that weakens muscles and causes paralysis. Despite his diagnosis, he continued to work. He earned a doctorate from the University of Cambridge in 1966.

As a cosmologist, Hawking studied the basic laws that govern the universe. One of his theories was that mini black holes were formed following the big bang . These mini black holes contain one billion tons of mass but occupy less than the space of an atom . Hawking’s work inspired others to investigate the properties of black holes.

Hawking became a professor at Cambridge in 1977. Two years later he was appointed Lucasian professor of mathematics, a post once held by Isaac Newton . In 2009 he was named the Director of Research for the Department of Applied Mathematics and Theoretical Physics at Cambridge.

Hawking earned many honors and awards, including many honorary degrees. He was elected to the Royal Society in 1974, as one of its youngest fellows. He was made a Commander of the British Empire in 1982. In 2006 Hawking received the Copley Medal from the Royal Society, and he was awarded the U.S. Presidential Medal of Freedom in 2009. Hawking died on March 14, 2018, in Cambridge.

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Stephen Hawking

Occupation: Scientist and astrophysicist
Born: January 8, 1942 in Oxford, United Kingdom
Died: March 14, 2018 in Cambridge, United Kingdom
Best known for: Hawking radiation and the book A Brief History of Time

He was born on the 300th anniversary of the death of the famous scientist Galileo .
He has been married twice and has three children.
Stephen has been on several TV shows including The Simpsons and the Big Bang Theory .
The book A Brief History of Time only has one equation, Einstein's famous E = mc 2 .
Hawking has co-written several children's books with his daughter Lucy including George's Cosmic Treasure Hunt and George and the Big Bang .
He received the Presidential Medal of Freedom in 2009.
He hoped to travel to space one day and trained with NASA on their zero gravity aircraft.
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Stephen Hawking: A life in pictures
Stephen Hawking, who was born in 1942, studied physics in Oxford and later went on to Cambridge for his postgraduate research in cosmology. At the age of 22, he was diagnosed with a rare form of ...
Stephen Hawking
Stephen William Hawking (prononcé [ˈ s t iː v ə n ˈ w ɪ l i ə m ˈ h ɔː k ɪ ŋ] Écouter), né le 8 janvier 1942 à Oxford et mort le 14 mars 2018 à Cambridge, est un physicien théoricien et cosmologiste britannique.Ses livres et ses apparitions publiques ont fait de ce théoricien de renommée mondiale une célébrité. Depuis l'âge d'une vingtaine d'années, Hawking souffre d ...
Stephen Hawking
Stephen William Hawking (talaffuzi: Stiven Uilyam Hoking; 8-yanvar 1942 — 14-mart 2018) ingliz nazariyotchi fizigi, kosmologi, yozuvchi va Kembrij universiteti Nazariy kosmologiya markazi tadqiqot direktori boʻlgan. [2] [3] Ilmiy ishlari sirasiga Roger Penrose bilan birgalikda kashf etgan gravitatsiya singularligi teoremalari hamda qora tuynuk nurlanishi (Hawking nurlanishi) hodisasining ...
Stephen Hawking
v. t. e. Stephen William Hawking, CH, CBE, FRS, FRSA (8 January 1942 - 14 March 2018) was an English theoretical physicist, cosmologist, and author who was director of research at the Centre for Theoretical Cosmology at the University of Cambridge. [ 6][ 17][ 18] Between 1979 and 2009, he was the Lucasian Professor of Mathematics at Cambridge ...
Stephen Hawking
Stephen Hawking (born January 8, 1942, Oxford, Oxfordshire, England—died March 14, 2018, Cambridge, Cambridgeshire) was an English theoretical physicist whose theory of exploding black holes drew upon both relativity theory and quantum mechanics. He also worked with space-time singularities.
Stephen Hawking: Biography, Scientist, Relativity, ALS
Stephen Hawking was a scientist known for his work with black holes and relativity, and the author of popular science books like 'A Brief History of Time.' By Biography.com Editors Updated: Jul 17 ...
Stephen Hawking Biography
Stephen Hawking Biography. Stephen Hawking (1942 - 2018) is an English theoretical physicist, cosmologist and author. He is best known for his attempts to explain in clear terms the origins of the universe and some of the most complicated aspects of the cosmos and physics. Hawking was the first scientist to offer a theory of cosmology ...
Stephen Hawking biography: Theories, books & quotes
British cosmologist Stephen William Hawking was born in Oxford, England on Jan. 8, 1942 — 300 years to the day after the death of the astronomer Galileo Galilei. He attended University College ...
Biography of Stephen Hawking, Physicist and Cosmologist
Biography of Stephen Hawking, Physicist and Cosmologist. Stephen Hawking (January 8, 1942-March 14, 2018) was a world-renowned cosmologist and physicist, especially esteemed for overcoming an extreme physical disability to pursue his groundbreaking scientific work. He was a bestselling author whose books made complex ideas accessible to the ...
7 Fascinating Facts About Stephen Hawking
He was an average student in elementary school. Hawking didn't have the sort of sparkling early academic career you'd expect from a Grade-A genius. He claimed he didn't learn to properly read ...
Stephen Hawking: The science that made him famous
An explanation for the Universe. Having tackled single black holes, Hawking turned his attention to the Universe as a whole - the ultimate, inescapable gravitational container. The laws of quantum ...
Stephen Hawking: A life in pictures
Stephen Hawking, who was born in 1942, studied physics in Oxford and later went on to Cambridge for his postgraduate research in cosmology. At the age of 22, he was diagnosed with a rare form of ...
Stephen Hawking
Lived 1942 - 2018. Stephen Hawking was a theoretical physicist and cosmologist, widely considered to be one of the greatest scientists of his time. He was the first scientist to devise a cosmology that married the general theory of relativity and quantum mechanics, and he made huge contributions to our understanding of black holes. Hawking.
Stephen Hawking: Biography, Fun Facts, Gallery, Quotes and Works of
Stephen William Hawking was born on January 8, 1942, in Oxford, England. His birth date coincided with the 300th anniversary of Galileo's death. His father, Frank Hawking, was a research biologist, and his mother, Isobel Eileen Hawking, was a political activist and one of the first women to study at Oxford University in the 1930s. He had two ...
Stephen Hawking Biography
Stephen Hawking Biography. Born: January 8, 1942 Oxford, England English scientist, physicist, and mathematician British physicist and mathematician Stephen Hawking has made fundamental contributions to the science of cosmology—the study of the origins, structure, and space-time relationships of the universe. Early life Stephen William ...
Stephen Hawking: The Greatest Scientist of Our Time
Signup for your FREE trial to The Great Courses Plus here: http://ow.ly/oMJr30l6iFJ→Subscribe for new videos every Monday and Thursday! https://www.youtube.c...
Stephen Hawking
Stephen William Hawking CH CBE FRS FRSA (8 January 1942 - 14 March 2018) was a British theoretical physicist and mathematician.He was born in Oxford.In 1950, he moved to St Albans, Hertfordshire.He was one of the world's leading theoretical physicists. [17] Hawking has written many science books for people who are not scientists.. Hawking was a professor of mathematics at the University of ...
Stephen Hawking's Life and Achievements: a Brief Biographical Timeline
Stephen Hawking was a theoretical physicist who pioneered new understandings of black holes, the universe, and how much one person can achieve. Hawking died early in the morning on March 14, 2018 ...
Stephen Hawking Estate
The accolades began. In 1966 Stephen won the Adams Prize for his essay entitled, 'Singularities and the Geometry of Space-Time', and which formed the basis for his first academic book, co-authored with George Ellis, The Large Scale Structure of Space-Time.This book remains in print today. In 1969, during a trip to the USA, Stephen observed Joseph Weber's early and rudimentary experiments ...
Stephen William Hawking
Stephen William Hawking was a British physicist, born on 8th January 1942. He is considered the most brilliant theoretical physicist of all time. He revolutionized the field of physics through his work on the origin of the universe and the black hole explosion theory. From the big bang to black holes, all his best-selling books appealed to ...
Stephen Hawking
Stephen Hawking. Actor: Star Trek: The Next Generation. Stephen William Hawking was born on 8 January 1942 on Oxford, Oxfordshire, England. He was an English theoretical physicist, cosmologist, author and Director of Research at the Centre for Theoretical Cosmology within the University of Cambridge. His scientific works include a collaboration with Roger Penrose on gravitational singularity ...
Stephen Hawking
Watch a short biography video about Stephen Hawking and learn about his childhood, his theory on black holes, his living with ALS, and his popular science bo...
Stephen Hawking (1942-2018)
Stephen Hawking's achievements as a scientist, communicator, and public figure were commensurate with his great fame. Stephen was born in Oxford on 8 January 1942 (which, as he enjoyed pointing out, was the 300th anniversary of Galileo's death) and entered the University of Oxford in 1959. Although his mathematical aptitude was quickly ...
Stephen Hawking
Stephen Hawking is an English scientist. He is a cosmologist, or someone who studies the universe as a whole. He is known for his work on black holes . Hawking has also written a number of best-selling books, including A Brief History of Time: From the Big Bang to Black Holes (1988).
Stephen Hawking Biography
Died: March 14, 2018 in Cambridge, United Kingdom. Best known for: Hawking radiation and the book A Brief History of Time. Biography: Early Life. Stephen Hawking was born in Oxford, England on January 8, 1942. He grew up in a highly educated family. Both of his parents had attended Oxford University and his father, Frank, was a medical researcher.

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7 Fascinating Facts About Stephen Hawking

He was an average student in elementary school

Upon his ALS diagnosis, Hawking was told he only had two-and-a-half years to live

He was initially puzzled by his own equation

Hawking almost died in 1985

He considered his non-descript computer voice part of his identity

Hawking wrote books using his vocal synthesizer

He had a wicked sense of humor

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A brief history of Stephen Hawking's time on planet Earth in one chart

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Watch: What happens to old Broadway costumes

Stephen Hawking

toggle-div#toggle"> 1960s: graduation from Oxford and the move to Cambridge

toggle-div#toggle"> Mid-60s to early-70s: serious career work

toggle-div#toggle"> 1970s: ‘I was writing the rulebook for black holes’

toggle-div#toggle"> 1980s: A health crisis, and authorial success

toggle-div#toggle"> 1990s: Publishing success and a party no-one came to

toggle-div#toggle"> 2000s: Debates and bets

toggle-div#toggle"> 2010s: ‘It has been a glorious time to be alive…’

toggle-div#toggle"> Career

Stephen William Hawking

The Big Bang

Stephen Hawking’s Education Awards & Achievements

He was also a member of the Royal Society, the National Academy of Sciences of the United States and the Pontifical Academy of Sciences.

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