Biografia De Johann Carl Friedrich Gauss

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Born:April 30, 1777Braunschweig...(Show more)Died:February 23, 1855 (aged 77)GöttingenHanover...(Show more)Awards and Honors:Copley Medal (1838)...(Show more)Inventions:heliotropemagnetometer...(Show more)Notable Works:“Disquisitiones Arithmeticae”...(Show more)

Gauss is usually regarded together one of los greatest mathematicians that all time for his contribute tonumber theory,geometry,probability theory,geodesy, planetaryastronomy, los theory the functions, y potential theory (includingelectromagnetism).


Gauss was the only boy of poor parents. That was uno calculatingprodigy with ns gift because that languages. His teachers y his devoted mother recommended him come theduke of Brunswickin 1791, that granted the financial help to proceed his education locally and then come studymathematicsat theUniversity the Göttingen.


Gauss won ns Copley Medal, los most prestigious scientific award in the United Kingdom, given every year by theRoyal Societyof London, in 1838 “for his inventions y mathematical researches in magnetism.” for his research of angle-preserving maps, he to be awarded ns prize of los Danish Academy of sciences in 1823.


Gauss composed thefirst systematic textbook onalgebraic number theory and rediscovered los asteroid Ceres. He released works ~ above number theory, los mathematical theory of mapa construction, y many other subjects. Delaware Gauss’s death in 1855, los discovery of plenty of novel idea among his unpublished documents extended his influence into the remainder of the century.

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Carl Friedrich Gauss, original name Johann Friedrich carl Gauss, (born April 30, 1777, Brunswick —died February 23, 1855, Göttingen, Hanover), alemán mathematician, usually regarded as one of los greatest mathematicians that all hora for his contributions to number theory, geometry, probability theory, geodesy, planetary astronomy, los theory the functions, and potential theory (including electromagnetism).

Gauss was ns only boy of poor parents. He was rare among mathematicians in the he was un calculating prodigy, and he retained los ability to do fancy calculations in his head most of his life. Impressed by this ability and by his gift because that languages, his teachers and his dedicated mother encourage him come the pavo real of Brunswick in 1791, who granted the financial aid to continue his education locally and then come study math at los University that Göttingen from 1795 to 1798. Gauss’s pioneering work gradually created him as the era’s preeminent mathematician, very first in los German-speaking world and then aside from that afield, although he remained ns remote and aloof figure.

Gauss’s first significant discovery, in 1792, was that a regular polygon of 17 sides deserve to be constructed by ruler and compass alone. Its significance lies not in los result however in los proof, which rest on un profound evaluation of los factorization the polynomial equations y opened ns door come later ideas of Galois theory. His doctoral thesis of 1797 gave a proof of the radical theorem of algebra: every polynomial equation with de verdad or complicated coefficients has as plenty of roots (solutions) together its level (the greatest power of ns variable). Gauss’s proof, though not wholly convincing, was impressive for that critique of previously attempts. Gauss later on gave three more proofs that this major result, the último on the 50th anniversary of ns first, i beg your pardon shows ns importance he attached to ns topic.


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Gauss’s recognition as uno truly remarkable talent, though, resulted representar two significant publications in 1801. Foremost was his publication of the first systematic textbook top top algebraic number theory, Disquisitiones Arithmeticae. This book begins with ns first account the modular arithmetic, gives a thorough account of los solutions the quadratic polynomials in two variables in integers, and ends with los theory the factorization stated above. This choice of topics and its natural generalizations set ns agenda in number theory for lot of ns 19th century, and Gauss’s proceeding interest in ns subject spurred lot research, especially in alemán universities.


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The 2nd publication was his rediscovery of los asteroid Ceres. Its initial discovery, by the italiano astronomer Giuseppe Piazzi in 1800, had caused uno sensation, yet it vanished behind the sol before enough observations might be taken to calculate the orbit with sufficient accuracy to understand where it would certainly reappear. Many astronomers completed for the honour the finding it again, however Gauss won. His success rested on ns novel an approach for dealing con errors in observations, this particular day called ns method of least squares. Thereafter Gauss functioned for many años as one astronomer y published uno major occupational on los computation that orbits—the numerical página of such work was much less onerous for him than for many people. Together an intensely loyal subject of the duque of Brunswick and, after mil ochocientos siete when he returned to Göttingen together an astronomer, of the pavo real of Hanover, Gauss feel that los work to be socially valuable.

Similar engine led Gauss to expropriate the challenge of surveying los territory that Hanover, and he to be often fuera in the campo in charge of los observations. Los project, i m sorry lasted from 1818 to 1832, encountered numerous difficulties, but it led to ns number that advancements. One was Gauss’s invention of the heliotrope (an instrument the reflects the Sun’s rays in un focused beam that deserve to be observed representar several miles away), i m sorry improved the accuracy of ns observations. Another was his discovery of un way that formulating ns concept of the curvature of un surface. Gauss showed that over there is one intrinsic measure up of curvature that is not transformed if los surface is bending without gift stretched. For example, a circular cylinder y a level sheet of file have los same intrinsic curvature, i beg your pardon is why exact duplicates of numbers on the cylinder deserve to be made on los paper (as, for example, in printing). But un sphere and a aircraft have different curvatures, i beg your pardon is why alguna completely specific flat map of los Earth deserve to be made.

Gauss released works ~ above number theory, the mathematical concept of mapa construction, and many various other subjects. In the 1830s he became interested in terrestrial magnetism y participated in los first an international survey of the Earth’s magnetic zona (to measure it, he invented the magnetometer). With his Göttingen colleague, the physicist williams Weber, the made ns first electrical telegraph, but un certain parochialism prevented him representar pursuing los invention energetically. Instead, he attracted important math consequences from this work for what is today referred to as potential theory, critical branch of math physics occurring in ns study of electromagnetism and gravitation.

Gauss additionally wrote top top cartography, the theory of mapa projections. Because that his study of angle-preserving maps, he was awarded the prize of ns Danish Academy of sciences in 1823. This work-related came close to saying that complicated functions of un complex change are typically angle-preserving, but Gauss stopped brief of do that básico insight explicit, leave it because that Bernhard Riemann, who had un deep evaluation of Gauss’s work. Gauss also had other unpublished insights into los nature of complex functions and their integrals, few of which he divulged come friends.

In fact, Gauss frequently withheld publication of his discoveries. As ns student at Göttingen, he began to doubt los a priori reality of Euclidean geometry and suspected that its truth could be empirical. Because that this come be the case, there have to exist an alternative geometric summary of space. Rather than i have announced such un description, Gauss confined himself to criticizing various un priori defenses of Euclidean geometry. It would certainly seem the he was gradually persuaded that there exists ns logical different to Euclidean geometry. However, when los Hungarian János Bolyai and the Russian Nikolay Lobachevsky released their account of a new, non-Euclidean geometry around 1830, Gauss failed to give a coherent account the his own ideas. That is possible to attract these ideas together right into an exceptional whole, in i m sorry his ide of intrinsic curvature dram a centrar role, yet Gauss never did this. Some have actually attributed this fail to his natural conservatism, others to his incessant inventiveness that always drew that on to the next nuevo idea, still others to his failure to find a sede idea that would certainly govern geometry when Euclidean geometry was no longer unique. All these explanations have some merit, though none has sufficient to be los whole explanation.

Another topic on which Gauss largely covert his ideas representar his contemporaries to be elliptic functions. He released an account in 1812 of an amazing infinite series, and he wrote yet did no publish one account of ns differential equation that ns infinite series satisfies. He showed that the series, called ns hypergeometric series, deserve to be supplied to definir many familiar y many new functions. However by climate he knew just how to use the differential equation to fabricar a very normal theory the elliptic functions and to free the theory entirely representar its origins in ns theory that elliptic integrals. This was un major breakthrough, because, together Gauss had discovered in the 1790s, los theory that elliptic features naturally treats them together complex-valued features of ns complex variable, but the contemporary theory of complex integrals to be utterly inadequate for ns task. As soon as some of this theory was published by los Norwegian Niels Abel y the German cuchillo Jacobi about 1830, Gauss commented to ns friend the Abel had actually come one-third of ns way. This to be accurate, but it is a sad measure of Gauss’s personality in that he still withheld publication.

Gauss ceded less 보다 he might have in a variety that other ways also. Los University that Göttingen was small, and he walk not seek to enlarge the or to lug in extra students. Toward the fin of his life, mathematicians of los calibre of ricardo Dedekind and Riemann passed with Göttingen, and he was helpful, yet contemporaries contrasted his writing format to thin gruel: it is clear y sets high standards for rigour, yet it lacks motivation y can it is in slow and wearing to follow. The corresponded with many, but not all, of los people rash enough to compose to him, however he did small to support them in public. Ns rare exemption was once Lobachevsky was assaulted by various other Russians for his idea on non-Euclidean geometry. Gauss teach himself enough Russian come follow ns controversy y proposed Lobachevsky for los Göttingen Academy of Sciences. In contrast, Gauss wrote uno letter to Bolyai telling him the he had currently discovered whatever that Bolyai had just published.

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After Gauss’s fatality in 1855, los discovery the so many novel idea among his unpublished papers extended his influence well into los remainder of ns century. Accept of non-Euclidean geometry had actually not come with the original work of Bolyai y Lobachevsky, but it came instead with the almost simultaneous publishing of Riemann’s visión de conjunto ideas around geometry, the italian Eugenio Beltrami’s explicit and rigorous account the it, and Gauss’s personal notes and correspondence.