'Euler.html.xml'('Date','15 April 1707').

'Euler.html.xml'('Date','17 May 1727').

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'Euler.html.xml'('Date','September 1998').

'Euler.html.xml'('Date','Sunday').

'Euler.html.xml'('Date',autumn).

'Euler.html.xml'('Date','first half of the day').

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'Euler.html.xml'('Father','Paul Euler').

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'Euler.html.xml'('FirstPerson','Catherine').

'Euler.html.xml'('FirstPerson','Christian').

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'Euler.html.xml'('FirstPerson','Leonhard').

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'Euler.html.xml'('FirstPerson','Peter').

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'Euler.html.xml'('JobTitle',father).

'Euler.html.xml'('JobTitle',general).

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'Euler.html.xml'('JobTitle',major).

'Euler.html.xml'('JobTitle',minister).

'Euler.html.xml'('JobTitle',orderly).

'Euler.html.xml'('JobTitle',painter).

'Euler.html.xml'('JobTitle',president).

'Euler.html.xml'('JobTitle',secretary).

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'Euler.html.xml'('Location','Britain').

'Euler.html.xml'('Location','Finow Canal').

'Euler.html.xml'('Location','Germany').

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'Euler.html.xml'('Location','Switzerland').

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'Euler.html.xml'('Lookup','1998').

'Euler.html.xml'('Lookup','About').

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'Euler.html.xml'('Lookup','Because').

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'Euler.html.xml'('Lookup','Bouguer').

'Euler.html.xml'('Lookup','Britain').

'Euler.html.xml'('Lookup','British').

'Euler.html.xml'('Lookup','By').

'Euler.html.xml'('Lookup','Canal').

'Euler.html.xml'('Lookup','Catherine').

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'Euler.html.xml'('Lookup','Christian').

'Euler.html.xml'('Lookup','Christian Goldbach').

'Euler.html.xml'('Lookup','Christoph').

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'Euler.html.xml'('Lookup','Daniel Bernoulli').

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'Euler.html.xml'('Lookup','Euler').

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'Euler.html.xml'('Lookup','Galileo').

'Euler.html.xml'('Lookup','Gauss').

'Euler.html.xml'('Lookup','German').

'Euler.html.xml'('Lookup','Germany').

'Euler.html.xml'('Lookup','Goldbach').

'Euler.html.xml'('Lookup','Gymnasium').

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'Euler.html.xml'('Lookup','Johann Bernoulli').

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'Euler.html.xml'('Lookup','Laplace').

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'Euler.html.xml'('Lookup',central).

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'Euler.html.xml'('Lookup',paper).

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'Euler.html.xml'('Lookup',president).

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'Euler.html.xml'('Lookup',state).

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'Euler.html.xml'('Lookup',won).

'Euler.html.xml'('Lookup',year).

'Euler.html.xml'('Lookup',years).

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'Euler.html.xml'('Mathematician','Bessel').

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'Euler.html.xml'('Mathematician','Bouguer').

'Euler.html.xml'('Mathematician','Cauchy').

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'Euler.html.xml'('Mathematician','Legendre').

'Euler.html.xml'('Mathematician','Leibniz').

'Euler.html.xml'('Mathematician','Leonhard Euler').

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'Euler.html.xml'('Mathematician','Robins').

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'Euler.html.xml'('Sentence','... I have very little desire for anything to be detracted from the fame of the celebrated Mr Maclaurin since he probably came upon the same theorem for summing series before me, and consequently deserves to be named as its first discoverer.').

'Euler.html.xml'('Sentence','... I soon found an opportunity to be introduced to a famous professor Johann Bernoulli.').

'Euler.html.xml'('Sentence','... The core of his research program was now set in place: number theory; infinitary analysis including its emerging branches, differential equations and the calculus of variations; and rational mechanics.').

'Euler.html.xml'('Sentence','... True, he was very busy and so refused flatly to give me private lessons; but he gave me much more valuable advice to start reading more difficult mathematical books on my own and to study them as diligently as I could; if I came across some obstacle or difficulty, I was given permission to visit him freely every Sunday afternoon and he kindly explained to me everything I could not understand ...').

'Euler.html.xml'('Sentence','... after 1730 he carried out state projects dealing with cartography, science education, magnetism, fire engines, machines, and ship building.').

'Euler.html.xml'('Sentence','... determination of the orbits of comets and planets by a few observations, methods of calculation of the parallax of the sun, the theory of refraction, consideration of the physical nature of comets, .... His most outstanding works, for which he won many prizes from the Paris Acad?mie des Sciences, are concerned with celestial mechanics, which especially attracted scientists at that time.').

'Euler.html.xml'('Sentence','... for musicians too advanced in its mathematics and for mathematicians too musical.').

'Euler.html.xml'('Sentence','... he has two theorems for summing series by means of derivatives of the terms, one of which is the self-same result that you sent me.').

'Euler.html.xml'('Sentence','... he supervised the observatory and the botanical gardens; selected the personnel; oversaw various financial matters; and, in particular, managed the publication of various calendars and geographical maps, the sale of which was a source of income for the Academy.').

'Euler.html.xml'('Sentence','... lost an eye and [ the other ] currently may be in the same danger.').

'Euler.html.xml'('Sentence','... one of the most beautiful mathematical works ever written.').

'Euler.html.xml'('Sentence','... part of mathematics and deduce in an orderly manner, from correct principles, everything which can make a fitting together and mingling of tones pleasing.').

'Euler.html.xml'('Sentence','... will be publishing a book on fluxions.').

'Euler.html.xml'('Sentence','1 / 1 + 1 / 2 + 1 / 3 + ...').

'Euler.html.xml'('Sentence','A cataract operation shortly after the fire, still in 1771, restored his sight for a few days but Euler seems to have failed to take the necessary care of himself and he became totally blind.').

'Euler.html.xml'('Sentence','About five o''clock in the afternoon he suffered a brain haemorrhage and uttered only "I am dying" before he lost consciousness.').

'Euler.html.xml'('Sentence','Accepting an improved offer Euler, at the invitation of Frederick the Great, went to Berlin where an Academy of Science was planned to replace the Society of Sciences.').

'Euler.html.xml'('Sentence','After his death in 1783 the St Petersburg Academy continued to publish Euler''s unpublished work for nearly 50 more years.').

'Euler.html.xml'('Sentence','Almost certainly his youth (he was 19 at the time) was against him.').

'Euler.html.xml'('Sentence','Also in this work Euler gave the formula').

'Euler.html.xml'('Sentence','Although there were problems with his approach this eventually led to Kummer''s major work on Fermats Last Theorem and to the introduction of the concept of a ring.').

'Euler.html.xml'('Sentence','Amazingly after his return to St Petersburg (when Euler was 59) he produced almost half his total works despite the total blindness.').

'Euler.html.xml'('Sentence','Analytic functions of a complex variable were investigated by Euler in a number of different contexts, including the study of orthogonal trajectories and cartography.').

'Euler.html.xml'('Sentence','Article by: J J O''Connor and E F Robertson').

'Euler.html.xml'('Sentence','As Yushkevich writes in [1]:-').

'Euler.html.xml'('Sentence','As soon as he knew he would not be appointed to the chair of physics, Euler left Basel on 5 April 1727.').

'Euler.html.xml'('Sentence','As well as investigating double integrals, Euler considered ordinary and partial differential equations in this work.').

'Euler.html.xml'('Sentence','At St Petersburg Euler had many colleagues who would provide an exceptional environment for him [1]:-').

'Euler.html.xml'('Sentence','At that time he also supervised the work on pumps and pipes of the hydraulic system at Sans Souci, the royal summer residence.').

'Euler.html.xml'('Sentence','Because of his remarkable memory he was able to continue with his work on optics, algebra, and lunar motion.').

'Euler.html.xml'('Sentence','Born: 15 April 1707 in Basel, Switzerland
Died: 18 Sept 1783 in St Petersburg, Russia').

'Euler.html.xml'('Sentence','By 1726 Euler had already a paper in print, a short article on isochronous curves in a resisting medium.').

'Euler.html.xml'('Sentence','By 1739 Euler had found the rational coefficients C in (2 n ) = C p 2 n in terms of the Bernoulli numbers.').

'Euler.html.xml'('Sentence','By 1740 Euler had a very high reputation, having won the Grand Prize of the Paris Academy in 1738 and 1740.').

'Euler.html.xml'('Sentence','Calinger suggests that Euler''s left eye became blind from a later cataract rather than eyestrain.').

'Euler.html.xml'('Sentence','Cartography was another area that Euler became involved in when he was appointed director of the St Petersburg Academy''s geography section in 1735.').

'Euler.html.xml'('Sentence','Concerning the summation of very slowly converging series, in the past year I have lectured to our Academy on a special method of which I have given the sums of very many series sufficiently accurately and with very little effort.').

'Euler.html.xml'('Sentence','Daniel Bernoulli held the senior chair in mathematics at the Academy but when he left St Petersburg to return to Basel in 1733 it was Euler who was appointed to this senior chair of mathematics.').

'Euler.html.xml'('Sentence','During the twenty-five years spent in Berlin, Euler wrote around 380 articles.').

'Euler.html.xml'('Sentence','Euler').

'Euler.html.xml'('Sentence','Euler also published on the theory of music, in particular he published Tentamen novae theoriae musicae in 1739 in which he tried to make music:-').

'Euler.html.xml'('Sentence','Euler also studied Fourier series and in 1744 he was the first to express an algebraic function by such a series when he gave the result').

'Euler.html.xml'('Sentence','Euler also studied other unproved results of Fermat and in so doing introduced the Euler phi function ( n ), the number of integers k with 1 k n and k coprime to n .').

'Euler.html.xml'('Sentence','Euler became professor of physics at the Academy in 1730 and, since this allowed him to become a full member of the Academy, he was able to give up his Russian navy post.').

'Euler.html.xml'('Sentence','Euler claimed that he made some of his greatest mathematical discoveries while holding a baby in his arms with other children playing round his feet.').

'Euler.html.xml'('Sentence','Euler completed his studies at the University of Basel in 1726.').

'Euler.html.xml'('Sentence','Euler contributed to knowledge in many other areas, and in all of them he employed his mathematical knowledge and skill.').

'Euler.html.xml'('Sentence','Euler here also begins developing the kinematics and dynamics of rigid bodies, introducing in part the differential equations for their motion.').

'Euler.html.xml'('Sentence','Euler made substantial contributions to differential geometry, investigating the theory of surfaces and curvature of surfaces.').

'Euler.html.xml'('Sentence','Euler obtained his father''s consent to change to mathematics after Johann Bernoulli had used his persuasion.').

'Euler.html.xml'('Sentence','Euler of course did not achieve this remarkable level of output without help.').

'Euler.html.xml'('Sentence','Euler replied:-').

'Euler.html.xml'('Sentence','Euler served as a medical lieutenant in the Russian navy from 1727 to 1730.').

'Euler.html.xml'('Sentence','Euler showed in 1735 that (2) = p 2 /6 but he went on to prove much more, namely that (4) = p 4 /90, (6) = p 6 /945, (8) = p 8 /9450, (10) = p 10 /93555 and (12) = 691 p 12 /638512875.').

'Euler.html.xml'('Sentence','Euler undertook an unbelievable amount of work for the Academy [1]:-').

'Euler.html.xml'('Sentence','Euler verified this for n = 1, 2, 4, 8 and 16 and, by 1732 at the latest, showed that the next case 2 32 + 1 = 4294967297 is divisible by 641 and so is not prime.').

'Euler.html.xml'('Sentence','Euler was also helped by two other members of the Academy, W L Krafft and A J Lexell, and the young mathematician N Fuss who was invited to the Academy from Switzerland in 1772.').

'Euler.html.xml'('Sentence','Euler was the first to appreciate the importance of introducing uniform analytic methods into mechanics, thus enabling its problems to be solved in a clear and direct way.').

'Euler.html.xml'('Sentence','Euler wrote an article on acoustics, which went on to become a classic, in his bid for selection to the post but he was not chosen to go forward to the stage where lots were drawn to make the final decision on who would fill the chair.').

'Euler.html.xml'('Sentence','Euler wrote to James Stirling on 8 June 1736 telling him about his results on summing reciprocals of powers, the harmonic series and Euler''s constant and other results on series.').

'Euler.html.xml'('Sentence','Euler''s father wanted his son to follow him into the church and sent him to the University of Basel to prepare for the ministry.').

'Euler.html.xml'('Sentence','Euler''s health problems began in 1735 when he had a severe fever and almost lost his life.').

'Euler.html.xml'('Sentence','Euler''s own account given in his unpublished autobiographical writings, see [1], is as follows:-').

'Euler.html.xml'('Sentence','Euler''s reputation was to bring an offer to go to Berlin, but at first he preferred to remain in St Petersburg.').

'Euler.html.xml'('Sentence','Euler''s work in mathematics is so vast that an article of this nature cannot but give a very superficial account of it.').

'Euler.html.xml'('Sentence','Euler''s work on fluid mechanics is also quite remarkable.').

'Euler.html.xml'('Sentence','Euler, in Berlin by the time of its publication, proudly remarked that this work put the Russians well ahead of the Germans in the art of cartography.').

'Euler.html.xml'('Sentence','Euler, who had argued with d''Alembert on scientific matters, was disturbed when Frederick offered d''Alembert the presidency of the Academy in 1763.').

'Euler.html.xml'('Sentence','Even while in Berlin Euler continued to receive part of his salary from Russia.').

'Euler.html.xml'('Sentence','Firstly his work in number theory seems to have been stimulated by Goldbach but probably originally came from the interest that the Bernoullis had in that topic.').

'Euler.html.xml'('Sentence','For I found that theorem about four years ago, at which time I also described its proof and application in greater detail to our Academy.').

'Euler.html.xml'('Sentence','For example Euler credits Albrecht, Krafft and Lexell for their help with his 775 page work on the motion of the moon, published in 1772.').

'Euler.html.xml'('Sentence','For this remuneration he bought books and instruments for the St Petersburg Academy, he continued to write scientific reports for them, and he educated young Russians.').

'Euler.html.xml'('Sentence','Further important results in number theory by Euler included his proof of Fermat''s Last Theorem for the case of n = 3.').

'Euler.html.xml'('Sentence','Fuss helped Euler prepare over 250 articles for publication over a period on about seven years in which he acted as Euler''s assistant, including an important work on insurance which was published in 1776.').

'Euler.html.xml'('Sentence','Fuss, who was Euler''s grandson-in-law, became his assistant in 1776.').

'Euler.html.xml'('Sentence','Goldbach asked Euler, in 1729, if he knew of Fermat''s conjecture that the numbers 2 n + 1 were always prime if n is a power of 2.').

'Euler.html.xml'('Sentence','He accepted the post in November 1726 but stated that he did not want to travel to Russia until the spring of the following year.').

'Euler.html.xml'('Sentence','He also argues that a portrait of Euler from 1753 suggests that by that stage the sight of his left eye was still good while that of his right eye was poor but not completely blind.').

'Euler.html.xml'('Sentence','He also studied beta and gamma functions, which he had introduced first in 1729.').

'Euler.html.xml'('Sentence','He analysed the motion of a point mass under a central force and also considered the motion of a point mass on a surface.').

'Euler.html.xml'('Sentence','He began his study of theology in the autumn of 1723, following his father''s wishes, but, although he was to be a devout Christian all his life, he could not find the enthusiasm for the study of theology, Greek and Hebrew that he found in mathematics.').

'Euler.html.xml'('Sentence','He calculated the constant to 16 decimal places.').

'Euler.html.xml'('Sentence','He considered linear equations with constant coefficients, second order differential equations with variable coefficients, power series solutions of differential equations, a method of variation of constants, integrating factors, a method of approximating solutions, and many others.').

'Euler.html.xml'('Sentence','He considered the Euler angles and studied rotational problems which were motivated by the problem of the precession of the equinoxes.').

'Euler.html.xml'('Sentence','He deputised for Maupertuis in his absence and the two became great friends.').

'Euler.html.xml'('Sentence','He did important work in astronomy including [1]:-').

'Euler.html.xml'('Sentence','He died about eleven o''clock in the evening.').

'Euler.html.xml'('Sentence','He discovered the Cauchy-Riemann equations in 1777, although d''Alembert had discovered them in 1752 while investigating hydrodynamics.').

'Euler.html.xml'('Sentence','He entered the University in 1720, at the age of 14, first to obtain a general education before going on to more advanced studies.').

'Euler.html.xml'('Sentence','He gave a mathematics lesson to one of his grandchildren, did some calculations with chalk on two boards on the motion of balloons; then discussed with Lexell and Fuss the recently discovered planet Uranus.').

'Euler.html.xml'('Sentence','He had joined the St Petersburg Academy of Sciences two years after it had been founded by Catherine I the wife of Peter the Great.').

'Euler.html.xml'('Sentence','He had studied many mathematical works during his time in Basel, and Calinger [24] has reconstructed many of the works that Euler read with the advice of Johann Bernoulli.').

'Euler.html.xml'('Sentence','He had the specific task of helping Delisle prepare a map of the whole of the Russian Empire.').

'Euler.html.xml'('Sentence','He had two reasons to delay.').

'Euler.html.xml'('Sentence','He integrated Leibniz''s differential calculus and Newton''s method of fluxions into mathematical analysis.').

'Euler.html.xml'('Sentence','He introduced beta and gamma functions, and integrating factors for differential equations.').

'Euler.html.xml'('Sentence','He laid the foundation of analytical mechanics, especially in his Theory of the Motions of Rigid Bodies (1765).').

'Euler.html.xml'('Sentence','He left St Petersburg on 19 June 1741, arriving in Berlin on 25 July.').

'Euler.html.xml'('Sentence','He made decisive and formative contributions to geometry, calculus and number theory.').

'Euler.html.xml'('Sentence','He made large bounds forward in the study of modern analytic geometry and trigonometry where he was the first to consider sin, cos etc.').

'Euler.html.xml'('Sentence','He proved another of Fermat''s assertions, namely that if a and b are coprime then a 2 + b 2 has no divisor of the form 4 n - 1, in 1749.').

'Euler.html.xml'('Sentence','He published a number of major pieces of work through the 1750s setting up the main formulae for the topic, the continuity equation, the Laplace velocity potential equation, and the Euler equations for the motion of an inviscid incompressible fluid.').

'Euler.html.xml'('Sentence','He published his full theory of logarithms of complex numbers in 1751.').

'Euler.html.xml'('Sentence','He served as an advisor to the government on state lotteries, insurance, annuities and pensions and artillery.').

'Euler.html.xml'('Sentence','He served on the committee of the Academy dealing with the library and of scientific publications.').

'Euler.html.xml'('Sentence','He studied continuum mechanics, lunar theory with Clairaut, the three body problem, elasticity, acoustics, the wave theory of light, hydraulics, and music.').

'Euler.html.xml'('Sentence','He then goes on to describe what is now called the Euler-Maclaurin summation formula.').

'Euler.html.xml'('Sentence','He travelled down the Rhine by boat, crossed the German states by post wagon, then by boat from L?beck arriving in St Petersburg on 17 May 1727.').

'Euler.html.xml'('Sentence','He viewed these three fields as intimately interconnected.').

'Euler.html.xml'('Sentence','He wanted time to study the topics relating to his new post but also he had a chance of a post at the University of Basel since the professor of physics there had died.').

'Euler.html.xml'('Sentence','He was helped by his sons, Johann Albrecht Euler who was appointed to the chair of physics at the Academy in St Petersburg in 1766 (becoming its secretary in 1769) and Christoph Euler who had a military career.').

'Euler.html.xml'('Sentence','He was the most prolific writer of mathematics of all time.').

'Euler.html.xml'('Sentence','He wrote books on the calculus of variations; on the calculation of planetary orbits; on artillery and ballistics (extending the book by Robins); on analysis; on shipbuilding and navigation; on the motion of the moon; lectures on the differential calculus; and a popular scientific publication Letters to a Princess of Germany (3 vols.').

'Euler.html.xml'('Sentence','Here the sum is over all natural numbers n while the product is over all prime numbers.').

'Euler.html.xml'('Sentence','His work Methodus inveniendi lineas curvas ...').

'Euler.html.xml'('Sentence','However Calinger [24] suggests:-').

'Euler.html.xml'('Sentence','However d''Alembert refused to move to Berlin but Frederick''s continued interference with the running of the Academy made Euler decide that the time had come to leave.').

'Euler.html.xml'('Sentence','However his interest in mathematics had certainly been sparked by his father''s teaching, and he read mathematics texts on his own and took some private lessons.').

'Euler.html.xml'('Sentence','However political turmoil in Russia made the position of foreigners particularly difficult and contributed to Euler changing his mind.').

'Euler.html.xml'('Sentence','However sublime are the researches on fluids which we owe to Messrs Bernoulli, Clairaut and d''Alembert, they flow so naturally from my two general formulae that one cannot sufficiently admire this accord of their profound meditations with the simplicity of the principles from which I have drawn my two equations ...').

'Euler.html.xml'('Sentence','However, Calinger in [24] argues that Euler''s eyesight problems almost certainly started earlier and that the severe fever of 1735 was a symptom of the eyestrain.').

'Euler.html.xml'('Sentence','However, Euler now had to find himself an academic appointment and when Nicolaus(II) Bernoulli died in St Petersburg in July 1726 creating a vacancy there, Euler was offered the post which would involve him in teaching applications of mathematics and mechanics to physiology.').

'Euler.html.xml'('Sentence','However, according to [8] the work was:-').

'Euler.html.xml'('Sentence','However, he kept this news from his parents and members of the Bernoulli family back in Basel until he had recovered.').

'Euler.html.xml'('Sentence','I can do just what I wish [ in my research ] ...').

'Euler.html.xml'('Sentence','In 1723 Euler completed his Master''s degree in philosophy having compared and contrasted the philosophical ideas of Descartes and Newton.').

'Euler.html.xml'('Sentence','In 1727 he published another article on reciprocal trajectories and submitted an entry for the 1727 Grand Prize of the Paris Academy on the best arrangement of masts on a ship.').

'Euler.html.xml'('Sentence','In 1736 Euler published Mechanica which provided a major advance in mechanics.').

'Euler.html.xml'('Sentence','In 1737 he proved the connection of the zeta function with the series of prime numbers giving the famous relation').

'Euler.html.xml'('Sentence','In 1748 in Introductio in analysin infinitorum Euler made ideas of Johann Bernoulli more precise in defining a function, and he stated that mathematical analysis was the study of functions.').

'Euler.html.xml'('Sentence','In 1752 he wrote:-').

'Euler.html.xml'('Sentence','In 1755 Euler published Institutiones calculi differentialis which begins with a study of the calculus of finite differences.').

'Euler.html.xml'('Sentence','In 1759 Maupertuis died and Euler assumed the leadership of the Berlin Academy, although not the title of President.').

'Euler.html.xml'('Sentence','In 1765 Euler published another major work on mechanics Theoria motus corporum solidorum in which he decomposed the motion of a solid into a rectilinear motion and a rotational motion.').

'Euler.html.xml'('Sentence','In 1765 Mayer''s widow received 3000 from Britain for the contribution the tables made to the problem of the determination of the longitude, while Euler received 300 from the British government for his theoretical contribution to the work.').

'Euler.html.xml'('Sentence','In 1766 Euler returned to St Petersburg and Frederick was greatly angered at his departure.').

'Euler.html.xml'('Sentence','In 1771 his home was destroyed by fire and he was able to save only himself and his mathematical manuscripts.').

'Euler.html.xml'('Sentence','In Institutiones calculi integralis (1768-70) Euler made a thorough investigation of integrals which can be expressed in terms of elementary functions.').

'Euler.html.xml'('Sentence','In Introductio in analysin infinitorum Euler dealt with logarithms of a variable taking only positive values although he had discovered the formula').

'Euler.html.xml'('Sentence','In Mechanica Euler considered the motion of a point mass both in a vacuum and in a resisting medium.').

'Euler.html.xml'('Sentence','In St Petersburg he lived with Daniel Bernoulli who, already unhappy in Russia, had requested that Euler bring him tea, coffee, brandy and other delicacies from Switzerland.').

'Euler.html.xml'('Sentence','In [12] it is noted that Carath?odory considered this as:-').

'Euler.html.xml'('Sentence','In a letter to a friend Euler wrote:-').

'Euler.html.xml'('Sentence','In fact Euler''s lunar theory was used by Tobias Mayer in constructing his tables of the moon.').

'Euler.html.xml'('Sentence','In fact Paul Euler and Johann Bernoulli had both lived in Jacob Bernoulli''s house while undergraduates at Basel.').

'Euler.html.xml'('Sentence','In his autobiographical writings Euler says that his eyesight problems began in 1738 with overstrain due to his cartographic work and that by 1740 he had [24]:-').

'Euler.html.xml'('Sentence','In particular he wrote [60]:-').

'Euler.html.xml'('Sentence','In this latter topic he had to solve various problems of differential geometry and geodesics.').

'Euler.html.xml'('Sentence','It applies variational principles to determine the optimal ship design and first established the principles of hydrostatics ...').

'Euler.html.xml'('Sentence','It is described in [24] as:-').

'Euler.html.xml'('Sentence','Johann Bernoulli soon discovered Euler''s great potential for mathematics in private tuition that Euler himself engineered.').

'Euler.html.xml'('Sentence','Katharina, like Euler, was from a Swiss family.').

'Euler.html.xml'('Sentence','Legendre called these ''Eulerian integrals of the first and second kind'' respectively while they were given the names beta function and gamma function by Binet and Gauss respectively.').

'Euler.html.xml'('Sentence','Leonhard Euler').

'Euler.html.xml'('Sentence','Leonhard Euler ''s father was Paul Euler.').

'Euler.html.xml'('Sentence','Leonhard was sent to school in Basel and during this time he lived with his grandmother on his mother''s side.').

'Euler.html.xml'('Sentence','Let us examine in a little more detail some of Euler''s work.').

'Euler.html.xml'('Sentence','Like most of Euler''s work there was a fair time delay before the results were published; this result was not published until 1755.').

'Euler.html.xml'('Sentence','Many unpublished results by Euler in this area were rediscovered by Gauss.').

'Euler.html.xml'('Sentence','Maupertuis was the president of the Berlin Academy when it was founded in 1744 with Euler as director of mathematics.').

'Euler.html.xml'('Sentence','Mechanica was followed by another important work in rational mechanics, this time Euler''s two volume work on naval science.').

'Euler.html.xml'('Sentence','Nowhere else could he have been surrounded by such a group of eminent scientists, including the analyst, geometer Jakob Hermann, a relative; Daniel Bernoulli, with whom Euler was connected not only by personal friendship but also by common interests in the field of applied mathematics; the versatile scholar Christian Goldbach, with whom Euler discussed numerous problems of analysis and the theory of numbers; F Maier, working in trigonometry; and the astronomer and geographer J-N Delisle.').

'Euler.html.xml'('Sentence','Of course hydrostatics had been studied since Archimedes, but Euler gave a definitive version.').

'Euler.html.xml'('Sentence','On 18 September 1783 Euler spent the first half of the day as usual.').

'Euler.html.xml'('Sentence','On both occasions he shared the first prize with others.').

'Euler.html.xml'('Sentence','On top of this his scientific output during this period was phenomenal.').

'Euler.html.xml'('Sentence','One could claim that mathematical analysis began with Euler.').

'Euler.html.xml'('Sentence','Other geometric investigations led him to fundamental ideas in topology such as the Euler characteristic of a polyhedron.').

'Euler.html.xml'('Sentence','Other work done by Euler on infinite series included the introduction of his famous Euler''s constant , in 1735, which he showed to be the limit of').

'Euler.html.xml'('Sentence','Outstanding in both theoretical and applied mechanics, it addresses Euler''s intense occupation with the problem of ship propulsion.').

'Euler.html.xml'('Sentence','Paul Euler became a Protestant minister and married Margaret Brucker, the daughter of another Protestant minister.').

'Euler.html.xml'('Sentence','Paul Euler had studied theology at the University of Basel and had attended Jacob Bernoulli''s lectures there.').

'Euler.html.xml'('Sentence','Paul Euler had, as we have mentioned, some mathematical training and he was able to teach his son elementary mathematics along with other subjects.').

'Euler.html.xml'('Sentence','Perhaps more significant than the result here was the fact that he introduced a proof involving numbers of the form a + b -3 for integers a and b.').

'Euler.html.xml'('Sentence','Perhaps the result that brought Euler the most fame in his young days was his solution of what had become known as the Basel problem.').

'Euler.html.xml'('Sentence','Previously the methods of mechanics had been mostly synthetic and geometrical; they demanded too individual an approach to separate problems.').

'Euler.html.xml'('Sentence','Problems in mathematical physics had led Euler to a wide study of differential equations.').

'Euler.html.xml'('Sentence','September 1998
MacTutor History of Mathematics
[http://www-history.mcs.st-andrews.ac.uk/Mathematicians/Euler.html]').

'Euler.html.xml'('Sentence','Some of Euler''s number theory results have been mentioned above.').

'Euler.html.xml'('Sentence','Soon after his return to Russia, Euler became almost entirely blind after an illness.').

'Euler.html.xml'('Sentence','Studies of number theory were vital to the foundations of calculus, and special functions and differential equations were essential to rational mechanics, which supplied concrete problems.').

'Euler.html.xml'('Sentence','The Prize of 1727 went to Bouguer, an expert on mathematics relating to ships, but Euler''s essay won him second place which was a fine achievement for the young graduate.').

'Euler.html.xml'('Sentence','The Russian Atlas was the result of this collaboration and it appeared in 1745, consisting of 20 maps.').

'Euler.html.xml'('Sentence','The calculus of variations is another area in which Euler made fundamental discoveries.').

'Euler.html.xml'('Sentence','The distinguishing feature of Euler''s investigations in mechanics as compared to those of his predecessors is the systematic and successful application of analysis.').

'Euler.html.xml'('Sentence','The fact that Euler''s father had been a friend of Johann Bernoulli''s in their undergraduate days undoubtedly made the task of persuasion much easier.').

'Euler.html.xml'('Sentence','The financial improvement which came from this appointment allowed Euler to marry which he did on 7 January 1734, marrying Katharina Gsell, the daughter of a painter from the St Petersburg Gymnasium.').

'Euler.html.xml'('Sentence','The king also charged Euler with practical problems, such as the project in 1749 of correcting the level of the Finow Canal ...').

'Euler.html.xml'('Sentence','The king calls me his professor, and I think I am the happiest man in the world.').

'Euler.html.xml'('Sentence','The king was in overall charge and Euler was not now on good terms with Frederick despite the early good favour.').

'Euler.html.xml'('Sentence','The problem had also been studied unsuccessfully by Leibniz, Stirling, de Moivre and others.').

'Euler.html.xml'('Sentence','The publication of many articles and his book Mechanica (1736-37), which extensively presented Newtonian dynamics in the form of mathematical analysis for the first time, started Euler on the way to major mathematical work.').

'Euler.html.xml'('Sentence','The work makes a thorough investigation of how differentiation behaves under substitutions.').

'Euler.html.xml'('Sentence','Their son Leonhard Euler was born in Basel, but the family moved to Riehen when he was one year old and it was in Riehen, not far from Basel, that Leonard was brought up.').

'Euler.html.xml'('Sentence','They had 13 children altogether although only five survived their infancy.').

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'Euler.html.xml'('Token',career).

'Euler.html.xml'('Token',carried).

'Euler.html.xml'('Token',cartographic).

'Euler.html.xml'('Token',cartography).

'Euler.html.xml'('Token',case).

'Euler.html.xml'('Token',cataract).

'Euler.html.xml'('Token',celebrated).

'Euler.html.xml'('Token',celestial).

'Euler.html.xml'('Token',central).

'Euler.html.xml'('Token',certainly).

'Euler.html.xml'('Token',chair).

'Euler.html.xml'('Token',chalk).

'Euler.html.xml'('Token',chance).

'Euler.html.xml'('Token',change).

'Euler.html.xml'('Token',changing).

'Euler.html.xml'('Token',characteristic).

'Euler.html.xml'('Token',charge).

'Euler.html.xml'('Token',charged).

'Euler.html.xml'('Token',children).

'Euler.html.xml'('Token',chords).

'Euler.html.xml'('Token',chosen).

'Euler.html.xml'('Token',church).

'Euler.html.xml'('Token',claim).

'Euler.html.xml'('Token',claimed).

'Euler.html.xml'('Token',classic).

'Euler.html.xml'('Token',clear).

'Euler.html.xml'('Token',closed).

'Euler.html.xml'('Token',coefficients).

'Euler.html.xml'('Token',coffee).

'Euler.html.xml'('Token',collaboration).

'Euler.html.xml'('Token',colleagues).

'Euler.html.xml'('Token',come).

'Euler.html.xml'('Token',comets).

'Euler.html.xml'('Token',committee).

'Euler.html.xml'('Token',common).

'Euler.html.xml'('Token',compared).

'Euler.html.xml'('Token',compiled).

'Euler.html.xml'('Token',completed).

'Euler.html.xml'('Token',completely).

'Euler.html.xml'('Token',complex).

'Euler.html.xml'('Token',concept).

'Euler.html.xml'('Token',concerned).

'Euler.html.xml'('Token',concrete).

'Euler.html.xml'('Token',conjecture).

'Euler.html.xml'('Token',connected).

'Euler.html.xml'('Token',connection).

'Euler.html.xml'('Token',consciousness).

'Euler.html.xml'('Token',consent).

'Euler.html.xml'('Token',consequently).

'Euler.html.xml'('Token',consider).

'Euler.html.xml'('Token',consideration).

'Euler.html.xml'('Token',considered).

'Euler.html.xml'('Token',considering).

'Euler.html.xml'('Token',consisting).

'Euler.html.xml'('Token',constant).

'Euler.html.xml'('Token',constants).

'Euler.html.xml'('Token',constructing).

'Euler.html.xml'('Token',contexts).

'Euler.html.xml'('Token',continue).

'Euler.html.xml'('Token',continued).

'Euler.html.xml'('Token',continuity).

'Euler.html.xml'('Token',continuum).

'Euler.html.xml'('Token',contrasted).

'Euler.html.xml'('Token',contributed).

'Euler.html.xml'('Token',contribution).

'Euler.html.xml'('Token',contributions).

'Euler.html.xml'('Token',converging).

'Euler.html.xml'('Token',coprime).

'Euler.html.xml'('Token',core).

'Euler.html.xml'('Token',corporum).

'Euler.html.xml'('Token',correct).

'Euler.html.xml'('Token',correcting).

'Euler.html.xml'('Token',cos).

'Euler.html.xml'('Token',could).

'Euler.html.xml'('Token',course).

'Euler.html.xml'('Token',creating).

'Euler.html.xml'('Token',credits).

'Euler.html.xml'('Token',crossed).

'Euler.html.xml'('Token',currently).

'Euler.html.xml'('Token',curvas).

'Euler.html.xml'('Token',curvature).

'Euler.html.xml'('Token',curves).

'Euler.html.xml'('Token',d).

'Euler.html.xml'('Token',danger).

'Euler.html.xml'('Token',daughter).

'Euler.html.xml'('Token',day).

'Euler.html.xml'('Token',days).

'Euler.html.xml'('Token',de).

'Euler.html.xml'('Token',dealing).

'Euler.html.xml'('Token',dealt).

'Euler.html.xml'('Token',death).

'Euler.html.xml'('Token',decide).

'Euler.html.xml'('Token',decimal).

'Euler.html.xml'('Token',decision).

'Euler.html.xml'('Token',decisive).

'Euler.html.xml'('Token',decomposed).

'Euler.html.xml'('Token',deduce).

'Euler.html.xml'('Token',defeated).

'Euler.html.xml'('Token',defining).

'Euler.html.xml'('Token',definitive).

'Euler.html.xml'('Token',degree).

'Euler.html.xml'('Token',delay).

'Euler.html.xml'('Token',delicacies).

'Euler.html.xml'('Token',demanded).

'Euler.html.xml'('Token',departure).

'Euler.html.xml'('Token',deputised).

'Euler.html.xml'('Token',derivatives).

'Euler.html.xml'('Token',des).

'Euler.html.xml'('Token',describe).

'Euler.html.xml'('Token',described).

'Euler.html.xml'('Token',describes).

'Euler.html.xml'('Token',deserves).

'Euler.html.xml'('Token',design).

'Euler.html.xml'('Token',desire).

'Euler.html.xml'('Token',despite).

'Euler.html.xml'('Token',destroyed).

'Euler.html.xml'('Token',detail).

'Euler.html.xml'('Token',determination).

'Euler.html.xml'('Token',determine).

'Euler.html.xml'('Token',detracted).

'Euler.html.xml'('Token',developed).

'Euler.html.xml'('Token',developing).

'Euler.html.xml'('Token',devout).

'Euler.html.xml'('Token',did).

'Euler.html.xml'('Token',died).

'Euler.html.xml'('Token',differences).

'Euler.html.xml'('Token',different).

'Euler.html.xml'('Token',differential).

'Euler.html.xml'('Token',differentialis).

'Euler.html.xml'('Token',differentiation).

'Euler.html.xml'('Token',difficult).

'Euler.html.xml'('Token',difficulty).

'Euler.html.xml'('Token',diligently).

'Euler.html.xml'('Token',direct).

'Euler.html.xml'('Token',director).

'Euler.html.xml'('Token',discovered).

'Euler.html.xml'('Token',discoverer).

'Euler.html.xml'('Token',discoveries).

'Euler.html.xml'('Token',discussed).

'Euler.html.xml'('Token',distinguishing).

'Euler.html.xml'('Token',disturbed).

'Euler.html.xml'('Token',divisible).

'Euler.html.xml'('Token',division).

'Euler.html.xml'('Token',divisor).

'Euler.html.xml'('Token',do).

'Euler.html.xml'('Token',doing).

'Euler.html.xml'('Token',done).

'Euler.html.xml'('Token',double).

'Euler.html.xml'('Token',down).

'Euler.html.xml'('Token',drawn).

'Euler.html.xml'('Token',due).

'Euler.html.xml'('Token',during).

'Euler.html.xml'('Token',duties).

'Euler.html.xml'('Token',dying).

'Euler.html.xml'('Token',dynamics).

'Euler.html.xml'('Token',e).

'Euler.html.xml'('Token',earlier).

'Euler.html.xml'('Token',early).

'Euler.html.xml'('Token',easier).

'Euler.html.xml'('Token',educated).

'Euler.html.xml'('Token',education).

'Euler.html.xml'('Token',effort).

'Euler.html.xml'('Token',elasticity).

'Euler.html.xml'('Token',elementary).

'Euler.html.xml'('Token',eleven).

'Euler.html.xml'('Token',else).

'Euler.html.xml'('Token',emerging).

'Euler.html.xml'('Token',eminent).

'Euler.html.xml'('Token',employed).

'Euler.html.xml'('Token',enabling).

'Euler.html.xml'('Token',engineered).

'Euler.html.xml'('Token',engines).

'Euler.html.xml'('Token',entered).

'Euler.html.xml'('Token',enthusiasm).

'Euler.html.xml'('Token',entirely).

'Euler.html.xml'('Token',entry).

'Euler.html.xml'('Token',environment).

'Euler.html.xml'('Token',equation).

'Euler.html.xml'('Token',equations).

'Euler.html.xml'('Token',equinoxes).

'Euler.html.xml'('Token',especially).

'Euler.html.xml'('Token',essay).

'Euler.html.xml'('Token',essential).

'Euler.html.xml'('Token',established).

'Euler.html.xml'('Token',etc).

'Euler.html.xml'('Token',evening).

'Euler.html.xml'('Token',eventually).

'Euler.html.xml'('Token',ever).

'Euler.html.xml'('Token',every).

'Euler.html.xml'('Token',everything).

'Euler.html.xml'('Token',examine).

'Euler.html.xml'('Token',example).

'Euler.html.xml'('Token',examples).

'Euler.html.xml'('Token',exceptional).

'Euler.html.xml'('Token',expert).

'Euler.html.xml'('Token',explained).

'Euler.html.xml'('Token',express).

'Euler.html.xml'('Token',expressed).

'Euler.html.xml'('Token',extending).

'Euler.html.xml'('Token',extensively).

'Euler.html.xml'('Token',eye).

'Euler.html.xml'('Token',eyesight).

'Euler.html.xml'('Token',eyestrain).

'Euler.html.xml'('Token',f).

'Euler.html.xml'('Token',fact).

'Euler.html.xml'('Token',factors).

'Euler.html.xml'('Token',failed).

'Euler.html.xml'('Token',fair).

'Euler.html.xml'('Token',fame).

'Euler.html.xml'('Token',family).

'Euler.html.xml'('Token',famous).

'Euler.html.xml'('Token',far).

'Euler.html.xml'('Token',father).

'Euler.html.xml'('Token',favour).

'Euler.html.xml'('Token',feature).

'Euler.html.xml'('Token',feet).

'Euler.html.xml'('Token',fever).

'Euler.html.xml'('Token',few).

'Euler.html.xml'('Token',field).

'Euler.html.xml'('Token',fields).

'Euler.html.xml'('Token',fill).

'Euler.html.xml'('Token',final).

'Euler.html.xml'('Token',financial).

'Euler.html.xml'('Token',find).

'Euler.html.xml'('Token',fine).

'Euler.html.xml'('Token',finite).

'Euler.html.xml'('Token',fire).

'Euler.html.xml'('Token',first).

'Euler.html.xml'('Token',fitting).

'Euler.html.xml'('Token',five).

'Euler.html.xml'('Token',flatly).

'Euler.html.xml'('Token',flow).

'Euler.html.xml'('Token',fluid).

'Euler.html.xml'('Token',fluids).

'Euler.html.xml'('Token',fluxions).

'Euler.html.xml'('Token',follow).

'Euler.html.xml'('Token',followed).

'Euler.html.xml'('Token',following).

'Euler.html.xml'('Token',follows).

'Euler.html.xml'('Token',for).

'Euler.html.xml'('Token',force).

'Euler.html.xml'('Token',forced).

'Euler.html.xml'('Token',foreigners).

'Euler.html.xml'('Token',form).

'Euler.html.xml'('Token',formative).

'Euler.html.xml'('Token',formula).

'Euler.html.xml'('Token',formulae).

'Euler.html.xml'('Token',forward).

'Euler.html.xml'('Token',found).

'Euler.html.xml'('Token',foundation).

'Euler.html.xml'('Token',foundations).

'Euler.html.xml'('Token',founded).

'Euler.html.xml'('Token',four).

'Euler.html.xml'('Token',freely).

'Euler.html.xml'('Token',friend).

'Euler.html.xml'('Token',friends).

'Euler.html.xml'('Token',friendship).

'Euler.html.xml'('Token',from).

'Euler.html.xml'('Token',full).

'Euler.html.xml'('Token',function).

'Euler.html.xml'('Token',functions).

'Euler.html.xml'('Token',fundamental).

'Euler.html.xml'('Token',gamma).

'Euler.html.xml'('Token',gardens).

'Euler.html.xml'('Token',gave).

'Euler.html.xml'('Token',general).

'Euler.html.xml'('Token',geodesics).

'Euler.html.xml'('Token',geographer).

'Euler.html.xml'('Token',geographical).

'Euler.html.xml'('Token',geography).

'Euler.html.xml'('Token',geometer).

'Euler.html.xml'('Token',geometric).

'Euler.html.xml'('Token',geometrical).

'Euler.html.xml'('Token',geometry).

'Euler.html.xml'('Token',give).

'Euler.html.xml'('Token',given).

'Euler.html.xml'('Token',giving).

'Euler.html.xml'('Token',go).

'Euler.html.xml'('Token',goes).

'Euler.html.xml'('Token',going).

'Euler.html.xml'('Token',good).

'Euler.html.xml'('Token',government).

'Euler.html.xml'('Token',graduate).

'Euler.html.xml'('Token',grandchildren).

'Euler.html.xml'('Token',grandmother).

'Euler.html.xml'('Token','grandson-in-law').

'Euler.html.xml'('Token',great).

'Euler.html.xml'('Token',greater).

'Euler.html.xml'('Token',greatest).

'Euler.html.xml'('Token',greatly).

'Euler.html.xml'('Token',group).

'Euler.html.xml'('Token',had).

'Euler.html.xml'('Token',haemorrhage).

'Euler.html.xml'('Token',half).

'Euler.html.xml'('Token',happiest).

'Euler.html.xml'('Token',harmonic).

'Euler.html.xml'('Token',has).

'Euler.html.xml'('Token',have).

'Euler.html.xml'('Token',having).

'Euler.html.xml'('Token',he).

'Euler.html.xml'('Token',health).

'Euler.html.xml'('Token',held).

'Euler.html.xml'('Token',help).

'Euler.html.xml'('Token',helped).

'Euler.html.xml'('Token',helping).

'Euler.html.xml'('Token',here).

'Euler.html.xml'('Token',high).

'Euler.html.xml'('Token',him).

'Euler.html.xml'('Token',himself).

'Euler.html.xml'('Token',his).

'Euler.html.xml'('Token',holding).

'Euler.html.xml'('Token',home).

'Euler.html.xml'('Token',house).

'Euler.html.xml'('Token',how).

'Euler.html.xml'('Token',html).

'Euler.html.xml'('Token',http).

'Euler.html.xml'('Token',hydraulic).

'Euler.html.xml'('Token',hydraulics).

'Euler.html.xml'('Token',hydrodynamics).

'Euler.html.xml'('Token',hydrostatics).

'Euler.html.xml'('Token',i).

'Euler.html.xml'('Token',ideas).

'Euler.html.xml'('Token',if).

'Euler.html.xml'('Token',illness).

'Euler.html.xml'('Token',importance).

'Euler.html.xml'('Token',important).

'Euler.html.xml'('Token',improved).

'Euler.html.xml'('Token',improvement).

'Euler.html.xml'('Token',in).

'Euler.html.xml'('Token',include).

'Euler.html.xml'('Token',included).

'Euler.html.xml'('Token',including).

'Euler.html.xml'('Token',income).

'Euler.html.xml'('Token',incompressible).

'Euler.html.xml'('Token',individual).

'Euler.html.xml'('Token',infancy).

'Euler.html.xml'('Token',infinitary).

'Euler.html.xml'('Token',infinite).

'Euler.html.xml'('Token',infinitorum).

'Euler.html.xml'('Token',infinity).

'Euler.html.xml'('Token',instruments).

'Euler.html.xml'('Token',insurance).

'Euler.html.xml'('Token',integers).

'Euler.html.xml'('Token',integralis).

'Euler.html.xml'('Token',integrals).

'Euler.html.xml'('Token',integrated).

'Euler.html.xml'('Token',integrating).

'Euler.html.xml'('Token',intense).

'Euler.html.xml'('Token',interconnected).

'Euler.html.xml'('Token',interest).

'Euler.html.xml'('Token',interests).

'Euler.html.xml'('Token',interference).

'Euler.html.xml'('Token',intimately).

'Euler.html.xml'('Token',into).

'Euler.html.xml'('Token',introduced).

'Euler.html.xml'('Token',introducing).

'Euler.html.xml'('Token',introduction).

'Euler.html.xml'('Token',inveniendi).

'Euler.html.xml'('Token',investigated).

'Euler.html.xml'('Token',investigating).

'Euler.html.xml'('Token',investigation).

'Euler.html.xml'('Token',investigations).

'Euler.html.xml'('Token',inviscid).

'Euler.html.xml'('Token',invitation).

'Euler.html.xml'('Token',invited).

'Euler.html.xml'('Token',involve).

'Euler.html.xml'('Token',involved).

'Euler.html.xml'('Token',involving).

'Euler.html.xml'('Token',is).

'Euler.html.xml'('Token',isochronous).

'Euler.html.xml'('Token',it).

'Euler.html.xml'('Token',its).

'Euler.html.xml'('Token',ix).

'Euler.html.xml'('Token',joined).

'Euler.html.xml'('Token',just).

'Euler.html.xml'('Token',k).

'Euler.html.xml'('Token',kept).

'Euler.html.xml'('Token',kind).

'Euler.html.xml'('Token',kindly).

'Euler.html.xml'('Token',kinematics).

'Euler.html.xml'('Token',king).

'Euler.html.xml'('Token',knew).

'Euler.html.xml'('Token',knowledge).

'Euler.html.xml'('Token',known).

'Euler.html.xml'('Token',laid).

'Euler.html.xml'('Token',large).

'Euler.html.xml'('Token',later).

'Euler.html.xml'('Token',latest).

'Euler.html.xml'('Token',latter).

'Euler.html.xml'('Token',leadership).

'Euler.html.xml'('Token',learnt).

'Euler.html.xml'('Token',leave).

'Euler.html.xml'('Token',lectured).

'Euler.html.xml'('Token',lectures).

'Euler.html.xml'('Token',led).

'Euler.html.xml'('Token',left).

'Euler.html.xml'('Token',lesson).

'Euler.html.xml'('Token',lessons).

'Euler.html.xml'('Token',letter).

'Euler.html.xml'('Token',level).

'Euler.html.xml'('Token',library).

'Euler.html.xml'('Token',lieutenant).

'Euler.html.xml'('Token',life).

'Euler.html.xml'('Token',light).

'Euler.html.xml'('Token',like).

'Euler.html.xml'('Token',limit).

'Euler.html.xml'('Token',linear).

'Euler.html.xml'('Token',lineas).

'Euler.html.xml'('Token',little).

'Euler.html.xml'('Token',lived).

'Euler.html.xml'('Token',ln).

'Euler.html.xml'('Token',log).

'Euler.html.xml'('Token',logarithms).

'Euler.html.xml'('Token',logs).

'Euler.html.xml'('Token',longitude).

'Euler.html.xml'('Token',lost).

'Euler.html.xml'('Token',lots).

'Euler.html.xml'('Token',lotteries).

'Euler.html.xml'('Token',lunar).

'Euler.html.xml'('Token',machines).

'Euler.html.xml'('Token',made).

'Euler.html.xml'('Token',magnetism).

'Euler.html.xml'('Token',main).

'Euler.html.xml'('Token',major).

'Euler.html.xml'('Token',make).

'Euler.html.xml'('Token',makes).

'Euler.html.xml'('Token',man).

'Euler.html.xml'('Token',managed).

'Euler.html.xml'('Token',manner).

'Euler.html.xml'('Token',manuscripts).

'Euler.html.xml'('Token',many).

'Euler.html.xml'('Token',map).

'Euler.html.xml'('Token',maps).

'Euler.html.xml'('Token',married).

'Euler.html.xml'('Token',marry).

'Euler.html.xml'('Token',marrying).

'Euler.html.xml'('Token',mass).

'Euler.html.xml'('Token',masts).

'Euler.html.xml'('Token',mathematical).

'Euler.html.xml'('Token','mathematical-physical').

'Euler.html.xml'('Token',mathematician).

'Euler.html.xml'('Token',mathematicians).

'Euler.html.xml'('Token',mathematics).

'Euler.html.xml'('Token',matters).

'Euler.html.xml'('Token',may).

'Euler.html.xml'('Token',mcs).

'Euler.html.xml'('Token',me).

'Euler.html.xml'('Token',means).

'Euler.html.xml'('Token',mechanics).

'Euler.html.xml'('Token',medical).

'Euler.html.xml'('Token',meditations).

'Euler.html.xml'('Token',medium).

'Euler.html.xml'('Token',member).

'Euler.html.xml'('Token',members).

'Euler.html.xml'('Token',membranes).

'Euler.html.xml'('Token',memory).

'Euler.html.xml'('Token',mentioned).

'Euler.html.xml'('Token',mere).

'Euler.html.xml'('Token',method).

'Euler.html.xml'('Token',methods).

'Euler.html.xml'('Token',military).

'Euler.html.xml'('Token',mind).

'Euler.html.xml'('Token',mingling).

'Euler.html.xml'('Token',minister).

'Euler.html.xml'('Token',ministry).

'Euler.html.xml'('Token',modern).

'Euler.html.xml'('Token',moon).

'Euler.html.xml'('Token',more).

'Euler.html.xml'('Token',most).

'Euler.html.xml'('Token',mostly).

'Euler.html.xml'('Token',mother).

'Euler.html.xml'('Token',motion).

'Euler.html.xml'('Token',motivated).

'Euler.html.xml'('Token',motus).

'Euler.html.xml'('Token',move).

'Euler.html.xml'('Token',moved).

'Euler.html.xml'('Token',much).

'Euler.html.xml'('Token',music).

'Euler.html.xml'('Token',musicae).

'Euler.html.xml'('Token',musical).

'Euler.html.xml'('Token',musicians).

'Euler.html.xml'('Token',my).

'Euler.html.xml'('Token',n).

'Euler.html.xml'('Token',named).

'Euler.html.xml'('Token',namely).

'Euler.html.xml'('Token',names).

'Euler.html.xml'('Token',natural).

'Euler.html.xml'('Token',naturally).

'Euler.html.xml'('Token',nature).

'Euler.html.xml'('Token',naval).

'Euler.html.xml'('Token',navigation).

'Euler.html.xml'('Token',navy).

'Euler.html.xml'('Token',nearly).

'Euler.html.xml'('Token',necessary).

'Euler.html.xml'('Token',new).

'Euler.html.xml'('Token',news).

'Euler.html.xml'('Token',next).

'Euler.html.xml'('Token',no).

'Euler.html.xml'('Token',not).

'Euler.html.xml'('Token',notation).

'Euler.html.xml'('Token',noted).

'Euler.html.xml'('Token',novae).

'Euler.html.xml'('Token',now).

'Euler.html.xml'('Token',number).

'Euler.html.xml'('Token',numbers).

'Euler.html.xml'('Token',numerous).

'Euler.html.xml'('Token','o''clock').

'Euler.html.xml'('Token',observations).

'Euler.html.xml'('Token',observatory).

'Euler.html.xml'('Token',obstacle).

'Euler.html.xml'('Token',obtain).

'Euler.html.xml'('Token',obtained).

'Euler.html.xml'('Token',occasions).

'Euler.html.xml'('Token',occupation).

'Euler.html.xml'('Token',of).

'Euler.html.xml'('Token',offer).

'Euler.html.xml'('Token',offered).

'Euler.html.xml'('Token',old).

'Euler.html.xml'('Token',on).

'Euler.html.xml'('Token',one).

'Euler.html.xml'('Token',only).

'Euler.html.xml'('Token',operation).

'Euler.html.xml'('Token',opportunity).

'Euler.html.xml'('Token',optics).

'Euler.html.xml'('Token',optimal).

'Euler.html.xml'('Token',or).

'Euler.html.xml'('Token',orbits).

'Euler.html.xml'('Token',order).

'Euler.html.xml'('Token',orderly).

'Euler.html.xml'('Token',ordinary).

'Euler.html.xml'('Token',originally).

'Euler.html.xml'('Token',orthogonal).

'Euler.html.xml'('Token',other).

'Euler.html.xml'('Token',others).

'Euler.html.xml'('Token',our).

'Euler.html.xml'('Token',out).

'Euler.html.xml'('Token',output).

'Euler.html.xml'('Token',outstanding).

'Euler.html.xml'('Token',over).

'Euler.html.xml'('Token',overall).

'Euler.html.xml'('Token',oversaw).

'Euler.html.xml'('Token',overstrain).

'Euler.html.xml'('Token',owe).

'Euler.html.xml'('Token',own).

'Euler.html.xml'('Token',p).

'Euler.html.xml'('Token',page).

'Euler.html.xml'('Token',painter).

'Euler.html.xml'('Token',paper).

'Euler.html.xml'('Token',parallax).

'Euler.html.xml'('Token',parents).

'Euler.html.xml'('Token',part).

'Euler.html.xml'('Token',partial).

'Euler.html.xml'('Token',particular).

'Euler.html.xml'('Token',particularly).

'Euler.html.xml'('Token',past).

'Euler.html.xml'('Token',pensions).

'Euler.html.xml'('Token',period).

'Euler.html.xml'('Token',permission).

'Euler.html.xml'('Token',personal).

'Euler.html.xml'('Token',personnel).

'Euler.html.xml'('Token',persuasion).

'Euler.html.xml'('Token',phenomenal).

'Euler.html.xml'('Token',phi).

'Euler.html.xml'('Token',philosophical).

'Euler.html.xml'('Token',philosophy).

'Euler.html.xml'('Token',physical).

'Euler.html.xml'('Token',physics).

'Euler.html.xml'('Token',physiology).

'Euler.html.xml'('Token',pi).

'Euler.html.xml'('Token',pieces).

'Euler.html.xml'('Token',pipes).

'Euler.html.xml'('Token',place).

'Euler.html.xml'('Token',places).

'Euler.html.xml'('Token',planet).

'Euler.html.xml'('Token',planetary).

'Euler.html.xml'('Token',planets).

'Euler.html.xml'('Token',planned).

'Euler.html.xml'('Token',playing).

'Euler.html.xml'('Token',pleasing).

'Euler.html.xml'('Token',point).

'Euler.html.xml'('Token',political).

'Euler.html.xml'('Token',polyhedron).

'Euler.html.xml'('Token',poor).

'Euler.html.xml'('Token',popular).

'Euler.html.xml'('Token',portrait).

'Euler.html.xml'('Token',position).

'Euler.html.xml'('Token',positive).

'Euler.html.xml'('Token',post).

'Euler.html.xml'('Token',potential).

'Euler.html.xml'('Token',power).

'Euler.html.xml'('Token',powers).

'Euler.html.xml'('Token',practical).

'Euler.html.xml'('Token',precession).

'Euler.html.xml'('Token',precise).

'Euler.html.xml'('Token',predecessors).

'Euler.html.xml'('Token',preferred).

'Euler.html.xml'('Token',prepare).

'Euler.html.xml'('Token',presented).

'Euler.html.xml'('Token',presidency).

'Euler.html.xml'('Token',president).

'Euler.html.xml'('Token',previously).

'Euler.html.xml'('Token',prime).

'Euler.html.xml'('Token',principles).

'Euler.html.xml'('Token',print).

'Euler.html.xml'('Token',private).

'Euler.html.xml'('Token',prize).

'Euler.html.xml'('Token',prizes).

'Euler.html.xml'('Token',probably).

'Euler.html.xml'('Token',problem).

'Euler.html.xml'('Token',problems).

'Euler.html.xml'('Token',produced).

'Euler.html.xml'('Token',product).

'Euler.html.xml'('Token',professor).

'Euler.html.xml'('Token',profound).

'Euler.html.xml'('Token',program).

'Euler.html.xml'('Token',project).

'Euler.html.xml'('Token',projects).

'Euler.html.xml'('Token',prolific).

'Euler.html.xml'('Token',proof).

'Euler.html.xml'('Token',proper).

'Euler.html.xml'('Token',propulsion).

'Euler.html.xml'('Token',proudly).

'Euler.html.xml'('Token',prove).

'Euler.html.xml'('Token',proved).

'Euler.html.xml'('Token',provide).

'Euler.html.xml'('Token',provided).

'Euler.html.xml'('Token',publication).

'Euler.html.xml'('Token',publications).

'Euler.html.xml'('Token',publish).

'Euler.html.xml'('Token',published).

'Euler.html.xml'('Token',publishing).

'Euler.html.xml'('Token',pumps).

'Euler.html.xml'('Token',put).

'Euler.html.xml'('Token',quite).

'Euler.html.xml'('Token',rather).

'Euler.html.xml'('Token',rational).

'Euler.html.xml'('Token',read).

'Euler.html.xml'('Token',reading).

'Euler.html.xml'('Token',reasons).

'Euler.html.xml'('Token',receive).

'Euler.html.xml'('Token',received).

'Euler.html.xml'('Token',recently).

'Euler.html.xml'('Token',reciprocal).

'Euler.html.xml'('Token',reciprocals).

'Euler.html.xml'('Token',reconstructed).

'Euler.html.xml'('Token',recovered).

'Euler.html.xml'('Token',rectilinear).

'Euler.html.xml'('Token',rediscovered).

'Euler.html.xml'('Token',refraction).

'Euler.html.xml'('Token',refused).

'Euler.html.xml'('Token',relating).

'Euler.html.xml'('Token',relation).

'Euler.html.xml'('Token',relative).

'Euler.html.xml'('Token',remain).

'Euler.html.xml'('Token',remarkable).

'Euler.html.xml'('Token',remarked).

'Euler.html.xml'('Token',remuneration).

'Euler.html.xml'('Token',replace).

'Euler.html.xml'('Token',replied).

'Euler.html.xml'('Token',reports).

'Euler.html.xml'('Token',republic).

'Euler.html.xml'('Token',reputation).

'Euler.html.xml'('Token',requested).

'Euler.html.xml'('Token',requests).

'Euler.html.xml'('Token',research).

'Euler.html.xml'('Token',researches).

'Euler.html.xml'('Token',residence).

'Euler.html.xml'('Token',resisting).

'Euler.html.xml'('Token',respectively).

'Euler.html.xml'('Token',restored).

'Euler.html.xml'('Token',result).

'Euler.html.xml'('Token',results).

'Euler.html.xml'('Token',return).

'Euler.html.xml'('Token',returned).

'Euler.html.xml'('Token',right).

'Euler.html.xml'('Token',rigid).

'Euler.html.xml'('Token',ring).

'Euler.html.xml'('Token',root).

'Euler.html.xml'('Token',rotational).

'Euler.html.xml'('Token',round).

'Euler.html.xml'('Token',royal).

'Euler.html.xml'('Token',running).

'Euler.html.xml'('Token',s).

'Euler.html.xml'('Token',salary).

'Euler.html.xml'('Token',sale).

'Euler.html.xml'('Token',same).

'Euler.html.xml'('Token',save).

'Euler.html.xml'('Token',says).

'Euler.html.xml'('Token',scheme).

'Euler.html.xml'('Token',scholar).

'Euler.html.xml'('Token',school).

'Euler.html.xml'('Token',science).

'Euler.html.xml'('Token',scientific).

'Euler.html.xml'('Token',scientists).

'Euler.html.xml'('Token',second).

'Euler.html.xml'('Token',secretaries).

'Euler.html.xml'('Token',secretary).

'Euler.html.xml'('Token',section).

'Euler.html.xml'('Token',see).

'Euler.html.xml'('Token',seems).

'Euler.html.xml'('Token',selected).

'Euler.html.xml'('Token',selection).

'Euler.html.xml'('Token','self-same').

'Euler.html.xml'('Token',senior).

'Euler.html.xml'('Token',sent).

'Euler.html.xml'('Token',separate).

'Euler.html.xml'('Token',series).

'Euler.html.xml'('Token',served).

'Euler.html.xml'('Token',set).

'Euler.html.xml'('Token',setting).

'Euler.html.xml'('Token',seven).

'Euler.html.xml'('Token',severe).

'Euler.html.xml'('Token',shared).

'Euler.html.xml'('Token',ship).

'Euler.html.xml'('Token',shipbuilding).

'Euler.html.xml'('Token',ships).

'Euler.html.xml'('Token',short).

'Euler.html.xml'('Token',shortly).

'Euler.html.xml'('Token',showed).

'Euler.html.xml'('Token',side).

'Euler.html.xml'('Token',sight).

'Euler.html.xml'('Token',significant).

'Euler.html.xml'('Token',simplicity).

'Euler.html.xml'('Token',sin).

'Euler.html.xml'('Token',since).

'Euler.html.xml'('Token',skill).

'Euler.html.xml'('Token',slowly).

'Euler.html.xml'('Token',small).

'Euler.html.xml'('Token',so).

'Euler.html.xml'('Token',solid).

'Euler.html.xml'('Token',solidorum).

'Euler.html.xml'('Token',solution).

'Euler.html.xml'('Token',solutions).

'Euler.html.xml'('Token',solve).

'Euler.html.xml'('Token',solved).

'Euler.html.xml'('Token',some).

'Euler.html.xml'('Token',sometimes).

'Euler.html.xml'('Token',son).

'Euler.html.xml'('Token',sons).

'Euler.html.xml'('Token',soon).

'Euler.html.xml'('Token',source).

'Euler.html.xml'('Token',sparked).

'Euler.html.xml'('Token',special).

'Euler.html.xml'('Token',specific).

'Euler.html.xml'('Token',spent).

'Euler.html.xml'('Token',spring).

'Euler.html.xml'('Token',square).

'Euler.html.xml'('Token','st-andrews').

'Euler.html.xml'('Token',stage).

'Euler.html.xml'('Token',start).

'Euler.html.xml'('Token',started).

'Euler.html.xml'('Token',state).

'Euler.html.xml'('Token',stated).

'Euler.html.xml'('Token',states).

'Euler.html.xml'('Token',still).

'Euler.html.xml'('Token',stimulated).

'Euler.html.xml'('Token',studied).

'Euler.html.xml'('Token',studies).

'Euler.html.xml'('Token',study).

'Euler.html.xml'('Token',subjects).

'Euler.html.xml'('Token',sublime).

'Euler.html.xml'('Token',submitted).

'Euler.html.xml'('Token',substantial).

'Euler.html.xml'('Token',substitutions).

'Euler.html.xml'('Token',successful).

'Euler.html.xml'('Token',such).

'Euler.html.xml'('Token',suffered).

'Euler.html.xml'('Token',sufficiently).

'Euler.html.xml'('Token',suggests).

'Euler.html.xml'('Token',sum).

'Euler.html.xml'('Token',summarising).

'Euler.html.xml'('Token',summation).

'Euler.html.xml'('Token',summer).

'Euler.html.xml'('Token',summing).

'Euler.html.xml'('Token',sums).

'Euler.html.xml'('Token',sun).

'Euler.html.xml'('Token',superficial).

'Euler.html.xml'('Token',supervised).

'Euler.html.xml'('Token',supplied).

'Euler.html.xml'('Token',surface).

'Euler.html.xml'('Token',surfaces).

'Euler.html.xml'('Token',surrounded).

'Euler.html.xml'('Token',survived).

'Euler.html.xml'('Token',symptom).

'Euler.html.xml'('Token',synthetic).

'Euler.html.xml'('Token',system).

'Euler.html.xml'('Token',systematic).

'Euler.html.xml'('Token',tables).

'Euler.html.xml'('Token',take).

'Euler.html.xml'('Token',taking).

'Euler.html.xml'('Token',task).

'Euler.html.xml'('Token',tea).

'Euler.html.xml'('Token',teach).

'Euler.html.xml'('Token',teaching).

'Euler.html.xml'('Token',technological).

'Euler.html.xml'('Token',telling).

'Euler.html.xml'('Token',tends).

'Euler.html.xml'('Token',terms).

'Euler.html.xml'('Token',texts).

'Euler.html.xml'('Token',than).

'Euler.html.xml'('Token',that).

'Euler.html.xml'('Token',the).

'Euler.html.xml'('Token',their).

'Euler.html.xml'('Token',them).

'Euler.html.xml'('Token',then).

'Euler.html.xml'('Token',theology).

'Euler.html.xml'('Token',theorem).

'Euler.html.xml'('Token',theorems).

'Euler.html.xml'('Token',theoretical).

'Euler.html.xml'('Token',theoriae).

'Euler.html.xml'('Token',theory).

'Euler.html.xml'('Token',there).

'Euler.html.xml'('Token',these).

'Euler.html.xml'('Token',they).

'Euler.html.xml'('Token',think).

'Euler.html.xml'('Token',this).

'Euler.html.xml'('Token',thorough).

'Euler.html.xml'('Token',those).

'Euler.html.xml'('Token',three).

'Euler.html.xml'('Token',through).

'Euler.html.xml'('Token',thus).

'Euler.html.xml'('Token',time).

'Euler.html.xml'('Token',title).

'Euler.html.xml'('Token',to).

'Euler.html.xml'('Token',together).

'Euler.html.xml'('Token',tones).

'Euler.html.xml'('Token',too).

'Euler.html.xml'('Token',took).

'Euler.html.xml'('Token',top).

'Euler.html.xml'('Token',topic).

'Euler.html.xml'('Token',topics).

'Euler.html.xml'('Token',topology).

'Euler.html.xml'('Token',total).

'Euler.html.xml'('Token',totally).

'Euler.html.xml'('Token',training).

'Euler.html.xml'('Token',trajectories).

'Euler.html.xml'('Token',travel).

'Euler.html.xml'('Token',travelled).

'Euler.html.xml'('Token',tried).

'Euler.html.xml'('Token',trigonometry).

'Euler.html.xml'('Token',tuition).

'Euler.html.xml'('Token',turmoil).

'Euler.html.xml'('Token','twenty-five').

'Euler.html.xml'('Token',two).

'Euler.html.xml'('Token',uk).

'Euler.html.xml'('Token',ultimately).

'Euler.html.xml'('Token',unbelievable).

'Euler.html.xml'('Token',under).

'Euler.html.xml'('Token',undergraduate).

'Euler.html.xml'('Token',undergraduates).

'Euler.html.xml'('Token',understand).

'Euler.html.xml'('Token',undertook).

'Euler.html.xml'('Token',undoubtedly).

'Euler.html.xml'('Token',unhappy).

'Euler.html.xml'('Token',uniform).

'Euler.html.xml'('Token',unproved).

'Euler.html.xml'('Token',unpublished).

'Euler.html.xml'('Token',unsuccessfully).

'Euler.html.xml'('Token',until).

'Euler.html.xml'('Token',up).

'Euler.html.xml'('Token',upon).

'Euler.html.xml'('Token',us).

'Euler.html.xml'('Token',used).

'Euler.html.xml'('Token',usual).

'Euler.html.xml'('Token',uttered).

'Euler.html.xml'('Token',vacancy).

'Euler.html.xml'('Token',vacuum).

'Euler.html.xml'('Token',valuable).

'Euler.html.xml'('Token',values).

'Euler.html.xml'('Token',van).

'Euler.html.xml'('Token',variable).

'Euler.html.xml'('Token',variation).

'Euler.html.xml'('Token',variational).

'Euler.html.xml'('Token',variations).

'Euler.html.xml'('Token',various).

'Euler.html.xml'('Token',vast).

'Euler.html.xml'('Token',velocity).

'Euler.html.xml'('Token',verified).

'Euler.html.xml'('Token',versatile).

'Euler.html.xml'('Token',version).

'Euler.html.xml'('Token',very).

'Euler.html.xml'('Token',vibrating).

'Euler.html.xml'('Token',viewed).

'Euler.html.xml'('Token',visit).

'Euler.html.xml'('Token',vital).

'Euler.html.xml'('Token',vols).

'Euler.html.xml'('Token',volume).

'Euler.html.xml'('Token',wagon).

'Euler.html.xml'('Token',want).

'Euler.html.xml'('Token',wanted).

'Euler.html.xml'('Token',was).

'Euler.html.xml'('Token',wave).

'Euler.html.xml'('Token',way).

'Euler.html.xml'('Token',we).

'Euler.html.xml'('Token',well).

'Euler.html.xml'('Token',went).

'Euler.html.xml'('Token',were).

'Euler.html.xml'('Token',what).

'Euler.html.xml'('Token',when).

'Euler.html.xml'('Token',where).

'Euler.html.xml'('Token',which).

'Euler.html.xml'('Token',while).

'Euler.html.xml'('Token',who).

'Euler.html.xml'('Token',whole).

'Euler.html.xml'('Token',whom).

'Euler.html.xml'('Token',wide).

'Euler.html.xml'('Token',widow).

'Euler.html.xml'('Token',wife).

'Euler.html.xml'('Token',will).

'Euler.html.xml'('Token',wish).

'Euler.html.xml'('Token',wishes).

'Euler.html.xml'('Token',with).

'Euler.html.xml'('Token',without).

'Euler.html.xml'('Token',won).

'Euler.html.xml'('Token',work).

'Euler.html.xml'('Token',working).

'Euler.html.xml'('Token',works).

'Euler.html.xml'('Token',world).

'Euler.html.xml'('Token',worth).

'Euler.html.xml'('Token',would).

'Euler.html.xml'('Token',write).

'Euler.html.xml'('Token',writer).

'Euler.html.xml'('Token',writes).

'Euler.html.xml'('Token',writings).

'Euler.html.xml'('Token',written).

'Euler.html.xml'('Token',wrote).

'Euler.html.xml'('Token','www-history').

'Euler.html.xml'('Token',x).

'Euler.html.xml'('Token',y).

'Euler.html.xml'('Token',year).

'Euler.html.xml'('Token',years).

'Euler.html.xml'('Token',you).

'Euler.html.xml'('Token',young).

'Euler.html.xml'('Token',youth).

'Euler.html.xml'('Token',zeta).

'Euler.html.xml'('Unknown','Accepting').

'Euler.html.xml'('Unknown','Alembert').

'Euler.html.xml'('Unknown','Amazingly').

'Euler.html.xml'('Unknown','Analytic').

'Euler.html.xml'('Unknown','Article').

'Euler.html.xml'('Unknown','Atlas').

'Euler.html.xml'('Unknown','Bernoullis').

'Euler.html.xml'('Unknown','Bodies').

'Euler.html.xml'('Unknown','C').

'Euler.html.xml'('Unknown','Calinger').

'Euler.html.xml'('Unknown','Carath?odory').

'Euler.html.xml'('Unknown','Cartography').

'Euler.html.xml'('Unknown','Cauchy-').

'Euler.html.xml'('Unknown','Delisle').

'Euler.html.xml'('Unknown','Empire').

'Euler.html.xml'('Unknown','Euler-').

'Euler.html.xml'('Unknown','Eulerian').

'Euler.html.xml'('Unknown','Fermats').

'Euler.html.xml'('Unknown','Firstly').

'Euler.html.xml'('Unknown','Grand').

'Euler.html.xml'('Unknown','Great').

'Euler.html.xml'('Unknown','Hebrew').

'Euler.html.xml'('Unknown','II').

'Euler.html.xml'('Unknown','Institutiones').

'Euler.html.xml'('Unknown','Introductio').

'Euler.html.xml'('Unknown','J-N').

'Euler.html.xml'('Unknown','L?beck').

'Euler.html.xml'('Unknown','MacTutor').

'Euler.html.xml'('Unknown','Master').

'Euler.html.xml'('Unknown','Mathematicians').

'Euler.html.xml'('Unknown','Mathematics').

'Euler.html.xml'('Unknown','Mechanica').

'Euler.html.xml'('Unknown','Methodus').

'Euler.html.xml'('Unknown','Moivre').

'Euler.html.xml'('Unknown','Motions').

'Euler.html.xml'('Unknown','Newtonian').

'Euler.html.xml'('Unknown','Prize').

'Euler.html.xml'('Unknown','Problems').

'Euler.html.xml'('Unknown','Rhine').

'Euler.html.xml'('Unknown','Riehen').

'Euler.html.xml'('Unknown','Riemann').

'Euler.html.xml'('Unknown','Souci').

'Euler.html.xml'('Unknown','Tentamen').

'Euler.html.xml'('Unknown','Theorem').

'Euler.html.xml'('Unknown','Theoria').

'Euler.html.xml'('Unknown','Theory').

'Euler.html.xml'('Unknown','Uranus').

'Euler.html.xml'('Unknown',des).

'Euler.html.xml'('UrlPre','http://').

'Euler.html.xml'('VG','Born').

'Euler.html.xml'('VG','Concerning').

'Euler.html.xml'('VG','Died').

'Euler.html.xml'('VG','Let').

'Euler.html.xml'('VG',accepted).

'Euler.html.xml'('VG',according).

'Euler.html.xml'('VG',acted).

'Euler.html.xml'('VG',addresses).

'Euler.html.xml'('VG',advanced).

'Euler.html.xml'('VG',allowed).

'Euler.html.xml'('VG',am).

'Euler.html.xml'('VG',appeared).

'Euler.html.xml'('VG',applied).

'Euler.html.xml'('VG',applies).

'Euler.html.xml'('VG',approximating).

'Euler.html.xml'('VG',are).

'Euler.html.xml'('VG','are concerned').

'Euler.html.xml'('VG',argues).

'Euler.html.xml'('VG',arriving).

'Euler.html.xml'('VG',asked).

'Euler.html.xml'('VG',assisting).

'Euler.html.xml'('VG',assumed).

'Euler.html.xml'('VG',attracted).

'Euler.html.xml'('VG',bases).

'Euler.html.xml'('VG',became).

'Euler.html.xml'('VG',becoming).

'Euler.html.xml'('VG',began).

'Euler.html.xml'('VG',begins).

'Euler.html.xml'('VG',behaves).

'Euler.html.xml'('VG',benefited).

'Euler.html.xml'('VG',bought).

'Euler.html.xml'('VG',bring).

'Euler.html.xml'('VG',brought).

'Euler.html.xml'('VG',calculated).

'Euler.html.xml'('VG',calculating).

'Euler.html.xml'('VG',called).

'Euler.html.xml'('VG',calls).

'Euler.html.xml'('VG',came).

'Euler.html.xml'('VG','can be expressed').

'Euler.html.xml'('VG','can do').

'Euler.html.xml'('VG','can make').

'Euler.html.xml'('VG',carried).

'Euler.html.xml'('VG',changing).

'Euler.html.xml'('VG',charged).

'Euler.html.xml'('VG',claimed).

'Euler.html.xml'('VG',closed).

'Euler.html.xml'('VG',compared).

'Euler.html.xml'('VG',compiled).

'Euler.html.xml'('VG',completed).

'Euler.html.xml'('VG',considered).

'Euler.html.xml'('VG',considering).

'Euler.html.xml'('VG',consisting).

'Euler.html.xml'('VG',constructing).

'Euler.html.xml'('VG',continued).

'Euler.html.xml'('VG',contrasted).

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'Euler.html.xml'(b,'Article by:').

'Euler.html.xml'(b,'Leonhard Euler').

'Euler.html.xml'(b,'MacTutor History of Mathematics').

'Euler.html.xml'(b,'September 1998').

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( s ) = (1/ n s ) = (1 - p - s ) -1
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.. the scientists assisting Euler were not mere secretaries; he discussed the general scheme of the works with them, and they developed his ideas, calculating tables, and sometimes compiled examples.
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... I have very little desire for anything to be detracted from the fame of the celebrated Mr Maclaurin since he probably came upon the same theorem for summing series before me, and consequently deserves to be named as its first discoverer. For I found that theorem about four years ago, at which time I also described its proof and application in greater detail to our Academy.
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... I soon found an opportunity to be introduced to a famous professor Johann Bernoulli. ... True, he was very busy and so refused flatly to give me private lessons; but he gave me much more valuable advice to start reading more difficult mathematical books on my own and to study them as diligently as I could; if I came across some obstacle or difficulty, I was given permission to visit him freely every Sunday afternoon and he kindly explained to me everything I could not understand ...
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... after 1730 he carried out state projects dealing with cartography, science education, magnetism, fire engines, machines, and ship building. ... The core of his research program was now set in place: number theory; infinitary analysis including its emerging branches, differential equations and the calculus of variations; and rational mechanics. He viewed these three fields as intimately interconnected. Studies of number theory were vital to the foundations of calculus, and special functions and differential equations were essential to rational mechanics, which supplied concrete problems.
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... determination of the orbits of comets and planets by a few observations, methods of calculation of the parallax of the sun, the theory of refraction, consideration of the physical nature of comets, .... His most outstanding works, for which he won many prizes from the Paris Acad?mie des Sciences, are concerned with celestial mechanics, which especially attracted scientists at that time.
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... for musicians too advanced in its mathematics and for mathematicians too musical.
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... he supervised the observatory and the botanical gardens; selected the personnel; oversaw various financial matters; and, in particular, managed the publication of various calendars and geographical maps, the sale of which was a source of income for the Academy. The king also charged Euler with practical problems, such as the project in 1749 of correcting the level of the Finow Canal ... At that time he also supervised the work on pumps and pipes of the hydraulic system at Sans Souci, the royal summer residence.
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... lost an eye and [ the other ] currently may be in the same danger.
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... one of the most beautiful mathematical works ever written.
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... part of mathematics and deduce in an orderly manner, from correct principles, everything which can make a fitting together and mingling of tones pleasing.
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... will be publishing a book on fluxions. ... he has two theorems for summing series by means of derivatives of the terms, one of which is the self-same result that you sent me.
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1 / 1 + 1 / 2 + 1 / 3 + ... + 1 / n - log e n
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Concerning the summation of very slowly converging series, in the past year I have lectured to our Academy on a special method of which I have given the sums of very many series sufficiently accurately and with very little effort.
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However sublime are the researches on fluids which we owe to Messrs Bernoulli, Clairaut and d''Alembert, they flow so naturally from my two general formulae that one cannot sufficiently admire this accord of their profound meditations with the simplicity of the principles from which I have drawn my two equations ...
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I can do just what I wish [ in my research ] ... The king calls me his professor, and I think I am the happiest man in the world.
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Nowhere else could he have been surrounded by such a group of eminent scientists, including the analyst, geometer Jakob Hermann, a relative; Daniel Bernoulli, with whom Euler was connected not only by personal friendship but also by common interests in the field of applied mathematics; the versatile scholar Christian Goldbach, with whom Euler discussed numerous problems of analysis and the theory of numbers; F Maier, working in trigonometry; and the astronomer and geographer J-N Delisle.
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On 18 September 1783 Euler spent the first half of the day as usual. He gave a mathematics lesson to one of his grandchildren, did some calculations with chalk on two boards on the motion of balloons; then discussed with Lexell and Fuss the recently discovered planet Uranus. About five o''clock in the afternoon he suffered a brain haemorrhage and uttered only "I am dying" before he lost consciousness. He died about eleven o''clock in the evening.
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Outstanding in both theoretical and applied mechanics, it addresses Euler''s intense occupation with the problem of ship propulsion. It applies variational principles to determine the optimal ship design and first established the principles of hydrostatics ... Euler here also begins developing the kinematics and dynamics of rigid bodies, introducing in part the differential equations for their motion.
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The distinguishing feature of Euler''s investigations in mechanics as compared to those of his predecessors is the systematic and successful application of analysis. Previously the methods of mechanics had been mostly synthetic and geometrical; they demanded too individual an approach to separate problems. Euler was the first to appreciate the importance of introducing uniform analytic methods into mechanics, thus enabling its problems to be solved in a clear and direct way.
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This decision ultimately benefited Euler, because it forced him to move from a small republic into a setting more adequate for his brilliant research and technological work.
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'Euler.html.xml'(body,'Leonhard Euler

Born: 15 April 1707 in Basel, Switzerland
Died: 18 Sept 1783 in St Petersburg, Russia

Leonhard Euler ''s father was Paul Euler. Paul Euler had studied theology at the University of Basel and had attended Jacob Bernoulli''s lectures there. In fact Paul Euler and Johann Bernoulli had both lived in Jacob Bernoulli''s house while undergraduates at Basel. Paul Euler became a Protestant minister and married Margaret Brucker, the daughter of another Protestant minister. Their son Leonhard Euler was born in Basel, but the family moved to Riehen when he was one year old and it was in Riehen, not far from Basel, that Leonard was brought up. Paul Euler had, as we have mentioned, some mathematical training and he was able to teach his son elementary mathematics along with other subjects.

Leonhard was sent to school in Basel and during this time he lived with his grandmother on his mother''s side. This school was a rather poor one, by all accounts, and Euler learnt no mathematics at all from the school. However his interest in mathematics had certainly been sparked by his father''s teaching, and he read mathematics texts on his own and took some private lessons. Euler''s father wanted his son to follow him into the church and sent him to the University of Basel to prepare for the ministry. He entered the University in 1720, at the age of 14, first to obtain a general education before going on to more advanced studies. Johann Bernoulli soon discovered Euler''s great potential for mathematics in private tuition that Euler himself engineered. Euler''s own account given in his unpublished autobiographical writings, see [1], is as follows:-

... I soon found an opportunity to be introduced to a famous professor Johann Bernoulli. ... True, he was very busy and so refused flatly to give me private lessons; but he gave me much more valuable advice to start reading more difficult mathematical books on my own and to study them as diligently as I could; if I came across some obstacle or difficulty, I was given permission to visit him freely every Sunday afternoon and he kindly explained to me everything I could not understand ...

In 1723 Euler completed his Master''s degree in philosophy having compared and contrasted the philosophical ideas of Descartes and Newton. He began his study of theology in the autumn of 1723, following his father''s wishes, but, although he was to be a devout Christian all his life, he could not find the enthusiasm for the study of theology, Greek and Hebrew that he found in mathematics. Euler obtained his father''s consent to change to mathematics after Johann Bernoulli had used his persuasion. The fact that Euler''s father had been a friend of Johann Bernoulli''s in their undergraduate days undoubtedly made the task of persuasion much easier.

Euler completed his studies at the University of Basel in 1726. He had studied many mathematical works during his time in Basel, and Calinger [24] has reconstructed many of the works that Euler read with the advice of Johann Bernoulli. They include works by Varignon, Descartes, Newton, Galileo, van Schooten, Jacob Bernoulli, Hermann, Taylor and Wallis. By 1726 Euler had already a paper in print, a short article on isochronous curves in a resisting medium. In 1727 he published another article on reciprocal trajectories and submitted an entry for the 1727 Grand Prize of the Paris Academy on the best arrangement of masts on a ship.

The Prize of 1727 went to Bouguer, an expert on mathematics relating to ships, but Euler''s essay won him second place which was a fine achievement for the young graduate. However, Euler now had to find himself an academic appointment and when Nicolaus(II) Bernoulli died in St Petersburg in July 1726 creating a vacancy there, Euler was offered the post which would involve him in teaching applications of mathematics and mechanics to physiology. He accepted the post in November 1726 but stated that he did not want to travel to Russia until the spring of the following year. He had two reasons to delay. He wanted time to study the topics relating to his new post but also he had a chance of a post at the University of Basel since the professor of physics there had died. Euler wrote an article on acoustics, which went on to become a classic, in his bid for selection to the post but he was not chosen to go forward to the stage where lots were drawn to make the final decision on who would fill the chair. Almost certainly his youth (he was 19 at the time) was against him. However Calinger [24] suggests:-

This decision ultimately benefited Euler, because it forced him to move from a small republic into a setting more adequate for his brilliant research and technological work.

As soon as he knew he would not be appointed to the chair of physics, Euler left Basel on 5 April 1727. He travelled down the Rhine by boat, crossed the German states by post wagon, then by boat from L?beck arriving in St Petersburg on 17 May 1727. He had joined the St Petersburg Academy of Sciences two years after it had been founded by Catherine I the wife of Peter the Great. Through the requests of Daniel Bernoulli and Jakob Hermann, Euler was appointed to the mathematical-physical division of the Academy rather than to the physiology post he had originally been offered. At St Petersburg Euler had many colleagues who would provide an exceptional environment for him [1]:-

Nowhere else could he have been surrounded by such a group of eminent scientists, including the analyst, geometer Jakob Hermann, a relative; Daniel Bernoulli, with whom Euler was connected not only by personal friendship but also by common interests in the field of applied mathematics; the versatile scholar Christian Goldbach, with whom Euler discussed numerous problems of analysis and the theory of numbers; F Maier, working in trigonometry; and the astronomer and geographer J-N Delisle.

Euler served as a medical lieutenant in the Russian navy from 1727 to 1730. In St Petersburg he lived with Daniel Bernoulli who, already unhappy in Russia, had requested that Euler bring him tea, coffee, brandy and other delicacies from Switzerland. Euler became professor of physics at the Academy in 1730 and, since this allowed him to become a full member of the Academy, he was able to give up his Russian navy post.

Daniel Bernoulli held the senior chair in mathematics at the Academy but when he left St Petersburg to return to Basel in 1733 it was Euler who was appointed to this senior chair of mathematics. The financial improvement which came from this appointment allowed Euler to marry which he did on 7 January 1734, marrying Katharina Gsell, the daughter of a painter from the St Petersburg Gymnasium. Katharina, like Euler, was from a Swiss family. They had 13 children altogether although only five survived their infancy. Euler claimed that he made some of his greatest mathematical discoveries while holding a baby in his arms with other children playing round his feet.

We will examine Euler''s mathematical achievements later in this article but at this stage it is worth summarising Euler''s work in this period of his career. This is done in [24] as follows:-

... after 1730 he carried out state projects dealing with cartography, science education, magnetism, fire engines, machines, and ship building. ... The core of his research program was now set in place: number theory; infinitary analysis including its emerging branches, differential equations and the calculus of variations; and rational mechanics. He viewed these three fields as intimately interconnected. Studies of number theory were vital to the foundations of calculus, and special functions and differential equations were essential to rational mechanics, which supplied concrete problems.

The publication of many articles and his book Mechanica (1736-37), which extensively presented Newtonian dynamics in the form of mathematical analysis for the first time, started Euler on the way to major mathematical work.

Euler''s health problems began in 1735 when he had a severe fever and almost lost his life. However, he kept this news from his parents and members of the Bernoulli family back in Basel until he had recovered. In his autobiographical writings Euler says that his eyesight problems began in 1738 with overstrain due to his cartographic work and that by 1740 he had [24]:-

... lost an eye and [ the other ] currently may be in the same danger.

However, Calinger in [24] argues that Euler''s eyesight problems almost certainly started earlier and that the severe fever of 1735 was a symptom of the eyestrain. He also argues that a portrait of Euler from 1753 suggests that by that stage the sight of his left eye was still good while that of his right eye was poor but not completely blind. Calinger suggests that Euler''s left eye became blind from a later cataract rather than eyestrain.

By 1740 Euler had a very high reputation, having won the Grand Prize of the Paris Academy in 1738 and 1740. On both occasions he shared the first prize with others. Euler''s reputation was to bring an offer to go to Berlin, but at first he preferred to remain in St Petersburg. However political turmoil in Russia made the position of foreigners particularly difficult and contributed to Euler changing his mind. Accepting an improved offer Euler, at the invitation of Frederick the Great, went to Berlin where an Academy of Science was planned to replace the Society of Sciences. He left St Petersburg on 19 June 1741, arriving in Berlin on 25 July. In a letter to a friend Euler wrote:-

I can do just what I wish [ in my research ] ... The king calls me his professor, and I think I am the happiest man in the world.

Even while in Berlin Euler continued to receive part of his salary from Russia. For this remuneration he bought books and instruments for the St Petersburg Academy, he continued to write scientific reports for them, and he educated young Russians.

Maupertuis was the president of the Berlin Academy when it was founded in 1744 with Euler as director of mathematics. He deputised for Maupertuis in his absence and the two became great friends. Euler undertook an unbelievable amount of work for the Academy [1]:-

... he supervised the observatory and the botanical gardens; selected the personnel; oversaw various financial matters; and, in particular, managed the publication of various calendars and geographical maps, the sale of which was a source of income for the Academy. The king also charged Euler with practical problems, such as the project in 1749 of correcting the level of the Finow Canal ... At that time he also supervised the work on pumps and pipes of the hydraulic system at Sans Souci, the royal summer residence.

This was not the limit of his duties by any means. He served on the committee of the Academy dealing with the library and of scientific publications. He served as an advisor to the government on state lotteries, insurance, annuities and pensions and artillery. On top of this his scientific output during this period was phenomenal.

During the twenty-five years spent in Berlin, Euler wrote around 380 articles. He wrote books on the calculus of variations; on the calculation of planetary orbits; on artillery and ballistics (extending the book by Robins); on analysis; on shipbuilding and navigation; on the motion of the moon; lectures on the differential calculus; and a popular scientific publication Letters to a Princess of Germany (3 vols., 1768-72).

In 1759 Maupertuis died and Euler assumed the leadership of the Berlin Academy, although not the title of President. The king was in overall charge and Euler was not now on good terms with Frederick despite the early good favour. Euler, who had argued with d''Alembert on scientific matters, was disturbed when Frederick offered d''Alembert the presidency of the Academy in 1763. However d''Alembert refused to move to Berlin but Frederick''s continued interference with the running of the Academy made Euler decide that the time had come to leave.

In 1766 Euler returned to St Petersburg and Frederick was greatly angered at his departure. Soon after his return to Russia, Euler became almost entirely blind after an illness. In 1771 his home was destroyed by fire and he was able to save only himself and his mathematical manuscripts. A cataract operation shortly after the fire, still in 1771, restored his sight for a few days but Euler seems to have failed to take the necessary care of himself and he became totally blind. Because of his remarkable memory he was able to continue with his work on optics, algebra, and lunar motion. Amazingly after his return to St Petersburg (when Euler was 59) he produced almost half his total works despite the total blindness.

Euler of course did not achieve this remarkable level of output without help. He was helped by his sons, Johann Albrecht Euler who was appointed to the chair of physics at the Academy in St Petersburg in 1766 (becoming its secretary in 1769) and Christoph Euler who had a military career. Euler was also helped by two other members of the Academy, W L Krafft and A J Lexell, and the young mathematician N Fuss who was invited to the Academy from Switzerland in 1772. Fuss, who was Euler''s grandson-in-law, became his assistant in 1776. Yushkevich writes in [1]:-

.. the scientists assisting Euler were not mere secretaries; he discussed the general scheme of the works with them, and they developed his ideas, calculating tables, and sometimes compiled examples.

For example Euler credits Albrecht, Krafft and Lexell for their help with his 775 page work on the motion of the moon, published in 1772. Fuss helped Euler prepare over 250 articles for publication over a period on about seven years in which he acted as Euler''s assistant, including an important work on insurance which was published in 1776.


Yushkevich describes the day of Euler''s death in [1]:-

On 18 September 1783 Euler spent the first half of the day as usual. He gave a mathematics lesson to one of his grandchildren, did some calculations with chalk on two boards on the motion of balloons; then discussed with Lexell and Fuss the recently discovered planet Uranus. About five o''clock in the afternoon he suffered a brain haemorrhage and uttered only "I am dying" before he lost consciousness. He died about eleven o''clock in the evening.

After his death in 1783 the St Petersburg Academy continued to publish Euler''s unpublished work for nearly 50 more years.

Euler''s work in mathematics is so vast that an article of this nature cannot but give a very superficial account of it. He was the most prolific writer of mathematics of all time. He made large bounds forward in the study of modern analytic geometry and trigonometry where he was the first to consider sin, cos etc. as functions rather than as chords as Ptolemy had done.

He made decisive and formative contributions to geometry, calculus and number theory. He integrated Leibniz''s differential calculus and Newton''s method of fluxions into mathematical analysis. He introduced beta and gamma functions, and integrating factors for differential equations. He studied continuum mechanics, lunar theory with Clairaut, the three body problem, elasticity, acoustics, the wave theory of light, hydraulics, and music. He laid the foundation of analytical mechanics, especially in his Theory of the Motions of Rigid Bodies (1765).

We owe to Euler the notation f ( x ) for a function (1734), e for the base of natural logs (1727), i for the square root of -1 (1777), p for pi, for summation (1755), the notation for finite differences y and 2 y and many others.

Let us examine in a little more detail some of Euler''s work. Firstly his work in number theory seems to have been stimulated by Goldbach but probably originally came from the interest that the Bernoullis had in that topic. Goldbach asked Euler, in 1729, if he knew of Fermat''s conjecture that the numbers 2 n + 1 were always prime if n is a power of 2. Euler verified this for n = 1, 2, 4, 8 and 16 and, by 1732 at the latest, showed that the next case 2 32 + 1 = 4294967297 is divisible by 641 and so is not prime. Euler also studied other unproved results of Fermat and in so doing introduced the Euler phi function ( n ), the number of integers k with 1 k n and k coprime to n . He proved another of Fermat''s assertions, namely that if a and b are coprime then a 2 + b 2 has no divisor of the form 4 n - 1, in 1749.

Perhaps the result that brought Euler the most fame in his young days was his solution of what had become known as the Basel problem. This was to find a closed form for the sum of the infinite series (2) = (1/ n 2 ), a problem which had defeated many of the top mathematicians including Jacob Bernoulli, Johann Bernoulli and Daniel Bernoulli. The problem had also been studied unsuccessfully by Leibniz, Stirling, de Moivre and others. Euler showed in 1735 that (2) = p 2 /6 but he went on to prove much more, namely that (4) = p 4 /90, (6) = p 6 /945, (8) = p 8 /9450, (10) = p 10 /93555 and (12) = 691 p 12 /638512875. In 1737 he proved the connection of the zeta function with the series of prime numbers giving the famous relation

( s ) = (1/ n s ) = (1 - p - s ) -1

Here the sum is over all natural numbers n while the product is over all prime numbers.

By 1739 Euler had found the rational coefficients C in (2 n ) = C p 2 n in terms of the Bernoulli numbers.

Other work done by Euler on infinite series included the introduction of his famous Euler''s constant , in 1735, which he showed to be the limit of

1 / 1 + 1 / 2 + 1 / 3 + ... + 1 / n - log e n

as n tends to infinity. He calculated the constant to 16 decimal places. Euler also studied Fourier series and in 1744 he was the first to express an algebraic function by such a series when he gave the result

p /2 - x /2 = sin x + (sin 2 x )/2 + (sin 3 x )/3 + ...

in a letter to Goldbach. Like most of Euler''s work there was a fair time delay before the results were published; this result was not published until 1755.

Euler wrote to James Stirling on 8 June 1736 telling him about his results on summing reciprocals of powers, the harmonic series and Euler''s constant and other results on series. In particular he wrote [60]:-

Concerning the summation of very slowly converging series, in the past year I have lectured to our Academy on a special method of which I have given the sums of very many series sufficiently accurately and with very little effort.

He then goes on to describe what is now called the Euler-Maclaurin summation formula. Two years later Stirling replied telling Euler that Maclaurin:-

... will be publishing a book on fluxions. ... he has two theorems for summing series by means of derivatives of the terms, one of which is the self-same result that you sent me.

Euler replied:-

... I have very little desire for anything to be detracted from the fame of the celebrated Mr Maclaurin since he probably came upon the same theorem for summing series before me, and consequently deserves to be named as its first discoverer. For I found that theorem about four years ago, at which time I also described its proof and application in greater detail to our Academy.

Some of Euler''s number theory results have been mentioned above. Further important results in number theory by Euler included his proof of Fermat''s Last Theorem for the case of n = 3. Perhaps more significant than the result here was the fact that he introduced a proof involving numbers of the form a + b -3 for integers a and b. Although there were problems with his approach this eventually led to Kummer''s major work on Fermats Last Theorem and to the introduction of the concept of a ring.

One could claim that mathematical analysis began with Euler. In 1748 in Introductio in analysin infinitorum Euler made ideas of Johann Bernoulli more precise in defining a function, and he stated that mathematical analysis was the study of functions. This work bases the calculus on the theory of elementary functions rather than on geometric curves, as had been done previously. Also in this work Euler gave the formula

e ix = cos x + i sin x .

In Introductio in analysin infinitorum Euler dealt with logarithms of a variable taking only positive values although he had discovered the formula

ln(-1) = p i

in 1727. He published his full theory of logarithms of complex numbers in 1751.

Analytic functions of a complex variable were investigated by Euler in a number of different contexts, including the study of orthogonal trajectories and cartography. He discovered the Cauchy-Riemann equations in 1777, although d''Alembert had discovered them in 1752 while investigating hydrodynamics.

In 1755 Euler published Institutiones calculi differentialis which begins with a study of the calculus of finite differences. The work makes a thorough investigation of how differentiation behaves under substitutions.

In Institutiones calculi integralis (1768-70) Euler made a thorough investigation of integrals which can be expressed in terms of elementary functions. He also studied beta and gamma functions, which he had introduced first in 1729. Legendre called these ''Eulerian integrals of the first and second kind'' respectively while they were given the names beta function and gamma function by Binet and Gauss respectively. As well as investigating double integrals, Euler considered ordinary and partial differential equations in this work.

The calculus of variations is another area in which Euler made fundamental discoveries. His work Methodus inveniendi lineas curvas ... published in 1740 began the proper study of the calculus of variations. In [12] it is noted that Carath?odory considered this as:-

... one of the most beautiful mathematical works ever written.

Problems in mathematical physics had led Euler to a wide study of differential equations. He considered linear equations with constant coefficients, second order differential equations with variable coefficients, power series solutions of differential equations, a method of variation of constants, integrating factors, a method of approximating solutions, and many others. When considering vibrating membranes, Euler was led to the Bessel equation which he solved by introducing Bessel functions.

Euler made substantial contributions to differential geometry, investigating the theory of surfaces and curvature of surfaces. Many unpublished results by Euler in this area were rediscovered by Gauss. Other geometric investigations led him to fundamental ideas in topology such as the Euler characteristic of a polyhedron.

In 1736 Euler published Mechanica which provided a major advance in mechanics. As Yushkevich writes in [1]:-

The distinguishing feature of Euler''s investigations in mechanics as compared to those of his predecessors is the systematic and successful application of analysis. Previously the methods of mechanics had been mostly synthetic and geometrical; they demanded too individual an approach to separate problems. Euler was the first to appreciate the importance of introducing uniform analytic methods into mechanics, thus enabling its problems to be solved in a clear and direct way.

In Mechanica Euler considered the motion of a point mass both in a vacuum and in a resisting medium. He analysed the motion of a point mass under a central force and also considered the motion of a point mass on a surface. In this latter topic he had to solve various problems of differential geometry and geodesics.

Mechanica was followed by another important work in rational mechanics, this time Euler''s two volume work on naval science. It is described in [24] as:-

Outstanding in both theoretical and applied mechanics, it addresses Euler''s intense occupation with the problem of ship propulsion. It applies variational principles to determine the optimal ship design and first established the principles of hydrostatics ... Euler here also begins developing the kinematics and dynamics of rigid bodies, introducing in part the differential equations for their motion.

Of course hydrostatics had been studied since Archimedes, but Euler gave a definitive version.

In 1765 Euler published another major work on mechanics Theoria motus corporum solidorum in which he decomposed the motion of a solid into a rectilinear motion and a rotational motion. He considered the Euler angles and studied rotational problems which were motivated by the problem of the precession of the equinoxes.

Euler''s work on fluid mechanics is also quite remarkable. He published a number of major pieces of work through the 1750s setting up the main formulae for the topic, the continuity equation, the Laplace velocity potential equation, and the Euler equations for the motion of an inviscid incompressible fluid. In 1752 he wrote:-

However sublime are the researches on fluids which we owe to Messrs Bernoulli, Clairaut and d''Alembert, they flow so naturally from my two general formulae that one cannot sufficiently admire this accord of their profound meditations with the simplicity of the principles from which I have drawn my two equations ...

Euler contributed to knowledge in many other areas, and in all of them he employed his mathematical knowledge and skill. He did important work in astronomy including [1]:-

... determination of the orbits of comets and planets by a few observations, methods of calculation of the parallax of the sun, the theory of refraction, consideration of the physical nature of comets, .... His most outstanding works, for which he won many prizes from the Paris Acad?mie des Sciences, are concerned with celestial mechanics, which especially attracted scientists at that time.

In fact Euler''s lunar theory was used by Tobias Mayer in constructing his tables of the moon. In 1765 Mayer''s widow received 3000 from Britain for the contribution the tables made to the problem of the determination of the longitude, while Euler received 300 from the British government for his theoretical contribution to the work.

Euler also published on the theory of music, in particular he published Tentamen novae theoriae musicae in 1739 in which he tried to make music:-

... part of mathematics and deduce in an orderly manner, from correct principles, everything which can make a fitting together and mingling of tones pleasing.

However, according to [8] the work was:-

... for musicians too advanced in its mathematics and for mathematicians too musical.

Cartography was another area that Euler became involved in when he was appointed director of the St Petersburg Academy''s geography section in 1735. He had the specific task of helping Delisle prepare a map of the whole of the Russian Empire. The Russian Atlas was the result of this collaboration and it appeared in 1745, consisting of 20 maps. Euler, in Berlin by the time of its publication, proudly remarked that this work put the Russians well ahead of the Germans in the art of cartography.

Article by: J J O''Connor and E F Robertson

September 1998
MacTutor History of Mathematics
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Leonhard Euler

Born: 15 April 1707 in Basel, Switzerland
Died: 18 Sept 1783 in St Petersburg, Russia

Leonhard Euler ''s father was Paul Euler. Paul Euler had studied theology at the University of Basel and had attended Jacob Bernoulli''s lectures there. In fact Paul Euler and Johann Bernoulli had both lived in Jacob Bernoulli''s house while undergraduates at Basel. Paul Euler became a Protestant minister and married Margaret Brucker, the daughter of another Protestant minister. Their son Leonhard Euler was born in Basel, but the family moved to Riehen when he was one year old and it was in Riehen, not far from Basel, that Leonard was brought up. Paul Euler had, as we have mentioned, some mathematical training and he was able to teach his son elementary mathematics along with other subjects.

Leonhard was sent to school in Basel and during this time he lived with his grandmother on his mother''s side. This school was a rather poor one, by all accounts, and Euler learnt no mathematics at all from the school. However his interest in mathematics had certainly been sparked by his father''s teaching, and he read mathematics texts on his own and took some private lessons. Euler''s father wanted his son to follow him into the church and sent him to the University of Basel to prepare for the ministry. He entered the University in 1720, at the age of 14, first to obtain a general education before going on to more advanced studies. Johann Bernoulli soon discovered Euler''s great potential for mathematics in private tuition that Euler himself engineered. Euler''s own account given in his unpublished autobiographical writings, see [1], is as follows:-

... I soon found an opportunity to be introduced to a famous professor Johann Bernoulli. ... True, he was very busy and so refused flatly to give me private lessons; but he gave me much more valuable advice to start reading more difficult mathematical books on my own and to study them as diligently as I could; if I came across some obstacle or difficulty, I was given permission to visit him freely every Sunday afternoon and he kindly explained to me everything I could not understand ...

In 1723 Euler completed his Master''s degree in philosophy having compared and contrasted the philosophical ideas of Descartes and Newton. He began his study of theology in the autumn of 1723, following his father''s wishes, but, although he was to be a devout Christian all his life, he could not find the enthusiasm for the study of theology, Greek and Hebrew that he found in mathematics. Euler obtained his father''s consent to change to mathematics after Johann Bernoulli had used his persuasion. The fact that Euler''s father had been a friend of Johann Bernoulli''s in their undergraduate days undoubtedly made the task of persuasion much easier.

Euler completed his studies at the University of Basel in 1726. He had studied many mathematical works during his time in Basel, and Calinger [24] has reconstructed many of the works that Euler read with the advice of Johann Bernoulli. They include works by Varignon, Descartes, Newton, Galileo, van Schooten, Jacob Bernoulli, Hermann, Taylor and Wallis. By 1726 Euler had already a paper in print, a short article on isochronous curves in a resisting medium. In 1727 he published another article on reciprocal trajectories and submitted an entry for the 1727 Grand Prize of the Paris Academy on the best arrangement of masts on a ship.

The Prize of 1727 went to Bouguer, an expert on mathematics relating to ships, but Euler''s essay won him second place which was a fine achievement for the young graduate. However, Euler now had to find himself an academic appointment and when Nicolaus(II) Bernoulli died in St Petersburg in July 1726 creating a vacancy there, Euler was offered the post which would involve him in teaching applications of mathematics and mechanics to physiology. He accepted the post in November 1726 but stated that he did not want to travel to Russia until the spring of the following year. He had two reasons to delay. He wanted time to study the topics relating to his new post but also he had a chance of a post at the University of Basel since the professor of physics there had died. Euler wrote an article on acoustics, which went on to become a classic, in his bid for selection to the post but he was not chosen to go forward to the stage where lots were drawn to make the final decision on who would fill the chair. Almost certainly his youth (he was 19 at the time) was against him. However Calinger [24] suggests:-

This decision ultimately benefited Euler, because it forced him to move from a small republic into a setting more adequate for his brilliant research and technological work.

As soon as he knew he would not be appointed to the chair of physics, Euler left Basel on 5 April 1727. He travelled down the Rhine by boat, crossed the German states by post wagon, then by boat from L?beck arriving in St Petersburg on 17 May 1727. He had joined the St Petersburg Academy of Sciences two years after it had been founded by Catherine I the wife of Peter the Great. Through the requests of Daniel Bernoulli and Jakob Hermann, Euler was appointed to the mathematical-physical division of the Academy rather than to the physiology post he had originally been offered. At St Petersburg Euler had many colleagues who would provide an exceptional environment for him [1]:-

Nowhere else could he have been surrounded by such a group of eminent scientists, including the analyst, geometer Jakob Hermann, a relative; Daniel Bernoulli, with whom Euler was connected not only by personal friendship but also by common interests in the field of applied mathematics; the versatile scholar Christian Goldbach, with whom Euler discussed numerous problems of analysis and the theory of numbers; F Maier, working in trigonometry; and the astronomer and geographer J-N Delisle.

Euler served as a medical lieutenant in the Russian navy from 1727 to 1730. In St Petersburg he lived with Daniel Bernoulli who, already unhappy in Russia, had requested that Euler bring him tea, coffee, brandy and other delicacies from Switzerland. Euler became professor of physics at the Academy in 1730 and, since this allowed him to become a full member of the Academy, he was able to give up his Russian navy post.

Daniel Bernoulli held the senior chair in mathematics at the Academy but when he left St Petersburg to return to Basel in 1733 it was Euler who was appointed to this senior chair of mathematics. The financial improvement which came from this appointment allowed Euler to marry which he did on 7 January 1734, marrying Katharina Gsell, the daughter of a painter from the St Petersburg Gymnasium. Katharina, like Euler, was from a Swiss family. They had 13 children altogether although only five survived their infancy. Euler claimed that he made some of his greatest mathematical discoveries while holding a baby in his arms with other children playing round his feet.

We will examine Euler''s mathematical achievements later in this article but at this stage it is worth summarising Euler''s work in this period of his career. This is done in [24] as follows:-

... after 1730 he carried out state projects dealing with cartography, science education, magnetism, fire engines, machines, and ship building. ... The core of his research program was now set in place: number theory; infinitary analysis including its emerging branches, differential equations and the calculus of variations; and rational mechanics. He viewed these three fields as intimately interconnected. Studies of number theory were vital to the foundations of calculus, and special functions and differential equations were essential to rational mechanics, which supplied concrete problems.

The publication of many articles and his book Mechanica (1736-37), which extensively presented Newtonian dynamics in the form of mathematical analysis for the first time, started Euler on the way to major mathematical work.

Euler''s health problems began in 1735 when he had a severe fever and almost lost his life. However, he kept this news from his parents and members of the Bernoulli family back in Basel until he had recovered. In his autobiographical writings Euler says that his eyesight problems began in 1738 with overstrain due to his cartographic work and that by 1740 he had [24]:-

... lost an eye and [ the other ] currently may be in the same danger.

However, Calinger in [24] argues that Euler''s eyesight problems almost certainly started earlier and that the severe fever of 1735 was a symptom of the eyestrain. He also argues that a portrait of Euler from 1753 suggests that by that stage the sight of his left eye was still good while that of his right eye was poor but not completely blind. Calinger suggests that Euler''s left eye became blind from a later cataract rather than eyestrain.

By 1740 Euler had a very high reputation, having won the Grand Prize of the Paris Academy in 1738 and 1740. On both occasions he shared the first prize with others. Euler''s reputation was to bring an offer to go to Berlin, but at first he preferred to remain in St Petersburg. However political turmoil in Russia made the position of foreigners particularly difficult and contributed to Euler changing his mind. Accepting an improved offer Euler, at the invitation of Frederick the Great, went to Berlin where an Academy of Science was planned to replace the Society of Sciences. He left St Petersburg on 19 June 1741, arriving in Berlin on 25 July. In a letter to a friend Euler wrote:-

I can do just what I wish [ in my research ] ... The king calls me his professor, and I think I am the happiest man in the world.

Even while in Berlin Euler continued to receive part of his salary from Russia. For this remuneration he bought books and instruments for the St Petersburg Academy, he continued to write scientific reports for them, and he educated young Russians.

Maupertuis was the president of the Berlin Academy when it was founded in 1744 with Euler as director of mathematics. He deputised for Maupertuis in his absence and the two became great friends. Euler undertook an unbelievable amount of work for the Academy [1]:-

... he supervised the observatory and the botanical gardens; selected the personnel; oversaw various financial matters; and, in particular, managed the publication of various calendars and geographical maps, the sale of which was a source of income for the Academy. The king also charged Euler with practical problems, such as the project in 1749 of correcting the level of the Finow Canal ... At that time he also supervised the work on pumps and pipes of the hydraulic system at Sans Souci, the royal summer residence.

This was not the limit of his duties by any means. He served on the committee of the Academy dealing with the library and of scientific publications. He served as an advisor to the government on state lotteries, insurance, annuities and pensions and artillery. On top of this his scientific output during this period was phenomenal.

During the twenty-five years spent in Berlin, Euler wrote around 380 articles. He wrote books on the calculus of variations; on the calculation of planetary orbits; on artillery and ballistics (extending the book by Robins); on analysis; on shipbuilding and navigation; on the motion of the moon; lectures on the differential calculus; and a popular scientific publication Letters to a Princess of Germany (3 vols., 1768-72).

In 1759 Maupertuis died and Euler assumed the leadership of the Berlin Academy, although not the title of President. The king was in overall charge and Euler was not now on good terms with Frederick despite the early good favour. Euler, who had argued with d''Alembert on scientific matters, was disturbed when Frederick offered d''Alembert the presidency of the Academy in 1763. However d''Alembert refused to move to Berlin but Frederick''s continued interference with the running of the Academy made Euler decide that the time had come to leave.

In 1766 Euler returned to St Petersburg and Frederick was greatly angered at his departure. Soon after his return to Russia, Euler became almost entirely blind after an illness. In 1771 his home was destroyed by fire and he was able to save only himself and his mathematical manuscripts. A cataract operation shortly after the fire, still in 1771, restored his sight for a few days but Euler seems to have failed to take the necessary care of himself and he became totally blind. Because of his remarkable memory he was able to continue with his work on optics, algebra, and lunar motion. Amazingly after his return to St Petersburg (when Euler was 59) he produced almost half his total works despite the total blindness.

Euler of course did not achieve this remarkable level of output without help. He was helped by his sons, Johann Albrecht Euler who was appointed to the chair of physics at the Academy in St Petersburg in 1766 (becoming its secretary in 1769) and Christoph Euler who had a military career. Euler was also helped by two other members of the Academy, W L Krafft and A J Lexell, and the young mathematician N Fuss who was invited to the Academy from Switzerland in 1772. Fuss, who was Euler''s grandson-in-law, became his assistant in 1776. Yushkevich writes in [1]:-

.. the scientists assisting Euler were not mere secretaries; he discussed the general scheme of the works with them, and they developed his ideas, calculating tables, and sometimes compiled examples.

For example Euler credits Albrecht, Krafft and Lexell for their help with his 775 page work on the motion of the moon, published in 1772. Fuss helped Euler prepare over 250 articles for publication over a period on about seven years in which he acted as Euler''s assistant, including an important work on insurance which was published in 1776.


Yushkevich describes the day of Euler''s death in [1]:-

On 18 September 1783 Euler spent the first half of the day as usual. He gave a mathematics lesson to one of his grandchildren, did some calculations with chalk on two boards on the motion of balloons; then discussed with Lexell and Fuss the recently discovered planet Uranus. About five o''clock in the afternoon he suffered a brain haemorrhage and uttered only "I am dying" before he lost consciousness. He died about eleven o''clock in the evening.

After his death in 1783 the St Petersburg Academy continued to publish Euler''s unpublished work for nearly 50 more years.

Euler''s work in mathematics is so vast that an article of this nature cannot but give a very superficial account of it. He was the most prolific writer of mathematics of all time. He made large bounds forward in the study of modern analytic geometry and trigonometry where he was the first to consider sin, cos etc. as functions rather than as chords as Ptolemy had done.

He made decisive and formative contributions to geometry, calculus and number theory. He integrated Leibniz''s differential calculus and Newton''s method of fluxions into mathematical analysis. He introduced beta and gamma functions, and integrating factors for differential equations. He studied continuum mechanics, lunar theory with Clairaut, the three body problem, elasticity, acoustics, the wave theory of light, hydraulics, and music. He laid the foundation of analytical mechanics, especially in his Theory of the Motions of Rigid Bodies (1765).

We owe to Euler the notation f ( x ) for a function (1734), e for the base of natural logs (1727), i for the square root of -1 (1777), p for pi, for summation (1755), the notation for finite differences y and 2 y and many others.

Let us examine in a little more detail some of Euler''s work. Firstly his work in number theory seems to have been stimulated by Goldbach but probably originally came from the interest that the Bernoullis had in that topic. Goldbach asked Euler, in 1729, if he knew of Fermat''s conjecture that the numbers 2 n + 1 were always prime if n is a power of 2. Euler verified this for n = 1, 2, 4, 8 and 16 and, by 1732 at the latest, showed that the next case 2 32 + 1 = 4294967297 is divisible by 641 and so is not prime. Euler also studied other unproved results of Fermat and in so doing introduced the Euler phi function ( n ), the number of integers k with 1 k n and k coprime to n . He proved another of Fermat''s assertions, namely that if a and b are coprime then a 2 + b 2 has no divisor of the form 4 n - 1, in 1749.

Perhaps the result that brought Euler the most fame in his young days was his solution of what had become known as the Basel problem. This was to find a closed form for the sum of the infinite series (2) = (1/ n 2 ), a problem which had defeated many of the top mathematicians including Jacob Bernoulli, Johann Bernoulli and Daniel Bernoulli. The problem had also been studied unsuccessfully by Leibniz, Stirling, de Moivre and others. Euler showed in 1735 that (2) = p 2 /6 but he went on to prove much more, namely that (4) = p 4 /90, (6) = p 6 /945, (8) = p 8 /9450, (10) = p 10 /93555 and (12) = 691 p 12 /638512875. In 1737 he proved the connection of the zeta function with the series of prime numbers giving the famous relation

( s ) = (1/ n s ) = (1 - p - s ) -1

Here the sum is over all natural numbers n while the product is over all prime numbers.

By 1739 Euler had found the rational coefficients C in (2 n ) = C p 2 n in terms of the Bernoulli numbers.

Other work done by Euler on infinite series included the introduction of his famous Euler''s constant , in 1735, which he showed to be the limit of

1 / 1 + 1 / 2 + 1 / 3 + ... + 1 / n - log e n

as n tends to infinity. He calculated the constant to 16 decimal places. Euler also studied Fourier series and in 1744 he was the first to express an algebraic function by such a series when he gave the result

p /2 - x /2 = sin x + (sin 2 x )/2 + (sin 3 x )/3 + ...

in a letter to Goldbach. Like most of Euler''s work there was a fair time delay before the results were published; this result was not published until 1755.

Euler wrote to James Stirling on 8 June 1736 telling him about his results on summing reciprocals of powers, the harmonic series and Euler''s constant and other results on series. In particular he wrote [60]:-

Concerning the summation of very slowly converging series, in the past year I have lectured to our Academy on a special method of which I have given the sums of very many series sufficiently accurately and with very little effort.

He then goes on to describe what is now called the Euler-Maclaurin summation formula. Two years later Stirling replied telling Euler that Maclaurin:-

... will be publishing a book on fluxions. ... he has two theorems for summing series by means of derivatives of the terms, one of which is the self-same result that you sent me.

Euler replied:-

... I have very little desire for anything to be detracted from the fame of the celebrated Mr Maclaurin since he probably came upon the same theorem for summing series before me, and consequently deserves to be named as its first discoverer. For I found that theorem about four years ago, at which time I also described its proof and application in greater detail to our Academy.

Some of Euler''s number theory results have been mentioned above. Further important results in number theory by Euler included his proof of Fermat''s Last Theorem for the case of n = 3. Perhaps more significant than the result here was the fact that he introduced a proof involving numbers of the form a + b -3 for integers a and b. Although there were problems with his approach this eventually led to Kummer''s major work on Fermats Last Theorem and to the introduction of the concept of a ring.

One could claim that mathematical analysis began with Euler. In 1748 in Introductio in analysin infinitorum Euler made ideas of Johann Bernoulli more precise in defining a function, and he stated that mathematical analysis was the study of functions. This work bases the calculus on the theory of elementary functions rather than on geometric curves, as had been done previously. Also in this work Euler gave the formula

e ix = cos x + i sin x .

In Introductio in analysin infinitorum Euler dealt with logarithms of a variable taking only positive values although he had discovered the formula

ln(-1) = p i

in 1727. He published his full theory of logarithms of complex numbers in 1751.

Analytic functions of a complex variable were investigated by Euler in a number of different contexts, including the study of orthogonal trajectories and cartography. He discovered the Cauchy-Riemann equations in 1777, although d''Alembert had discovered them in 1752 while investigating hydrodynamics.

In 1755 Euler published Institutiones calculi differentialis which begins with a study of the calculus of finite differences. The work makes a thorough investigation of how differentiation behaves under substitutions.

In Institutiones calculi integralis (1768-70) Euler made a thorough investigation of integrals which can be expressed in terms of elementary functions. He also studied beta and gamma functions, which he had introduced first in 1729. Legendre called these ''Eulerian integrals of the first and second kind'' respectively while they were given the names beta function and gamma function by Binet and Gauss respectively. As well as investigating double integrals, Euler considered ordinary and partial differential equations in this work.

The calculus of variations is another area in which Euler made fundamental discoveries. His work Methodus inveniendi lineas curvas ... published in 1740 began the proper study of the calculus of variations. In [12] it is noted that Carath?odory considered this as:-

... one of the most beautiful mathematical works ever written.

Problems in mathematical physics had led Euler to a wide study of differential equations. He considered linear equations with constant coefficients, second order differential equations with variable coefficients, power series solutions of differential equations, a method of variation of constants, integrating factors, a method of approximating solutions, and many others. When considering vibrating membranes, Euler was led to the Bessel equation which he solved by introducing Bessel functions.

Euler made substantial contributions to differential geometry, investigating the theory of surfaces and curvature of surfaces. Many unpublished results by Euler in this area were rediscovered by Gauss. Other geometric investigations led him to fundamental ideas in topology such as the Euler characteristic of a polyhedron.

In 1736 Euler published Mechanica which provided a major advance in mechanics. As Yushkevich writes in [1]:-

The distinguishing feature of Euler''s investigations in mechanics as compared to those of his predecessors is the systematic and successful application of analysis. Previously the methods of mechanics had been mostly synthetic and geometrical; they demanded too individual an approach to separate problems. Euler was the first to appreciate the importance of introducing uniform analytic methods into mechanics, thus enabling its problems to be solved in a clear and direct way.

In Mechanica Euler considered the motion of a point mass both in a vacuum and in a resisting medium. He analysed the motion of a point mass under a central force and also considered the motion of a point mass on a surface. In this latter topic he had to solve various problems of differential geometry and geodesics.

Mechanica was followed by another important work in rational mechanics, this time Euler''s two volume work on naval science. It is described in [24] as:-

Outstanding in both theoretical and applied mechanics, it addresses Euler''s intense occupation with the problem of ship propulsion. It applies variational principles to determine the optimal ship design and first established the principles of hydrostatics ... Euler here also begins developing the kinematics and dynamics of rigid bodies, introducing in part the differential equations for their motion.

Of course hydrostatics had been studied since Archimedes, but Euler gave a definitive version.

In 1765 Euler published another major work on mechanics Theoria motus corporum solidorum in which he decomposed the motion of a solid into a rectilinear motion and a rotational motion. He considered the Euler angles and studied rotational problems which were motivated by the problem of the precession of the equinoxes.

Euler''s work on fluid mechanics is also quite remarkable. He published a number of major pieces of work through the 1750s setting up the main formulae for the topic, the continuity equation, the Laplace velocity potential equation, and the Euler equations for the motion of an inviscid incompressible fluid. In 1752 he wrote:-

However sublime are the researches on fluids which we owe to Messrs Bernoulli, Clairaut and d''Alembert, they flow so naturally from my two general formulae that one cannot sufficiently admire this accord of their profound meditations with the simplicity of the principles from which I have drawn my two equations ...

Euler contributed to knowledge in many other areas, and in all of them he employed his mathematical knowledge and skill. He did important work in astronomy including [1]:-

... determination of the orbits of comets and planets by a few observations, methods of calculation of the parallax of the sun, the theory of refraction, consideration of the physical nature of comets, .... His most outstanding works, for which he won many prizes from the Paris Acad?mie des Sciences, are concerned with celestial mechanics, which especially attracted scientists at that time.

In fact Euler''s lunar theory was used by Tobias Mayer in constructing his tables of the moon. In 1765 Mayer''s widow received 3000 from Britain for the contribution the tables made to the problem of the determination of the longitude, while Euler received 300 from the British government for his theoretical contribution to the work.

Euler also published on the theory of music, in particular he published Tentamen novae theoriae musicae in 1739 in which he tried to make music:-

... part of mathematics and deduce in an orderly manner, from correct principles, everything which can make a fitting together and mingling of tones pleasing.

However, according to [8] the work was:-

... for musicians too advanced in its mathematics and for mathematicians too musical.

Cartography was another area that Euler became involved in when he was appointed director of the St Petersburg Academy''s geography section in 1735. He had the specific task of helping Delisle prepare a map of the whole of the Russian Empire. The Russian Atlas was the result of this collaboration and it appeared in 1745, consisting of 20 maps. Euler, in Berlin by the time of its publication, proudly remarked that this work put the Russians well ahead of the Germans in the art of cartography.

Article by: J J O''Connor and E F Robertson

September 1998
MacTutor History of Mathematics
[http://www-history.mcs.st-andrews.ac.uk/Mathematicians/Euler.html]').

'Euler.html.xml'(i,'.. the scientists assisting Euler were not mere secretaries; he discussed the general scheme of the works with them, and they developed his ideas, calculating tables, and sometimes compiled examples.').

'Euler.html.xml'(i,'... I have very little desire for anything to be detracted from the fame of the celebrated Mr Maclaurin since he probably came upon the same theorem for summing series before me, and consequently deserves to be named as its first discoverer. For I found that theorem about four years ago, at which time I also described its proof and application in greater detail to our Academy.').

'Euler.html.xml'(i,'... I soon found an opportunity to be introduced to a famous professor Johann Bernoulli. ... True, he was very busy and so refused flatly to give me private lessons; but he gave me much more valuable advice to start reading more difficult mathematical books on my own and to study them as diligently as I could; if I came across some obstacle or difficulty, I was given permission to visit him freely every Sunday afternoon and he kindly explained to me everything I could not understand ...').

'Euler.html.xml'(i,'... The king calls me his professor, and I think I am the happiest man in the world.').

'Euler.html.xml'(i,'... after').

'Euler.html.xml'(i,'... determination of the orbits of comets and planets by a few observations, methods of calculation of the parallax of the sun, the theory of refraction, consideration of the physical nature of comets, .... His most outstanding works, for which he won many prizes from the Paris Acad?mie des Sciences, are concerned with celestial mechanics, which especially attracted scientists at that time.').

'Euler.html.xml'(i,'... for musicians too advanced in its mathematics and for mathematicians too musical.').

'Euler.html.xml'(i,'... he supervised the observatory and the botanical gardens; selected the personnel; oversaw various financial matters; and, in particular, managed the publication of various calendars and geographical maps, the sale of which was a source of income for the Academy. The king also charged Euler with practical problems, such as the project in').

'Euler.html.xml'(i,'... lost an eye and').

'Euler.html.xml'(i,'... one of the most beautiful mathematical works ever written.').

'Euler.html.xml'(i,'... part of mathematics and deduce in an orderly manner, from correct principles, everything which can make a fitting together and mingling of tones pleasing.').

'Euler.html.xml'(i,'... will be publishing a book on fluxions. ... he has two theorems for summing series by means of derivatives of the terms, one of which is the self-same result that you sent me.').

'Euler.html.xml'(i,'C').

'Euler.html.xml'(i,'Concerning the summation of very slowly converging series, in the past year I have lectured to our Academy on a special method of which I have given the sums of very many series sufficiently accurately and with very little effort.').

'Euler.html.xml'(i,'E F Robertson').

'Euler.html.xml'(i,'Euler spent the first half of the day as usual. He gave a mathematics lesson to one of his grandchildren, did some calculations with chalk on two boards on the motion of balloons; then discussed with Lexell and Fuss the recently discovered planet Uranus. About five o''clock in the afternoon he suffered a brain haemorrhage and uttered only "I am dying" before he lost consciousness. He died about eleven o''clock in the evening.').

'Euler.html.xml'(i,'However sublime are the researches on fluids which we owe to Messrs Bernoulli, Clairaut and d''Alembert, they flow so naturally from my two general formulae that one cannot sufficiently admire this accord of their profound meditations with the simplicity of the principles from which I have drawn my two equations ...').

'Euler.html.xml'(i,'I can do just what I wish').

'Euler.html.xml'(i,'Institutiones calculi differentialis').

'Euler.html.xml'(i,'Institutiones calculi integralis').

'Euler.html.xml'(i,'Introductio in analysin infinitorum').

'Euler.html.xml'(i,'J J O''Connor').

'Euler.html.xml'(i,'Letters to a Princess of Germany').

'Euler.html.xml'(i,'Mechanica').

'Euler.html.xml'(i,'Methodus inveniendi lineas curvas ...').

'Euler.html.xml'(i,'Nowhere else could he have been surrounded by such a group of eminent scientists, including the analyst, geometer Jakob Hermann, a relative; Daniel Bernoulli, with whom Euler was connected not only by personal friendship but also by common interests in the field of applied mathematics; the versatile scholar Christian Goldbach, with whom Euler discussed numerous problems of analysis and the theory of numbers; F Maier, working in trigonometry; and the astronomer and geographer J-N Delisle.').

'Euler.html.xml'(i,'On').

'Euler.html.xml'(i,'Outstanding in both theoretical and applied mechanics, it addresses Euler''s intense occupation with the problem of ship propulsion. It applies variational principles to determine the optimal ship design and first established the principles of hydrostatics ... Euler here also begins developing the kinematics and dynamics of rigid bodies, introducing in part the differential equations for their motion.').

'Euler.html.xml'(i,'Russian Atlas').

'Euler.html.xml'(i,'September').

'Euler.html.xml'(i,'Tentamen novae theoriae musicae').

'Euler.html.xml'(i,'The distinguishing feature of Euler''s investigations in mechanics as compared to those of his predecessors is the systematic and successful application of analysis. Previously the methods of mechanics had been mostly synthetic and geometrical; they demanded too individual an approach to separate problems. Euler was the first to appreciate the importance of introducing uniform analytic methods into mechanics, thus enabling its problems to be solved in a clear and direct way.').

'Euler.html.xml'(i,'Theoria motus corporum solidorum').

'Euler.html.xml'(i,'Theory of the Motions of Rigid Bodies').

'Euler.html.xml'(i,'This decision ultimately benefited Euler, because it forced him to move from a small republic into a setting more adequate for his brilliant research and technological work.').

'Euler.html.xml'(i,a).

'Euler.html.xml'(i,b).

'Euler.html.xml'(i,'currently may be in the same danger.').

'Euler.html.xml'(i,e).

'Euler.html.xml'(i,f).

'Euler.html.xml'(i,'he carried out state projects dealing with cartography, science education, magnetism, fire engines, machines, and ship building. ... The core of his research program was now set in place: number theory; infinitary analysis including its emerging branches, differential equations and the calculus of variations; and rational mechanics. He viewed these three fields as intimately interconnected. Studies of number theory were vital to the foundations of calculus, and special functions and differential equations were essential to rational mechanics, which supplied concrete problems.').

'Euler.html.xml'(i,i).

'Euler.html.xml'(i,'in my research').

'Euler.html.xml'(i,ix).

'Euler.html.xml'(i,k).

'Euler.html.xml'(i,n).

'Euler.html.xml'(i,'of correcting the level of the Finow Canal ... At that time he also supervised the work on pumps and pipes of the hydraulic system at Sans Souci, the royal summer residence.').

'Euler.html.xml'(i,p).

'Euler.html.xml'(i,s).

'Euler.html.xml'(i,'the other').

'Euler.html.xml'(i,x).

'Euler.html.xml'(i,y).

'Euler.html.xml'(img,[]).

'Euler.html.xml'(p,'
Yushkevich describes the day of Euler''s death in [1]:-').

'Euler.html.xml'(p,'( s ) = (1/ n s ) = (1 - p - s ) -1').

'Euler.html.xml'(p,'.. the scientists assisting Euler were not mere secretaries; he discussed the general scheme of the works with them, and they developed his ideas, calculating tables, and sometimes compiled examples.').

'Euler.html.xml'(p,'... I have very little desire for anything to be detracted from the fame of the celebrated Mr Maclaurin since he probably came upon the same theorem for summing series before me, and consequently deserves to be named as its first discoverer. For I found that theorem about four years ago, at which time I also described its proof and application in greater detail to our Academy.').

'Euler.html.xml'(p,'... I soon found an opportunity to be introduced to a famous professor Johann Bernoulli. ... True, he was very busy and so refused flatly to give me private lessons; but he gave me much more valuable advice to start reading more difficult mathematical books on my own and to study them as diligently as I could; if I came across some obstacle or difficulty, I was given permission to visit him freely every Sunday afternoon and he kindly explained to me everything I could not understand ...').

'Euler.html.xml'(p,'... after 1730 he carried out state projects dealing with cartography, science education, magnetism, fire engines, machines, and ship building. ... The core of his research program was now set in place: number theory; infinitary analysis including its emerging branches, differential equations and the calculus of variations; and rational mechanics. He viewed these three fields as intimately interconnected. Studies of number theory were vital to the foundations of calculus, and special functions and differential equations were essential to rational mechanics, which supplied concrete problems.').

'Euler.html.xml'(p,'... determination of the orbits of comets and planets by a few observations, methods of calculation of the parallax of the sun, the theory of refraction, consideration of the physical nature of comets, .... His most outstanding works, for which he won many prizes from the Paris Acad?mie des Sciences, are concerned with celestial mechanics, which especially attracted scientists at that time.').

'Euler.html.xml'(p,'... for musicians too advanced in its mathematics and for mathematicians too musical.').

'Euler.html.xml'(p,'... he supervised the observatory and the botanical gardens; selected the personnel; oversaw various financial matters; and, in particular, managed the publication of various calendars and geographical maps, the sale of which was a source of income for the Academy. The king also charged Euler with practical problems, such as the project in 1749 of correcting the level of the Finow Canal ... At that time he also supervised the work on pumps and pipes of the hydraulic system at Sans Souci, the royal summer residence.').

'Euler.html.xml'(p,'... lost an eye and [ the other ] currently may be in the same danger.').

'Euler.html.xml'(p,'... one of the most beautiful mathematical works ever written.').

'Euler.html.xml'(p,'... part of mathematics and deduce in an orderly manner, from correct principles, everything which can make a fitting together and mingling of tones pleasing.').

'Euler.html.xml'(p,'... will be publishing a book on fluxions. ... he has two theorems for summing series by means of derivatives of the terms, one of which is the self-same result that you sent me.').

'Euler.html.xml'(p,'1 / 1 + 1 / 2 + 1 / 3 + ... + 1 / n - log e n').

'Euler.html.xml'(p,'After his death in 1783 the St Petersburg Academy continued to publish Euler''s unpublished work for nearly 50 more years.').

'Euler.html.xml'(p,'Analytic functions of a complex variable were investigated by Euler in a number of different contexts, including the study of orthogonal trajectories and cartography. He discovered the Cauchy-Riemann equations in 1777, although d''Alembert had discovered them in 1752 while investigating hydrodynamics.').

'Euler.html.xml'(p,'Article by: J J O''Connor and E F Robertson').

'Euler.html.xml'(p,'As soon as he knew he would not be appointed to the chair of physics, Euler left Basel on 5 April 1727. He travelled down the Rhine by boat, crossed the German states by post wagon, then by boat from L?beck arriving in St Petersburg on 17 May 1727. He had joined the St Petersburg Academy of Sciences two years after it had been founded by Catherine I the wife of Peter the Great. Through the requests of Daniel Bernoulli and Jakob Hermann, Euler was appointed to the mathematical-physical division of the Academy rather than to the physiology post he had originally been offered. At St Petersburg Euler had many colleagues who would provide an exceptional environment for him [1]:-').

'Euler.html.xml'(p,'By 1739 Euler had found the rational coefficients C in (2 n ) = C p 2 n in terms of the Bernoulli numbers.').

'Euler.html.xml'(p,'By 1740 Euler had a very high reputation, having won the Grand Prize of the Paris Academy in 1738 and 1740. On both occasions he shared the first prize with others. Euler''s reputation was to bring an offer to go to Berlin, but at first he preferred to remain in St Petersburg. However political turmoil in Russia made the position of foreigners particularly difficult and contributed to Euler changing his mind. Accepting an improved offer Euler, at the invitation of Frederick the Great, went to Berlin where an Academy of Science was planned to replace the Society of Sciences. He left St Petersburg on 19 June 1741, arriving in Berlin on 25 July. In a letter to a friend Euler wrote:-').

'Euler.html.xml'(p,'Cartography was another area that Euler became involved in when he was appointed director of the St Petersburg Academy''s geography section in 1735. He had the specific task of helping Delisle prepare a map of the whole of the Russian Empire. The Russian Atlas was the result of this collaboration and it appeared in 1745, consisting of 20 maps. Euler, in Berlin by the time of its publication, proudly remarked that this work put the Russians well ahead of the Germans in the art of cartography.
').

'Euler.html.xml'(p,'Concerning the summation of very slowly converging series, in the past year I have lectured to our Academy on a special method of which I have given the sums of very many series sufficiently accurately and with very little effort.').

'Euler.html.xml'(p,'Daniel Bernoulli held the senior chair in mathematics at the Academy but when he left St Petersburg to return to Basel in 1733 it was Euler who was appointed to this senior chair of mathematics. The financial improvement which came from this appointment allowed Euler to marry which he did on 7 January 1734, marrying Katharina Gsell, the daughter of a painter from the St Petersburg Gymnasium. Katharina, like Euler, was from a Swiss family. They had 13 children altogether although only five survived their infancy. Euler claimed that he made some of his greatest mathematical discoveries while holding a baby in his arms with other children playing round his feet.').

'Euler.html.xml'(p,'During the twenty-five years spent in Berlin, Euler wrote around 380 articles. He wrote books on the calculus of variations; on the calculation of planetary orbits; on artillery and ballistics (extending the book by Robins); on analysis; on shipbuilding and navigation; on the motion of the moon; lectures on the differential calculus; and a popular scientific publication Letters to a Princess of Germany (3 vols., 1768-72).').

'Euler.html.xml'(p,'Euler also published on the theory of music, in particular he published Tentamen novae theoriae musicae in 1739 in which he tried to make music:-').

'Euler.html.xml'(p,'Euler completed his studies at the University of Basel in 1726. He had studied many mathematical works during his time in Basel, and Calinger [24] has reconstructed many of the works that Euler read with the advice of Johann Bernoulli. They include works by Varignon, Descartes, Newton, Galileo, van Schooten, Jacob Bernoulli, Hermann, Taylor and Wallis. By 1726 Euler had already a paper in print, a short article on isochronous curves in a resisting medium. In 1727 he published another article on reciprocal trajectories and submitted an entry for the 1727 Grand Prize of the Paris Academy on the best arrangement of masts on a ship.').

'Euler.html.xml'(p,'Euler contributed to knowledge in many other areas, and in all of them he employed his mathematical knowledge and skill. He did important work in astronomy including [1]:-').

'Euler.html.xml'(p,'Euler made substantial contributions to differential geometry, investigating the theory of surfaces and curvature of surfaces. Many unpublished results by Euler in this area were rediscovered by Gauss. Other geometric investigations led him to fundamental ideas in topology such as the Euler characteristic of a polyhedron.').

'Euler.html.xml'(p,'Euler of course did not achieve this remarkable level of output without help. He was helped by his sons, Johann Albrecht Euler who was appointed to the chair of physics at the Academy in St Petersburg in 1766 (becoming its secretary in 1769) and Christoph Euler who had a military career. Euler was also helped by two other members of the Academy, W L Krafft and A J Lexell, and the young mathematician N Fuss who was invited to the Academy from Switzerland in 1772. Fuss, who was Euler''s grandson-in-law, became his assistant in 1776. Yushkevich writes in [1]:-').

'Euler.html.xml'(p,'Euler replied:-').

'Euler.html.xml'(p,'Euler served as a medical lieutenant in the Russian navy from 1727 to 1730. In St Petersburg he lived with Daniel Bernoulli who, already unhappy in Russia, had requested that Euler bring him tea, coffee, brandy and other delicacies from Switzerland. Euler became professor of physics at the Academy in 1730 and, since this allowed him to become a full member of the Academy, he was able to give up his Russian navy post.').

'Euler.html.xml'(p,'Euler wrote to James Stirling on 8 June 1736 telling him about his results on summing reciprocals of powers, the harmonic series and Euler''s constant and other results on series. In particular he wrote [60]:-').

'Euler.html.xml'(p,'Euler''s health problems began in 1735 when he had a severe fever and almost lost his life. However, he kept this news from his parents and members of the Bernoulli family back in Basel until he had recovered. In his autobiographical writings Euler says that his eyesight problems began in 1738 with overstrain due to his cartographic work and that by 1740 he had [24]:-').

'Euler.html.xml'(p,'Euler''s work in mathematics is so vast that an article of this nature cannot but give a very superficial account of it. He was the most prolific writer of mathematics of all time. He made large bounds forward in the study of modern analytic geometry and trigonometry where he was the first to consider sin, cos etc. as functions rather than as chords as Ptolemy had done.').

'Euler.html.xml'(p,'Euler''s work on fluid mechanics is also quite remarkable. He published a number of major pieces of work through the 1750s setting up the main formulae for the topic, the continuity equation, the Laplace velocity potential equation, and the Euler equations for the motion of an inviscid incompressible fluid. In 1752 he wrote:-').

'Euler.html.xml'(p,'Even while in Berlin Euler continued to receive part of his salary from Russia. For this remuneration he bought books and instruments for the St Petersburg Academy, he continued to write scientific reports for them, and he educated young Russians.').

'Euler.html.xml'(p,'For example Euler credits Albrecht, Krafft and Lexell for their help with his 775 page work on the motion of the moon, published in 1772. Fuss helped Euler prepare over 250 articles for publication over a period on about seven years in which he acted as Euler''s assistant, including an important work on insurance which was published in 1776.').

'Euler.html.xml'(p,'He made decisive and formative contributions to geometry, calculus and number theory. He integrated Leibniz''s differential calculus and Newton''s method of fluxions into mathematical analysis. He introduced beta and gamma functions, and integrating factors for differential equations. He studied continuum mechanics, lunar theory with Clairaut, the three body problem, elasticity, acoustics, the wave theory of light, hydraulics, and music. He laid the foundation of analytical mechanics, especially in his Theory of the Motions of Rigid Bodies (1765).').

'Euler.html.xml'(p,'He then goes on to describe what is now called the Euler-Maclaurin summation formula. Two years later Stirling replied telling Euler that Maclaurin:-').

'Euler.html.xml'(p,'Here the sum is over all natural numbers n while the product is over all prime numbers.').

'Euler.html.xml'(p,'However sublime are the researches on fluids which we owe to Messrs Bernoulli, Clairaut and d''Alembert, they flow so naturally from my two general formulae that one cannot sufficiently admire this accord of their profound meditations with the simplicity of the principles from which I have drawn my two equations ...').

'Euler.html.xml'(p,'However, Calinger in [24] argues that Euler''s eyesight problems almost certainly started earlier and that the severe fever of 1735 was a symptom of the eyestrain. He also argues that a portrait of Euler from 1753 suggests that by that stage the sight of his left eye was still good while that of his right eye was poor but not completely blind. Calinger suggests that Euler''s left eye became blind from a later cataract rather than eyestrain.').

'Euler.html.xml'(p,'However, according to [8] the work was:-').

'Euler.html.xml'(p,'I can do just what I wish [ in my research ] ... The king calls me his professor, and I think I am the happiest man in the world.').

'Euler.html.xml'(p,'In 1723 Euler completed his Master''s degree in philosophy having compared and contrasted the philosophical ideas of Descartes and Newton. He began his study of theology in the autumn of 1723, following his father''s wishes, but, although he was to be a devout Christian all his life, he could not find the enthusiasm for the study of theology, Greek and Hebrew that he found in mathematics. Euler obtained his father''s consent to change to mathematics after Johann Bernoulli had used his persuasion. The fact that Euler''s father had been a friend of Johann Bernoulli''s in their undergraduate days undoubtedly made the task of persuasion much easier.').

'Euler.html.xml'(p,'In 1736 Euler published Mechanica which provided a major advance in mechanics. As Yushkevich writes in [1]:-').

'Euler.html.xml'(p,'In 1755 Euler published Institutiones calculi differentialis which begins with a study of the calculus of finite differences. The work makes a thorough investigation of how differentiation behaves under substitutions.').

'Euler.html.xml'(p,'In 1759 Maupertuis died and Euler assumed the leadership of the Berlin Academy, although not the title of President. The king was in overall charge and Euler was not now on good terms with Frederick despite the early good favour. Euler, who had argued with d''Alembert on scientific matters, was disturbed when Frederick offered d''Alembert the presidency of the Academy in 1763. However d''Alembert refused to move to Berlin but Frederick''s continued interference with the running of the Academy made Euler decide that the time had come to leave.').

'Euler.html.xml'(p,'In 1765 Euler published another major work on mechanics Theoria motus corporum solidorum in which he decomposed the motion of a solid into a rectilinear motion and a rotational motion. He considered the Euler angles and studied rotational problems which were motivated by the problem of the precession of the equinoxes.').

'Euler.html.xml'(p,'In 1766 Euler returned to St Petersburg and Frederick was greatly angered at his departure. Soon after his return to Russia, Euler became almost entirely blind after an illness. In 1771 his home was destroyed by fire and he was able to save only himself and his mathematical manuscripts. A cataract operation shortly after the fire, still in 1771, restored his sight for a few days but Euler seems to have failed to take the necessary care of himself and he became totally blind. Because of his remarkable memory he was able to continue with his work on optics, algebra, and lunar motion. Amazingly after his return to St Petersburg (when Euler was 59) he produced almost half his total works despite the total blindness.').

'Euler.html.xml'(p,'In Institutiones calculi integralis (1768-70) Euler made a thorough investigation of integrals which can be expressed in terms of elementary functions. He also studied beta and gamma functions, which he had introduced first in 1729. Legendre called these ''Eulerian integrals of the first and second kind'' respectively while they were given the names beta function and gamma function by Binet and Gauss respectively. As well as investigating double integrals, Euler considered ordinary and partial differential equations in this work.').

'Euler.html.xml'(p,'In Introductio in analysin infinitorum Euler dealt with logarithms of a variable taking only positive values although he had discovered the formula').

'Euler.html.xml'(p,'In Mechanica Euler considered the motion of a point mass both in a vacuum and in a resisting medium. He analysed the motion of a point mass under a central force and also considered the motion of a point mass on a surface. In this latter topic he had to solve various problems of differential geometry and geodesics.').

'Euler.html.xml'(p,'In fact Euler''s lunar theory was used by Tobias Mayer in constructing his tables of the moon. In 1765 Mayer''s widow received 3000 from Britain for the contribution the tables made to the problem of the determination of the longitude, while Euler received 300 from the British government for his theoretical contribution to the work.').

'Euler.html.xml'(p,'Leonhard Euler ''s father was Paul Euler. Paul Euler had studied theology at the University of Basel and had attended Jacob Bernoulli''s lectures there. In fact Paul Euler and Johann Bernoulli had both lived in Jacob Bernoulli''s house while undergraduates at Basel. Paul Euler became a Protestant minister and married Margaret Brucker, the daughter of another Protestant minister. Their son Leonhard Euler was born in Basel, but the family moved to Riehen when he was one year old and it was in Riehen, not far from Basel, that Leonard was brought up. Paul Euler had, as we have mentioned, some mathematical training and he was able to teach his son elementary mathematics along with other subjects.').

'Euler.html.xml'(p,'Leonhard was sent to school in Basel and during this time he lived with his grandmother on his mother''s side. This school was a rather poor one, by all accounts, and Euler learnt no mathematics at all from the school. However his interest in mathematics had certainly been sparked by his father''s teaching, and he read mathematics texts on his own and took some private lessons. Euler''s father wanted his son to follow him into the church and sent him to the University of Basel to prepare for the ministry. He entered the University in 1720, at the age of 14, first to obtain a general education before going on to more advanced studies. Johann Bernoulli soon discovered Euler''s great potential for mathematics in private tuition that Euler himself engineered. Euler''s own account given in his unpublished autobiographical writings, see [1], is as follows:-').

'Euler.html.xml'(p,'Let us examine in a little more detail some of Euler''s work. Firstly his work in number theory seems to have been stimulated by Goldbach but probably originally came from the interest that the Bernoullis had in that topic. Goldbach asked Euler, in 1729, if he knew of Fermat''s conjecture that the numbers 2 n + 1 were always prime if n is a power of 2. Euler verified this for n = 1, 2, 4, 8 and 16 and, by 1732 at the latest, showed that the next case 2 32 + 1 = 4294967297 is divisible by 641 and so is not prime. Euler also studied other unproved results of Fermat and in so doing introduced the Euler phi function ( n ), the number of integers k with 1 k n and k coprime to n . He proved another of Fermat''s assertions, namely that if a and b are coprime then a 2 + b 2 has no divisor of the form 4 n - 1, in 1749.').

'Euler.html.xml'(p,'Maupertuis was the president of the Berlin Academy when it was founded in 1744 with Euler as director of mathematics. He deputised for Maupertuis in his absence and the two became great friends. Euler undertook an unbelievable amount of work for the Academy [1]:-').

'Euler.html.xml'(p,'Mechanica was followed by another important work in rational mechanics, this time Euler''s two volume work on naval science. It is described in [24] as:-').

'Euler.html.xml'(p,'Nowhere else could he have been surrounded by such a group of eminent scientists, including the analyst, geometer Jakob Hermann, a relative; Daniel Bernoulli, with whom Euler was connected not only by personal friendship but also by common interests in the field of applied mathematics; the versatile scholar Christian Goldbach, with whom Euler discussed numerous problems of analysis and the theory of numbers; F Maier, working in trigonometry; and the astronomer and geographer J-N Delisle.').

'Euler.html.xml'(p,'Of course hydrostatics had been studied since Archimedes, but Euler gave a definitive version.').

'Euler.html.xml'(p,'On 18 September 1783 Euler spent the first half of the day as usual. He gave a mathematics lesson to one of his grandchildren, did some calculations with chalk on two boards on the motion of balloons; then discussed with Lexell and Fuss the recently discovered planet Uranus. About five o''clock in the afternoon he suffered a brain haemorrhage and uttered only "I am dying" before he lost consciousness. He died about eleven o''clock in the evening.').

'Euler.html.xml'(p,'One could claim that mathematical analysis began with Euler. In 1748 in Introductio in analysin infinitorum Euler made ideas of Johann Bernoulli more precise in defining a function, and he stated that mathematical analysis was the study of functions. This work bases the calculus on the theory of elementary functions rather than on geometric curves, as had been done previously. Also in this work Euler gave the formula').

'Euler.html.xml'(p,'Other work done by Euler on infinite series included the introduction of his famous Euler''s constant , in 1735, which he showed to be the limit of').

'Euler.html.xml'(p,'Outstanding in both theoretical and applied mechanics, it addresses Euler''s intense occupation with the problem of ship propulsion. It applies variational principles to determine the optimal ship design and first established the principles of hydrostatics ... Euler here also begins developing the kinematics and dynamics of rigid bodies, introducing in part the differential equations for their motion.').

'Euler.html.xml'(p,'Perhaps the result that brought Euler the most fame in his young days was his solution of what had become known as the Basel problem. This was to find a closed form for the sum of the infinite series (2) = (1/ n 2 ), a problem which had defeated many of the top mathematicians including Jacob Bernoulli, Johann Bernoulli and Daniel Bernoulli. The problem had also been studied unsuccessfully by Leibniz, Stirling, de Moivre and others. Euler showed in 1735 that (2) = p 2 /6 but he went on to prove much more, namely that (4) = p 4 /90, (6) = p 6 /945, (8) = p 8 /9450, (10) = p 10 /93555 and (12) = 691 p 12 /638512875. In 1737 he proved the connection of the zeta function with the series of prime numbers giving the famous relation').

'Euler.html.xml'(p,'Problems in mathematical physics had led Euler to a wide study of differential equations. He considered linear equations with constant coefficients, second order differential equations with variable coefficients, power series solutions of differential equations, a method of variation of constants, integrating factors, a method of approximating solutions, and many others. When considering vibrating membranes, Euler was led to the Bessel equation which he solved by introducing Bessel functions.').

'Euler.html.xml'(p,'September 1998').

'Euler.html.xml'(p,'Some of Euler''s number theory results have been mentioned above. Further important results in number theory by Euler included his proof of Fermat''s Last Theorem for the case of n = 3. Perhaps more significant than the result here was the fact that he introduced a proof involving numbers of the form a + b -3 for integers a and b. Although there were problems with his approach this eventually led to Kummer''s major work on Fermats Last Theorem and to the introduction of the concept of a ring.').

'Euler.html.xml'(p,'The Prize of 1727 went to Bouguer, an expert on mathematics relating to ships, but Euler''s essay won him second place which was a fine achievement for the young graduate. However, Euler now had to find himself an academic appointment and when Nicolaus(II) Bernoulli died in St Petersburg in July 1726 creating a vacancy there, Euler was offered the post which would involve him in teaching applications of mathematics and mechanics to physiology. He accepted the post in November 1726 but stated that he did not want to travel to Russia until the spring of the following year. He had two reasons to delay. He wanted time to study the topics relating to his new post but also he had a chance of a post at the University of Basel since the professor of physics there had died. Euler wrote an article on acoustics, which went on to become a classic, in his bid for selection to the post but he was not chosen to go forward to the stage where lots were drawn to make the final decision on who would fill the chair. Almost certainly his youth (he was 19 at the time) was against him. However Calinger [24] suggests:-').

'Euler.html.xml'(p,'The calculus of variations is another area in which Euler made fundamental discoveries. His work Methodus inveniendi lineas curvas ... published in 1740 began the proper study of the calculus of variations. In [12] it is noted that Carath?odory considered this as:-').

'Euler.html.xml'(p,'The distinguishing feature of Euler''s investigations in mechanics as compared to those of his predecessors is the systematic and successful application of analysis. Previously the methods of mechanics had been mostly synthetic and geometrical; they demanded too individual an approach to separate problems. Euler was the first to appreciate the importance of introducing uniform analytic methods into mechanics, thus enabling its problems to be solved in a clear and direct way.').

'Euler.html.xml'(p,'The publication of many articles and his book Mechanica (1736-37), which extensively presented Newtonian dynamics in the form of mathematical analysis for the first time, started Euler on the way to major mathematical work.').

'Euler.html.xml'(p,'This decision ultimately benefited Euler, because it forced him to move from a small republic into a setting more adequate for his brilliant research and technological work.').

'Euler.html.xml'(p,'This was not the limit of his duties by any means. He served on the committee of the Academy dealing with the library and of scientific publications. He served as an advisor to the government on state lotteries, insurance, annuities and pensions and artillery. On top of this his scientific output during this period was phenomenal.').

'Euler.html.xml'(p,'We owe to Euler the notation f ( x ) for a function (1734), e for the base of natural logs (1727), i for the square root of -1 (1777), p for pi, for summation (1755), the notation for finite differences y and 2 y and many others.').

'Euler.html.xml'(p,'We will examine Euler''s mathematical achievements later in this article but at this stage it is worth summarising Euler''s work in this period of his career. This is done in [24] as follows:-').

'Euler.html.xml'(p,'as n tends to infinity. He calculated the constant to 16 decimal places. Euler also studied Fourier series and in 1744 he was the first to express an algebraic function by such a series when he gave the result').

'Euler.html.xml'(p,'e ix = cos x + i sin x .').

'Euler.html.xml'(p,'in 1727. He published his full theory of logarithms of complex numbers in 1751.').

'Euler.html.xml'(p,'in a letter to Goldbach. Like most of Euler''s work there was a fair time delay before the results were published; this result was not published until 1755.').

'Euler.html.xml'(p,'ln(-1) = p i').

'Euler.html.xml'(p,'p /2 - x /2 = sin x + (sin 2 x )/2 + (sin 3 x )/3 + ...').

'Euler.html.xml'(sub,'1').

'Euler.html.xml'(sub,'2').

'Euler.html.xml'(sub,'3').

'Euler.html.xml'(sub,e).

'Euler.html.xml'(sub,n).

'Euler.html.xml'(sup,'- s').

'Euler.html.xml'(sup,'-1').

'Euler.html.xml'(sup,'1').

'Euler.html.xml'(sup,'10').

'Euler.html.xml'(sup,'12').

'Euler.html.xml'(sup,'2').

'Euler.html.xml'(sup,'2 n').

'Euler.html.xml'(sup,'32').

'Euler.html.xml'(sup,'4').

'Euler.html.xml'(sup,'6').

'Euler.html.xml'(sup,'8').

'Euler.html.xml'(sup,ix).

'Euler.html.xml'(sup,n).

'Euler.html.xml'(sup,s).

'Euler.html.xml'(title,'Euler').