Top 10 Scientists of the World
Scientists have enormous contribution in the advancement of human civilization. Throughout the history of the world, many scientists have dedicated their lives for research and innovation. Some of them even faced a lot of torture for their theories but they continued their mission and thus we are now in a modern world. I have made a list of
10 great scientists in the history. Well, naturally, I had to leave out a lot of great figures. However, I feel that my list represents some of the greatest scientists ever.
1. Scientist Aristotle
- Greek philosopher and scientist
- Born: c. 384 B.C.E.
- Chalcidice, Greece
- Died: c. 322 B.C.E.
- Chalcis, Greece
Aristotle is the Great philosopher who had a vast knowledge in different disciplines. Studying different subject he contributed a lot in each of those subjects. He contributed in physics, poetry, zoology, logic, rhetoric, politics, government, ethics, and biology. This laurel Greek philosopher was born in Stagira in 384 BC. His father Nicomachus was a physician to the king Amyntas III of Macedon’s court and it is believed that their ancestors also held this position. Earlier in his life he was taught by his father at home and the medical knowledge he got from his father led him to investigate natural phenomenon later on. At the age of 18 he admitted in to the young Greek aristocracy run by Plato, another Great Greek philosopher, and Aristotle became the most favorite student of Plato.
As a scientist Aristotle made a good contribution which was very influential for the development of the science over the year. Mainly he spent most of his life researching the natural science and he did the researches without making reference to the Mathematics which was later proven as the weakness of his research by the scientists. His natural science oriented research includes botany, zoology, physics, astronomy, chemistry, and meteorology, geometry and many more. He was also the teacher of the Great warrior Alexander the Great. This great philosopher died n 322 BC.
Early life
Aristotle was born in the small Greek town of Stagiros (later Stagira) in the northern Greek district of Chalcidice. His father, Nicomachus, was a physician who had important social connections. Aristotle's interest in science was surely inspired by his father's work, although Aristotle did not display a particularly keen interest in medicine. The events of his early life are not clear. It is possible that his father served at the Macedonian court (the political leaders of Macedonia, an ancient empire) as physician to Amyntas II (died c. 370 B.C.E. ) and that Aristotle spent part of his youth there.
At the age of seventeen Aristotle went to Athens, Greece, and joined Plato's (c. 428–c. 348 B.C.E. ) circle at the Academy, a school for philosophers. There he remained for twenty years. Although his respect and admiration for Plato was always great, differences developed which ultimately caused a break in their relationship. Upon Plato's death Aristotle left for Assos in Mysia (in Asia Minor, today known as Turkey), where he and Xenocrates (c. 396–c. 314 B.C.E. ) joined a small circle of Platonists (followers of Plato) who had already settled there under Hermias, the ruler of Atarneus. Aristotle married the niece of Hermias, a woman named Pythias, who was killed by the Persians some time thereafter.
In 342 B.C.E. Aristotle made his way to the court of Philip of Macedon (c. 382–c. 336 B.C.E. ). There Aristotle became tutor to Alexander (c. 356–c. 323 B.C.E. ), who would become master of the whole Persian Empire as Alexander the Great. Little information remains regarding the specific contents of Alexander's education at the hands of Aristotle, but it would be interesting to know what political advice Aristotle gave to the young Alexander. The only indication of such advice is found in the fragment of a letter in which the philosopher tells Alexander that he ought to be the leader of the Greeks but the master of the barbarians (foreigners).
Aristotle's Family
Aristotle's parents were Nicomachus, a physician said to be able to trace his ancestry through a line of distinguished physicians, and Phaestis, a woman of aristocratic descent. Nichomachus was probably born in Stagira , a small Greek township situated among green but rocky hills roughly 175 miles north of Athens, and about fifty miles east of the Macedonian city of Pella, where Alexander the Great was later born. Phaestis was from Chalcis. (Stagira had originally been settled by emmigrants from the city of Chalcis, on the island of Euboea, and also by the inhabitants of the smaller island of Andros, around 750 BCE.) The following link provides a good map of ancient Greece, and provides an aid in understanding the geography of these cities.
The couple had three children: a daughter, Arimneste, a son, Arimnestus, and Aristotle. Arimneste was probably a good bit older than Aristotle. The parallelism in the names of his brother and sister suggest that Aristotle was the youngest of the three.
Arimnestus died without having sired children. Arimneste may have been the mother of a daughter, Hero, and was certainly the mother of a son, Nicanor.
2. Scientist Sir Isaac Newton
Newton was also a man of versatile quality. He was physicist, mathematician, astronomer, alchemist, and natural philosopher in a row. His contribution in the development of science is a special one. He I best known for his explanation of Universal Gravitation and three laws of motion, and he was able to prove that the reason of both the motion of objects on Earth and of celestial bodies are controlled by the same Neutral laws.
These findings could make a revolutionary change in the development of science. In mechanical science his great contribution was in optics. He could make a reflecting telescope. He also made some research on light and stars. His research on General binomial Theorem helped to be introduced today’s Calculus.
Newton was born to a farmer family but before three months of his birth his father died and then he was brought up to his maternal grandmother as her mother remarried. Newton could show his talent from his early life in The King’s School in Grantham and later he joined to the Cambridge University where he took his higher degrees.
INTRODUCTION
Newton, Sir Isaac (1642-1727), mathematician and physicist, one of the foremost scientific intellects of all time. Born at Woolsthorpe, near Grantham in Lincolnshire, where he attended school, he entered Cambridge University in 1661; he was elected a Fellow of Trinity College in 1667, and Lucasian Professor of Mathematics in 1669.
He remained at the university, lecturing in most years, until 1696. Of these Cambridge years, in which Newton was at the height of his creative power, he singled out 1665-1666 (spent largely in Lincolnshire because of plague in Cambridge) as "the prime of my age for invention". During two to three years of intense mental effort he prepared Philosophiae Naturalis Principia Mathematica (Mathematical Principles of Natural Philosophy) commonly known as the Principia, although this was not published until 1687.
As a firm opponent of the attempt by King James II to make the universities into Catholic institutions, Newton was elected Member of Parliament for the University of Cambridge to the Convention Parliament of 1689, and sat again in 1701-1702. Meanwhile, in 1696 he had moved to London as Warden of the Royal Mint. He became Master of the Mint in 1699, an office he retained to his death. He was elected a Fellow of the Royal Society of London in 1671, and in 1703 he became President, being annually re-elected for the rest of his life. His major work, Opticks, appeared the next year; he was knighted in Cambridge in 1705.
As Newtonian science became increasingly accepted on the Continent, and especially after a general peace was restored in 1714, following the War of the Spanish Succession, Newton became the most highly esteemed natural philosopher in Europe. His last decades were passed in revising his major works, polishing his studies of ancient history, and defending himself against critics, as well as carrying out his official duties. Newton was modest, diffident, and a man of simple tastes. He was angered by criticism or opposition, and harboured resentment; he was harsh towards enemies but generous to friends. In government, and at the Royal Society, he proved an able administrator. He never married and lived modestly, but was buried with great pomp in Westminster Abbey.
Newton has been regarded for almost 300 years as the founding examplar of modern physical science, his achievements in experimental investigation being as innovative as those in mathematical research. With equal, if not greater, energy and originality he also plunged into chemistry, the early history of Western civilization, and theology; among his special studies was an investigation of the form and dimensions, as described in the Bible, of Solomon's Temple in Jerusalem.
OPTICS
In 1664, while still a student, Newton read recent work on optics and light by the English physicists Robert Boyle and Robert Hooke; he also studied both the mathematics and the physics of the French philosopher and scientist René Descartes. He investigated the refraction of light by a glass prism; developing over a few years a series of increasingly elaborate, refined, and exact experiments, Newton discovered measurable, mathematical patterns in the phenomenon of colour. He found white light to be a mixture of infinitely varied coloured rays (manifest in the rainbow and the spectrum), each ray definable by the angle through which it is refracted on entering or leaving a given transparent medium.
He correlated this notion with his study of the interference colours of thin films (for example, of oil on water, or soap bubbles), using a simple technique of extreme acuity to measure the thickness of such films. He held that light consisted of streams of minute particles. From his experiments he could infer the magnitudes of the transparent "corpuscles" forming the surfaces of bodies, which, according to their dimensions, so interacted with white light as to reflect, selectively, the different observed colours of those surfaces.
The roots of these unconventional ideas were with Newton by about 1668; when first expressed (tersely and partially) in public in 1672 and 1675, they provoked hostile criticism, mainly because colours were thought to be modified forms of homogeneous white light. Doubts, and Newton's rejoinders, were printed in the learned journals. Notably, the scepticism of Christiaan Huygens and the failure of the French physicist Edmé Mariotte to duplicate Newton's refraction experiments in 1681 set scientists on the Continent against him for a generation. The publication of Opticks, largely written by 1692, was delayed by Newton until the critics were dead. The book was still imperfect: the colours of diffraction defeated Newton. Nevertheless, Opticks established itself, from about 1715, as a model of the interweaving of theory with quantitative experimentation.
MATHEMATICS
In mathematics too, early brilliance appeared in Newton's student notes. He may have learnt geometry at school, though he always spoke of himself as self-taught; certainly he advanced through studying the writings of his compatriots William Oughtred and John Wallis, and of Descartes and the Dutch school. Newton made contributions to all branches of mathematics then studied, but is especially famous for his solutions to the contemporary problems in analytical geometry of drawing tangents to curves (differentiation) and defining areas bounded by curves (integration).
Not only did Newton discover that these problems were inverse to each other, but he discovered general methods of resolving problems of curvature, embraced in his "method of fluxions" and "inverse method of fluxions", respectively equivalent to Leibniz's later differential and integral calculus. Newton used the term "fluxion" (from Latin meaning "flow") because he imagined a quantity "flowing" from one magnitude to another. Fluxions were expressed algebraically, as Leibniz's differentials were, but Newton made extensive use also (especially in the Principia) of analogous geometrical arguments. Late in life, Newton expressed regret for the algebraic style of recent mathematical progress, preferring the geometrical method of the Classical Greeks, which he regarded as clearer and more rigorous.
Newton's work on pure mathematics was virtually hidden from all but his correspondents until 1704, when he published, with Opticks, a tract on the quadrature of curves (integration) and another on the classification of the cubic curves. His Cambridge lectures, delivered from about 1673 to 1683, were published in 1707.
3. Scientist Galileo Galilei
(born Feb. 15, 1564, Pisa [Italy]—died Jan. 8, 1642, Arcetri, near Florence) Italian natural philosopher, astronomer, and mathematician who made fundamental contributions to the sciences of motion, astronomy, and strength of materials and to the development of the scientific method. His formulation of (circular) inertia, the law of falling bodies, and parabolic trajectories marked the beginning of a fundamental change in the study of motion.
His insistence that the book of nature was written in the language of mathematics changed natural philosophy from a verbal, qualitative account to a mathematical one in which experimentation became a recognized method for discovering the facts of nature. Finally, his discoveries with the telescope revolutionized astronomy and paved the way for the acceptance of the Copernican heliocentric system, but his advocacy of that system eventually resulted in an Inquisition process against him.
Galileo is considered as one of the greatest contributor to the development of Science. It is undoubtedly true that Galileo could first helped science to come out of the trend of Aristotle. He was physicist, astronomer, and philosopher and his best known contributions lie in the development of Telescope, first two laws of motion and also in Astronomy. He is also considered as the father of astronomy, father of physics and father of science.
He was born to a mathematician and musician father Vincenzo Galilei and his mother was Giulia Ammannati in Italy. He was taught form his very early life. He was the first scientist who followed the way of quantitative experiments in his research where the result was based on mathematics. He had to suffer a lot from the church for his theories.
Early life and career
Galileo was born in Pisa, Tuscany, on February 15, 1564, the oldest son of Vincenzo Galilei, a musician who made important contributions to the theory and practice of music and who may have performed some experiments with Galileo in 1588–89 on the relationship between pitch and the tension of strings. The family moved to Florence in the early 1570s, where the Galilei family had lived for generations. In his middle teens Galileo attended the monastery school at Vallombrosa, near Florence, and then in 1581 matriculated at the University of Pisa, where he was to study medicine.
However, he became enamoured with mathematics and decided to make the mathematical subjects and philosophy his profession, against the protests of his father. Galileo then began to prepare himself to teach Aristotelian philosophy and mathematics, and several of his lectures have survived. In 1585 Galileo left the university without having obtained a degree, and for several years he gave private lessons in the mathematical subjects in Florence and Siena. During this period he designed a new form of hydrostatic balance for weighing small quantities and wrote a short treatise, La bilancetta (“The Little Balance”), that circulated in manuscript form. He also began his studies on motion, which he pursued steadily for the next two decades.
In 1588 Galileo applied for the chair of mathematics at the University of Bologna but was unsuccessful. His reputation was, however, increasing, and later that year he was asked to deliver two lectures to the Florentine Academy, a prestigious literary group, on the arrangement of the world in Dante's Inferno. He also found some ingenious theorems on centres of gravity (again, circulated in manuscript) that brought him recognition among mathematicians and the patronage of Guidobaldo del Monte (1545–1607), a nobleman and author of several important works on mechanics. As a result, he obtained the chair of mathematics at the University of Pisa in 1589. There, according to his first biographer, Vincenzo Viviani (1622–1703), Galileo demonstrated, by dropping bodies of different weights from the top of the famous Leaning Tower, that the speed of fall of a heavy object is not proportional to its weight, as Aristotle had claimed.
The manuscript tract De motu ( On Motion), finished during this period, shows that Galileo was abandoning Aristotelian notions about motion and was instead taking an Archimedean approach to the problem. But his attacks on Aristotle made him unpopular with his colleagues, and in 1592 his contract was not renewed. His patrons, however, secured him the chair of mathematics at the University of Padua, where he taught from 1592 until 1610.
4. Scientist Charles Robert Darwin
Charles Robert Darwin (1809-1882), naturalist, was born on 12 February 1809, the son of Robert Darwin and his wife Susannah, daughter of Josiah Wedgwood, and the grandson of Erasmus Darwin.
He was educated at Shrewsbury, Edinburgh University, and Christ's College, Cambridge. At Cambridge he came under the influence of J. S. Henslow, professor of botany, and on graduation in 1831 was recommended by him for the post of naturalist in H.M.S. Beagle, on a five-year survey voyage, chiefly along the coast of South America. Although Darwin was passionately interested in natural history, he was at this time primarily a geologist by inclination, and his predilections are reflected in his records of the voyage. Nevertheless, his observations during this period formed the nucleus from which he developed his theory of evolution by natural selection, set out in On the Origin of Species by Means of Natural Selection (London, 1859) and The Descent of Man (London, 1871).
There can be debate about whether Charles Darwin (12 February 1809 – 19 April 1882) is the greatest scientist of all time but there is no doubt that he is the most controversial scientist of all time. On the Origin of Species by Means of Natural Selection (1859)- this is the book that has made Darwin immortal in the world history. This book has changed the course of science radically. It is perhaps an irony that Darwin studied theology and instead of becoming a clergy, he became naturalist.
Darwin went to different parts of the world and carried out extensive research. His theory about origin of human beings caused widespread controversy. Darwin stated that human beings have evolved through many changes and survival of the fittest was in important factor in the development of animal world. Darwin’s theory still causes passionate debate among his supporters and opponents.
The Beagle was anchored at Sydney from 12 to 30 January 1836. During this time Darwin journeyed to Bathurst, making superficial observations on the geology of the Blue Mountains and collecting some native fauna and flora. He was 'rather disappointed in the state of society', and made the misjudgment that 'agriculture can never succeed on an extended scale'. His interest in Van Diemen's Land, where the Beagle stayed for ten days in February, was mostly geological and sociological: he gave a graphic account of the subjugation of the Aboriginals.
On 6 March the Beagle arrived at King George Sound; Darwin was noticeably unimpressed: 'we did not during our voyage pass a more dull and uninteresting time'; though he did see a 'corrobery'. The Beagle left Australia on 14 March. He published an account of the voyage, Journal of Researches into the Geology and Natural History of the Various Countries Visited by H.M.S. Beagle (London, 1839) which ran to several editions.
The geographical isolation of Australian fauna and flora gave Darwin some very valuable evidence on evolution; and Australian Aboriginals provided support for his theory of natural selection. Darwin maintained a continuing interest in Australia through correspondence with a number of her scientists, including Gerard Krefft, R. D. Fitzgerald, Thomas Mitchell and Rev. W. B. Clarke. He also corresponded with Conrad Martens and his letters addressed to a former shipmate named Covington, who settled in New South Wales, were published in the Sydney Mail in 1884. When (Sir) Joseph Hooker published the Flora Tasmaniae (London, 1860), Darwin expressed to his friend his pride in his 'adopted country' and confided that emigration to Tasmania was his castle in the air.
He never returned to Australia; nor after the Beagle voyage did he leave England again. In January 1839 Darwin married his cousin Emma Wedgwood, by whom he had six sons and four daughters. He died on 19 April 1882.
Darwin was one of the last, and probably the greatest, of the eclectic scientists who preceded the age of professional specialization. His genius lay in his ability to select, from the facts which he so diligently collected, every relevant point and fit it into his bold and far-reaching theories. He was not the first to advance a theory of evolution; but his massive weight of evidence carried conviction where earlier theorists had failed. He was shy and modest and shrank from controversy, an unfortunate trait in the author of the most controversial book of the century. Luckily he had devoted friends, including Thomas Huxley, Hooker, Lubbock, John Gray and Haeckel, who were happy and eager to maintain the sometimes acrimonious discussions which were so distasteful to him.
5. Scientist Albert Einstein
- Birth name: - Albert Einstein
- Born:- March 14, 1879
- Ulm, Württemberg, Germany
- Died:- April 18, 1955 (aged 76)
- Princeton, New Jersey, U.S.
- Spouse(s):- Mileva Marić (1875 - 1948)
- Elsa Einstein (1876 - 1936)
- Children:- Eduard Einstein (1910 - 1965)
- Hans Albert Einstein (born in 1904)
Albert Einstein was born at Ulm, in Württemberg, Germany, on March 14, 1879. Six weeks later the family moved to Munich, where he later on began his schooling at the Luitpold Gymnasium. Later, they moved to Italy and Albert continued his education at Aarau, Switzerland and in 1896 he entered the Swiss Federal Polytechnic School in Zurich to be trained as a teacher in physics and mathematics. In 1901, the year he gained his diploma, he acquired Swiss citizenship and, as he was unable to find a teaching post, he accepted a position as technical assistant in the Swiss Patent Office. In 1905 he obtained his doctor's degree.
During his stay at the Patent Office, and in his spare time, he produced much of his remarkable work and in 1908 he was appointed Privatdozent in Berne. In 1909 he became Professor Extraordinary at Zurich, in 1911 Professor of Theoretical Physics at Prague, returning to Zurich in the following year to fill a similar post. In 1914 he was appointed Director of the Kaiser Wilhelm Physical Institute and Professor in the University of Berlin.
He became a German citizen in 1914 and remained in Berlin until 1933 when he renounced his citizenship for political reasons and emigrated to America to take the position of Professor of Theoretical Physics at Princeton*. He became a United States citizen in 1940 and retired from his post in 1945.
Einstein is the great scientist of the twentieth century and notable physicist of all time. It is told that he had learning disability in his childhood. He could not talk till he was three and could not read till he was eight. Despite such problems he later became the noble prize winner for his contribution to the Physics. His theory of relativity is considered as a revolutionary development of Physics. He got Noble Prize in Physics in 1921 for his explanation of the Photoelectric Effect and for his research in Theoretical physics.
6. Scientist Thomas Edison
[born Feb. 11, 1847, Milan, Ohio, U.S.—died Oct. 18, 1931, West Orange, N.J.] American inventor who, singly or jointly, held a world record 1,093 patents. In addition, he created the world's first industrial research laboratory.
Edison was the quintessential American inventor in the era of Yankee ingenuity. He began his career in 1863, in the adolescence of the telegraph industry, when virtually the only source of electricity was primitive batteries putting out a low-voltage current. Before he died, in 1931, he had played a critical role in introducing the modern age of electricity. From his laboratories and workshops emanated the phonograph, the carbon-button transmitter for the telephone speaker and microphone, the incandescent lamp, a revolutionary generator of unprecedented efficiency, the first commercial electric light and power system, an experimental electric railroad, and key elements of motion-picture apparatus, as well as a host of other inventions.
Edison was the seventh and last child—the fourth surviving—of Samuel Edison, Jr., and Nancy Elliot Edison. At an early age he developed hearing problems, which have been variously attributed but were most likely due to a familial tendency to mastoiditis. Whatever the cause, Edison's deafness strongly influenced his behaviour and career, providing the motivation for many of his inventions.
Edison is the great inventor who has over 1000 patents and his inventions are in various fields used in our daily life. In his early life he was thought to have a learning disability and he could not read till he was twelve and later he himself admitted that he became deaf after pulling up to a train car by his ears. He first could able to turn the attention of the world after inventing Phonograph. His one of the most popular invention is the Electric Bulb. He also developed the telegraph system. His invention of carbon telephone transmitter developed the carbon microphone which was used in the telephoned till 1980. He also became a prominent businessman and his business institution produced his inventions and marketed the products to the general people.
Early years
In 1854 Samuel Edison became the lighthouse keeper and carpenter on the Fort Gratiot military post near Port Huron, Mich., where the family lived in a substantial home. Alva, as the inventor was known until his second marriage, entered school there and attended sporadically for five years. He was imaginative and inquisitive, but because much instruction was by rote and he had difficulty hearing, he was bored and was labeled a misfit.
To compensate, he became an avid and omnivorous reader. Edison's lack of formal schooling was not unusual. At the time of the Civil War the average American had attended school a total of 434 days—little more than two years' schooling by today's standards.
In 1859 Edison quit school and began working as a trainboy on the railroad between Detroit and Port Huron. Four years earlier, the Michigan Central had initiated the commercial application of the telegraph by using it to control the movement of its trains, and the Civil War brought a vast expansion of transportation and communication. Edison took advantage of the opportunity to learn telegraphy and in 1863 became an apprentice telegrapher.
7. Scientist Alessandro Giuseppe Antonio Anastasio Volta
Alessandro Volta, Italian physicist, known for his pioneering work in electricity. Volta was born in Como and educated in the public schools there. By 1800 he had developed the so-called voltaic pile, a forerunner of the electric battery, which produced a steady stream of electricity. In honor of his work in the field of electricity, the electrical unit known as the volt was named in his honor.
Alessandro Volta, Italian physicist, known for his pioneering work in electricity. Volta was born in Como and educated in the public schools there. In 1774 he became professor of physics at the Royal School in Como, and in the following year he devised the electrophorus, an instrument that produced charges of static electricity.
In 1776-77 he applied himself to chemistry, studying atmospheric electricity and devising experiments such as the ignition of gases by an electric spark in a closed vessel. In 1779 he became professor of physics at the University of Pavia, a chair he occupied for 25 years. By 1800 he had developed the so-called voltaic pile, a forerunner of the electric battery, which produced a steady stream of electricity.
In honor of his work in the field of electricity, Napoleon made him a count in 1810. A museum in Como, the Voltian Temple, has been erected in his honor and exhibits some of the original instruments he used to conduct experiments. Near lake Como stands the Villa Olmo, which houses the Voltian Foundation, an organization which promotes scientific activities. Volta carried out his juvenile studies and made his first inventions in Como.
Volta was Italian physicist and he is best known for his contribution to the development of electric battery. This benevolent scientist is also regarded as one of the founder of the electric age. His parents sent him to the Jesuit school intending to make him a Jurist. He also taught in the University of Pavia for 25 year. After that in 1800 he could make voltaic pile which could produce steady electric current. He then worked on to develop the electric bulb. For his work in the electric development he was given a count by Napoleon. Emperor of Austria honored him naming him a professor of Philosophy at Padova. For his honor an electric unit Volt was named after him.
Milestones
1775 Volta devised the electrophorus, a device that produced a static electric charge.
1777 he studied the chemistry of gases, discovered methane
1779 he became professor of physics at the University of Pavia
1794 Volta married Teresa Peregrini, daughter of Count Peregrini; the couple had three sons.
1800 he developed the so-called voltaic pile, a forerunner of the electric battery
1810 In honor of his work in the field of electricity, Napoleon made him a count
1815 the Emperor of Austria named him a professor of philosophy at Padova.
1816 Volta's works were published in five volumes in Florence
1881 an important electrical unit, the volt, was named in his honor.
Volta, Alessandro Volta, Count Alessamdro Volta, battery, electric battery, voltic pile, wet cell battery, volt, inventor, biography, profile, history, inventor of, history of, who invented, invention of, fascinating facts.
8. Scientist Stephen Hawking
Born January 8, 1942 in Oxford, England. The eldest of Frank and Isobel Hawking's four children, Stephen William Hawking was born on the 300th anniversary of the death of Galileo, which has long been a source of pride for the noted physicist.
Stephen was born into a family of thinkers. At a time when few women thought of going to college, the Scottish born Isobel earned her way into Oxford University in the 1930s, making her one of the college's first female students. Frank Hawking, another Oxford graduate, was a respected medical researcher with a specialty in tropical diseases.
Stephen Hawking's birth came at an inopportune time for his parents, who didn't have much money. The political climate was also tense, as England was dealing with World War II and the onslaught of German bombs. In an effort to seek a safer place to have their first child, Frank moved his pregnant wife from their London home to Oxford. The Hawkings would go on to have two other children, Mary (1943) and Philippa (1947). A second son, Edward, was adopted in 1956.
The Hawkings, as one close family friend described them, were an "eccentric" bunch. Dinner was often eaten in silence, each of the Hawkings intently reading a book. The family car was an old London taxi and their home in St. Albans was a three-story fixer-upper that never quite got fixed. The Hawkings also kept bees in the basement, and made fireworks in the greenhouse.
This famous scientist is considered as the greatest scientist of the twentieth century after Einstein. Haw king’s big bang theory and black hole theory has turned the attention of the world. He is the professor of Mathematics of the University of Cambridge. Though he is now about to be paralyzed, he is teaching through a computer supported a machine by which his world are compiled. His physical illness could not make him stop form his research. His famous book is “A Brief History of Time”.
In 1950, Stephen's father took work as the head of the Division of Parasitology at the National Institute of Medical Research, and spent the winter months in Africa doing research. He wanted his oldest child to go into medicine, but from an early age Stephen showed a passion for science and the sky. That was evident to his mother who, along with her children, often stretched out in the backyard on summer evenings to stare up at the stars. "Stephen always had a strong sense of wonder," she remembered. "And I could see that the stars would draw him."
Early in his academic life Stephen, while recognized as bright, was not an exceptional student. At one point in high school, his mother recalled, he was third from the bottom of his class. Instead, Stephen turned his mind loose on pursuits outside of school. He loved board games, and with a few close friends created new games of their own. At the age of 16 Stephen, along with several other buddies, constructed a computer out of recycled parts for solving rudimentary mathematical equations.
He was also on the go a lot. "Always on the move," said a family friend. "Hardly ever still." With his sister Mary, Stephen, who loved to climb, devised different entry routes into the family home. He remained active even after he entered Oxford University at the age of 17. He loved to dance, and also took an interest in rowing, becoming one of the Oxford rowing team's coxswain.
To his father's chagrin, Hawking finally said no to medicine, instead expressing a desire to study mathematics. But since Oxford didn't offer a mathematics degree, Hawking gravitated toward physics and, more specifically, cosmology
9. Scientist Louis Pasteur
(born Dec. 27, 1822, Dole, France—died Sept. 28, 1895, Saint-Cloud) French chemist and microbiologist who was one of the most important founders of medical microbiology. Pasteur's contributions to science, technology, and medicine are nearly without precedent.
He pioneered the study of molecular asymmetry; discovered that microorganisms cause fermentation and disease; originated the process of pasteurization; saved the beer, wine, and silk industries in France; and developed vaccines against anthrax and rabies.
Pasteur's academic positions were numerous, and his scientific accomplishments earned him France's highest decoration, the Legion of Honour, as well as election to the Académie des Sciences and many other distinctions. Today there are some 30 institutes and an impressive number of hospitals, schools, buildings, and streets that bear his name—a set of honours bestowed on few scientists.
He is one of the most famous contributors in the medical science. He first introduced the germ theory of diseases. This is regarded as the base of today’s microbiology. He found out some of the notion of the microbe and he could find out that the viruses were not detectable through microscope. Another important contribution of Pasteur is to protect harmful microbes in a way called “Pasteurization” where harmful microbes are destroyed by hitting the food. He is undoubtedly the most influential scientist in medical science.
Research career
In 1843 Pasteur was admitted to the École Normale Supérieure (a teachers' college in Paris), where he attended lectures by French chemist Jean-Baptiste-André Dumas and became Dumas's teaching assistant. Pasteur obtained his master of science degree in 1845 and then acquired an advanced degree in physical sciences. He later earned his doctorate in sciences in 1847. Pasteur was appointed professor of physics at the Dijon Lycée (secondary school) in 1848 but shortly thereafter accepted a position as professor of chemistry at the University of Strasbourg. On May 29, 1849, he married Marie Laurent, the daughter of the rector of the university. The couple had five children; however, only two survived childhood.
10. Scientist Sir Jagadish Chandra Bose
Sir J. C. Bose was an Indian scientist who discovered and proved in the world that plants also have life. They consume food and sleep during nights, and wake up early in the mornings. Pain and pleasures are there for plants too. They also have birth, growth and death, as human beings. These are the discoveries of J. C. Bose.
Sir J. C. Bose was born on November 30, 1859 in Faridhapur, which is now in Bangladesh. He had his early education in St. Xavier’s High School, and college education in Calcutta and later at Cambridge, England. He joined the Presidency College, Calcutta as Assistant Professor of Physics in 1855. He did moot of his research work in that college.
Sir J. C. Bose’s father was a highly placed official in Government of India. He was also a patriot. J. C. Bose was inculcated the curiosity about surroundings and adherence to moral values. J. C. Bose adored Karma of the Mahabharata for his steadfastness and getting success in a defeat.
He was the first renowned Bengali scientist who had an important contribution in the invention of Radio and microwave optics. He was born in Mymensingh in Bengal which is the current Munshiganj District in Bangladesh. He studied in Hare school in Kolkata and then he got his B.A. in Science degree from Calcutta University.
Then he went to England and got a B.A. degree from Cambridge University and a B.Sc. from London University. After coming back to the country he started teaching Physics in the Presidency College at Kolkata. In his teaching career he had to prove his quality and talent as he was the first Indian to teach Science at the college. In 1894 he started to research on Radio wave to make wireless communication equipments. At the same time Italy’s Marconi also was researching on this project. He first invented "iron-mercury-iron coherer with telephone detector" and he is the first person to use a semiconductor junction to catch the radio waves.
It is said that his work on millimeter wavelength made him 50 years ahead. Considering such things it is said that he was the real inventor of Radio but due to his less seriousness towards patent and the communication gap made Marconi to be regarded as the inventor of Radio.
After that he contributed in plant where he could make some vital theory of ascent of sap. In this research he showed that some living cells in the endodermis junction are the reason for the ascent of sap.
J. C. Bose was sent to England to get enrolled into Indian Civil Service. He took interest in Botany and Zoology. J. C. Bose, as Assistant Professor and researcher in Physics discovered the following:
1) Generation of electro-magnetic waves of wavelengths 2mm to 5 mm
2) Common nature of electric response to all forms of stimulation.
3) He was the first to find a device that generated micro-waves of very short wavelength.
J. C. Bose attained his greatness in the field of Botany. He was the author of the world famous books.
1) Response in the living and the non-living.
2) The nervous mechanism of plants.
He proved that plants are sensitive to heat, cold, light, noise and other external stimuli, just like human beings. By injecting bromide poison into a living plant he showed that they react the same way as human beings do. This discovery made him world famous. The London Royal Society made him the fellow of the Society. The British government conferred “Knighthood” on him and the title “Sir” was prefixed to his name. Many other honours were conferred on him at home. He had close association with Rabindranath Tagore, the great poet.
On November 23, 1937, J. C. Bose passed away. He left behind him his courage, adventure and scientific spirit for others to emulate.
11. Scientist Guglielmo Marchese Marconi
Guglielmo Marconi was born at Bologna, Italy, on April 25, 1874, the second son of Giuseppe Marconi, an Italian country gentleman, and Annie Jameson, daughter of Andrew Jameson of Daphne Castle in the County Wexford, Ireland.
He was educated privately at Bologna, Florence and Leghorn. Even as a boy he took a keen interest in physical and electrical science and studied the works of Maxwell, Hertz, Righi, Lodge and others. In 1895 he began laboratory experiments at his father's country estate at Pontecchio where he succeeded in sending wireless signals over a distance of one and a half miles.
In 1896 Marconi took his apparatus to England where he was introduced to Mr. (later Sir) William Preece, Engineer-in-Chief of the Post Office, and later that year was granted the world's first patent for a system of wireless telegraphy. He demonstrated his system successfully in London, on Salisbury Plain and across the Bristol Channel, and in July 1897 formed The Wireless Telegraph & Signal Company Limited (in 1900 re-named Marconi's Wireless Telegraph Company Limited).
In the same year he gave a demonstration to the Italian Government at Spezia where wireless signals were sent over a distance of twelve miles. In 1899 he established wireless communication between France and England across the English Channel. He erected permanent wireless stations at The Needles, Isle of Wight, at Bournemouth and later at the Haven Hotel, Poole, Dorset.
In 1900 he took out his famous patent No. 7777 for "tuned or syntonic telegraphy" and, on an historic day in December 1901, determined to prove that wireless waves were not affected by the curvature of the Earth, he used his system for transmitting the first wireless signals across the Atlantic between Poldhu, Cornwall, and St. John's, Newfoundland, a distance of 2100 miles.
Marconi is a Nobel laureate physicist from Italy. He is best known for his invention of Radio and he first introduced wireless telegraph system. He was born to a landowner father Giuseppe Marconi and his mother was Annie Jameson. He was very interested to science form his early life. He initially started working on electromagnetic wave or radio waves invented by Heinrich Hertz. Then after a long research he could figure out such a technology to communicate without wire. After his invention, he marketed this equipment for the commercial purpose and at that time he got a competitor free market in the U.S.
Between 1902 and 1912 he patented several new inventions. In 1902, during a voyage in the American liner "Philadelphia", he first demonstrated "daylight effect" relative to wireless communication and in the same year patented his magnetic detector which then became the standard wireless receiver for many years. In December 1902 he transmitted the first complete messages to Poldhu from stations at Glace Bay, Nova Scotia, and later Cape Cod, Massachusetts, these early tests culminating in 1907 in the opening of the first transatlantic commercial service between Glace Bay and Clifden, Ireland, after the first shorter-distance public service of wireless telegraphy had been established between Bari in Italy and Avidari in Montenegro. In 1905 he patented his horizontal directional aerial and in 1912 a "timed spark" system for generating continuous waves.
In 1914 he was commissioned in the Italian Army as a Lieutenant being later promoted to Captain, and in 1916 transferred to the Navy in the rank of Commander. He was a member of the Italian Government mission to the United States in 1917 and in 1919 was appointed Italian plenipotentiary delegate to the Paris Peace Conference. He was awarded the Italian Military Medal in 1919 in recognition of his war service.
During his war service in Italy he returned to his investigation of short waves, which he had used in his first experiments. After further tests by his collaborators in England, an intensive series of trials was conducted in 1923 between experimental installations at the Poldhu Station and in Marconi's yacht "Elettra" cruising in the Atlantic and Mediterranean, and this led to the establishment of the beam system for long distance communication. Proposals to use this system as a means of Imperial communications were accepted by the British Government and the first beam station, linking England and Canada, was opened in 1926, other stations being added the following year.
In 1931 Marconi began research into the propagation characteristics of still shorter waves, resulting in the opening in 1932 of the world's first microwave radiotelephone link between the Vatican City and the Pope's summer residence at Castel Gandolfo. Two years later at Sestri Levante he demonstrated his microwave radio beacon for ship navigation and in 1935, again in Italy, gave a practical demonstration of the principles of radar, the coming of which he had first foretold in a lecture to the American Institute of Radio Engineers in New York in 1922.
He has been the recipient of honorary doctorates of several universities and many other international honours and awards, among them the Nobel Prize for Physics, which in 1909 he shared with Professor Karl Braun, the Albert Medal of the Royal Society of Arts, the John Fritz Medal and the Kelvin Medal. He was decorated by the Tsar of Russia with the Order of St. Anne, the King of Italy created him Commander of the Order of St. Maurice and St. Lazarus, and awarded him the Grand Cross of the Order of the Crown of Italy in 1902. Marconi also received the freedom of the City of Rome (1903), and was created Chevalier of the Civil Order of Savoy in 1905. Many other distinctions of this kind followed. In 1914 he was both created a Senatore in the Italian Senate and app ointed Honorary Knight Grand Cross of the Royal Victorian Order in England. He received the hereditary title of Marchese in 1929.
In 1905 he married the Hon. Beatrice O'Brien, daughter of the 14th Baron Inchiquin, the marriage being annulled in 1927, in which year he married the Countess Bezzi-Scali of Rome. He had one son and two daughters by his first and one daughter by his second wife. His recreations were hunting, cycling and motoring.
Marconi died in Rome on July 20, 1937.
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