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André-Marie Ampère
Biografía
- J J O'Connor and E F Robertson - André-Marie
Ampère's father, Jean-Jacques Ampère, was a prosperous man who
owned a home in Lyon and a country house in Poleymieux, which is
only 10 km from Lyon. Up till André-Marie was seven years old
the family spent most of the year in Lyon except the summer
months which were spent at Poleymieux. However, in 1782, the
home at Poleymieux became their main residence since André-Marie's
father wished to spend more time on his son's education. Only a
short time in winter was spent at Lyon where André-Marie's
father saw to his business interests.
Despite not attending school, André-Marie was to be given an
excellent education. He describes this education in
autobiographical writings (rather strangely referring to himself
in the third person):-
His father, who had never ceased to cultivate Latin and French
literature, as well as several branches of science, raised him
himself in the country near the city where he was born. He never
required him to study anything, but he knew how to inspire in
him a desire to know. Before being able to read, the young
Ampère's greatest pleasure was to listen to passages from
Buffon's natural history.
Ampère read articles from L'Encyclopédie many of which, Arago
remarked many years later, he could recite in full in later life.
Arago also claims that Ampère read the Encyclopédie starting at
volume 1 and reading the articles in alphabetical order. Whether
Ampère's later desire for classification in all subjects arose
from this education, or whether he enjoyed Buffon and the
Encyclopédie because of a natural liking for classifying, is
hard to say.
It has been claimed that Ampère had mastered all known
mathematics by the age of twelve years but this seems somewhat
of an exaggeration since, by Ampère's own account, he did not
start to read elementary mathematics books until he was 13 years
old. However Ampère was always one to feel very confident in his
own abilities and he certainly began to develop his own
mathematical ideas very quickly and he began to write a treatise
on conic sections. Ampère had no contacts with anyone with any
depth of mathematical knowledge so it is not surprising that he
felt that his ideas were original.
While still only 13 years old Ampère submitted his first paper
to the Académie de Lyon. This work attempted to solve the
problem of constructing a line of the same length as an arc of a
circle. His method involves the use of infinitesimals but since
Ampère had not studied the calculus the paper was not found
worthy of publication. Shortly after writing the article Ampère
began to read d'Alembert's article on the differential calculus
in the Encyclopédie and realised that he must learn more
mathematics.
After taking a few lessons in the differential and integral
calculus from a monk in Lyon, Ampère began to study works by
Euler and Bernoulli. He then acquired a copy of the 1788 edition
of Lagrange's Mécanique analytique and began serious study of
the work. Ampère writes (again writing about himself in the
third person):-
... the reading of [Mécanique analytique] had animated him with
a new ardour. He repeated all the calculations in it ...
However his life was soon to be shattered. The French Revolution
began with the storming of the Bastille on 14 July 1789 but the
effect on the Poleymieux region was not very great at first.
Ampère's father kept out of trouble until late in 1791 when he
accepted the position of Justice of the Peace in Lyon. This post
made it virtually impossible for him to avoid trouble but the
first tragedy to hit the family was in 1792 when André-Marie's
sister died. The city of Lyon refused to carry out instructions
from Paris and the city was besieged for two months. On the fall
of the city Ampère's father was arrested for issuing an arrest
warrant for the Jacobin Chevalier who had then been put to death.
Ampère's father went to the guillotine with remarkable composure
writing to Ampère's mother from his cell:-
I desire my death to be the seal of a general reconciliation
between all our brothers; I pardon those who rejoice in it,
those who provoked it, and those who ordered it....
The effect on Ampère of his father's death was devastating. He
gave up his studies of Mécanique analytique and did not return
to the study of mathematics for 18 months. He only returned to
something like his old self when he met a girl, Julie, who he
fell deeply in love with. Julie seemed less attracted to Ampère:-
He has no manners; he is awkward, shy and presents himself
poorly.
Despite this coolness they were engaged to be married in 1797
and Ampère decided he better show that he could earn a living so
began tutoring mathematics in Lyon. He married Julie in 1799 and
their son Jean-Jacques was born in 1800. Ampère continued
tutoring mathematics until 1802 when he was appointed professor
of physics and chemistry at Bourg École Centrale. This was a
difficult time for Ampère since Julie became ill before he made
the move to Bourg leaving her at Poleymieux.
While Ampère was in Bourg he spent much time teaching physics
and chemistry but his research was in mathematics. This research
resulted in him composing a treatise on probability, The
Mathematical Theory of Games, which he submitted to the Paris
Academy in 1803. Laplace noticed an error, explaining the error
to Ampère in a letter, which Ampère was able to correct and the
treatise was reprinted. In fact the treatise was modified a
number of times and Ampère was reluctant to call it completed
for fear that further changes might be required. This work was
followed by one on the calculus of variations in 1803.
After a year in Bourg, Ampère moved closer to Poleymieux being
appointed to a mathematics position at the Lycée in Lyon on
Delambre's recommendation. His time spent in Lyon had been made
difficult due to the continuing decline in his wife's health.
Mathematically he continued to produce good work, this time an
interesting treatise on analytic geometry. Like a number of
other mathematicians, Ampère seemed able to concentrate on his
theorems despite the personal tragedy around him and, sadly,
this would be required of him throughout his unhappy life. After
his wife died in July 1803, Ampère was left with feelings of
guilt for he had lived apart from his wife during much of their
short marriage. He decided to leave Lyon for Paris. Hofman
writes in [4] regarding his feelings following his wife's death:-
His subsequent depression contributed to his decision to take
the earliest opportunity to leave Lyon for new surroundings in
Paris. Later he would regret this decision. The Lyon friends who
attempted to fill the emotional void left by Julie's death were
missed painfully. Although Ampère gradually adjusted to the
priority disputes and infighting of the Parisian scientific
community, he always longed for a return to the intellectual
life he experienced in Lyon.
By this time Ampère had a fair reputation as both a teacher of
mathematics and as a research mathematician and on the strength
of this reputation he was appointed répétiteur (basically a
tutor) in analysis at the École Polytechnique in 1804. Without a
formal education and formal qualifications his appointment is
surprising but shows that his potential was recognised at this
stage. His life, already containing many tragedies, did not
improve and he embarked on a disastrous marriage. Lagrange and
Delambre attended his wedding to Jenny on 1 August 1806 but,
before the birth of their daughter on 6 July 1807, the couple
were living apart and were not on speaking terms. They were
legally separated in 1808 and Ampère was given custody of their
daughter Albine.
Appointed professor of mathematics at the École Polytechnique in
1809 he held posts there until 1828. Ampère and Cauchy shared
the teaching of analysis and mechanics and there was a great
contrast between the two with Cauchy's rigorous analysis
teaching leading to great mathematical progress but found
extremely difficult by students who greatly preferred Ampère's
more conventional approach to analysis and mechanics. Ampère was
appointed to a chair at Université de France in 1826 which he
held until his death.
In Paris Ampère worked on a wide variety of topics. Although a
mathematics professor, his interests included, in addition to
mathematics, metaphysics, physics and chemistry. In mathematics
he worked on partial differential equations, producing a
classification which he presented to the Institut in 1814. This
seems to have been a crucial step in his election to the
Institut National des Sciences in November 1814 when he defeated
Cauchy, receiving 28 of the 56 votes cast.
Ampère was also making significant contributions to chemistry.
In 1811 he suggested that an anhydrous acid prepared two years
earlier was a compound of hydrogen with an unknown element,
analogous to chlorine, for which he suggested the name fluorine.
After concentrating on mathematics as he sought admission to the
Institut, Ampère returned to chemistry after his election in
1814 and produced a classification of elements in 1816.
Ampère also worked on the theory of light, publishing on
refraction of light in 1815. By 1816 he was a strong advocate of
a wave theory of light, agreeing with Fresnel and opposed to
Biot and Laplace who advocated a corpuscular theory. Fresnel
became a good friend of Ampère's and lodged at Ampère's home
from 1822 until his death in 1827.
In the early 1820s, Ampère attempted to give a combined theory
of electricity and magnetism after hearing about experimental
results by the Danish physicist Hans Christian Orsted. Ampère
formulated a circuit force law and treated magnetism by
postulating small closed circuits inside the magnetised
substance.
It is worth commenting on how quickly Ampère produced this
theory, the inspiration striking him immediately he heard of
Orsted's experimental results. Orsted's work was reported the
Academy in Paris on 4 September 1820 by Arago and a week later
Arago repeated Orsted's experiment at an Academy meeting. Ampère
demonstrated various magnetic / electrical effects to the
Academy over the next weeks and he had discovered
electrodynamical forces between linear wires before the end of
September. He spoke on his law of addition of electrodynamical
forces at the Academy on 6 November 1820 and on the symmetry
principle in the following month. Ampère wrote up the work he
had described to the Academy with remarkable speed and it was
published in the Annales de Chimie et de Physique.
Ampère was assisted over the next few years in his work by Felix
Savary whose help in getting Ampère to write up his results was
invaluable [4]:-
... beginning with the memoir he completed early in 1823, Savary
now made much more creative contributions. But more than his
creativity, it was Savary's discipline and ability to
concentrate at length on specific problems that proved
especially valuable to Ampère. There is room to speculate that,
without Savary's aid. Ampère might never have found time to
complete the detailed calculations required to apply his force
law to magnetic phenomena.
However Ampère was not the only one to react quickly to Arago's
report of Orsted's experiment. Biot, with his assistant Savart,
also quickly conducted experiments and reported to the Academy
in October 1820. This led to the Biot-Savart Law. Another who
worked on magnetism at this time was Poisson who insisted on
treating magnetism without any reference to electricity. Poisson
had already written two important memoirs on electricity and he
published two on magnetism in 1826.
Ampère's most important publication on electricity and magnetism
was also published in 1826. It is called Memoir on the
Mathematical Theory of Electrodynamic Phenomena, Uniquely
Deduced from Experience and contained a mathematical derivation
of the electrodynamic force law and describes four experiments.
Maxwell, writing about this Memoir in 1879, says:-
We can scarcely believe that Ampère really discovered the law of
action by means of the experiments which he describes. We are
led to suspect, what, indeed, he tells us himself, that he
discovered the law by some process which he has not shown us,
and that when he had afterwards built up a perfect demonstration
he removed all traces of the scaffolding by which he had raised
it.
Ampère's theory became fundamental for 19th century developments
in electricity and magnetism. Faraday discovered electromagnetic
induction in 1821 and, after initially believing that he had
himself discovered the effect in 1822, Ampère agreed that full
credit for the discovery should go to Faraday. Weber also
developed Ampère's ideas as did Thomson and Maxwell.
In 1826 Ampère began to teach at the Collège de France. Here he
was in a position to teach courses of his own design, rather
than at the École Polytechnique were the topics were set down.
Ampère therefore taught electrodynamics at the Collège de France
and this course was taken by Liouville in 1826-27. This was the
second time Ampère had taught Liouville since Liouville had
taken Ampère's courses at the École Polytechnique in the
previous session. Liouville made an important contribution to
Ampère's electrodynamics course by editing a set of notes taken
from Ampère's lectures.
Given the tragedy in Ampère's life it might have been hoped that
his children would bring him some happiness. His son certainly
achieved fame as a historian and philologist who studied the
cultural origins of western European languages. He was appointed
to a chair of history of foreign literature at the Sorbonne in
1830. However his relationship with his father was difficult.
Hofmann in [4] writes:-
Both men were temperamental and subject to long periods of
brooding followed by explosive outbursts of anger. Ampère's home
simply was not expansive to house both of them for any extended
period of time.
Ampère had an even more difficult time with his daughter. She
married one of Napoleon's lieutenants in 1827 but he was an
alcoholic and the marriage soon was in trouble. Ampère's
daughter fled to her father's house in 1830 and, some days later,
Ampère allowed her husband to live with him also. This proved a
difficult situation, led to police intervention and much
unhappiness for Ampère.
André Marie Ampère -
New Advent
Physicist and mathematician, b. 22 January, 1775, at Lyons,
France; d. at Marseilles, 10 June, 1836.
His father was a prosperous and educated merchant, his mother
charitable and pious, while he himself combined the traits of
both. The mathematical bent of his mind showed itself very early.
Before he knew his letters and numbers he is said to have
performed complex arithmetical computations by means of pebbles
and beans. His childhood days were spent in the village of
Poleymieux-les-Mont-d'Or, near Lyons. His father began to teach
him Latin, but, on discovering the boy's thirst for mathematical
knowledge, he provided him with the necessary books. It was not
long before he had mastered the elements of his chosen study, so
that his father was obliged to take the boy of eleven to the
library at Lyons, where he asked for the works of Bernoulli and
Euler. On being informed that these books were written in Latin,
and that he would need a knowledge of the calculus, he resumed
the study of the one and applied himself to that of the other,
and at the end of a few weeks was able to take up the serious
perusal of difficult treatises on applied mathematics. During
the revolution his father returned to Lyons, in 1793, expecting
to be safer in the city. After the siege, however, he fell a
victim and was executed. This death was a great shock to the
delicate, sensitive boy, who for more than a year was in a state
bordering on idiocy. From this he was suddenly aroused by the
reading of two works: J.J. Rousseau's "Letters on Botany" and
Horace's "Ode to Licinius", which led him to the immediate study
of plants and of the classic poets. In 1799 hemarried Julie
Carron, who lived only five years longer, leaving a son who
afterwards became a writer of great literary merit. Ampère was
obliged to teach in order to support himself and family. At
first he gave private lessons in Lyons; later, in 1801, he left
his wife and child to take the chair of physics at the Ecole
Centrale in Bourg. There he wrote the article that attracted the
attention of Lalande and Delambre: "Considérations sur la
théorie mathématique du jeu". In this he attacks and solves the
problem of showing that the chances of the gambler are always
against him. It is noted for its elegant and polished, though
simple, application of the calculus of probabilities. The
favourable appreciation of his work by men like Delambre
resulted in his call to Lyons and later, in 1805, to the Ecole
Polytechnique at Paris, where, in 1809, he rose to the position
of Professor of Analysis, and was made Chevalier of the Legion
of Honour, and where his work alternated between mathematics,
physics, and metaphysics. He published a number of articles on
calculus, on curves, and other purely mathematical topics, as
well as on chemistry and light, and even on zoölogy. Ampère's
fame, however, rests on his remarkable work in electro-dynamics.
It was on 11 September, 1820, that an academician, returning
from Geneva, repeated before the Academy the epoch-marking
experiments of the Danish savant Oersted. A wire through which
an electric current passes was shown to deflect a magnetic
needle, causing it to place itself at right angles to the
direction of the current. The connexion between electricity an
magnetism was indicated by these experiments, and thefoundation
was laid for the science of electro-magnetics. Only a week later,
on the 18th of the same month, Ampère demonstrated before the
Academy another remarkable fact: the mutual attraction or
repulsion of two parallel wires carrying currents, according as
the currents are in the same or in opposite directions. This
laid the foundation of the science of electro-dynamics.
Ampère continued his experiments, published the results in 1822,
and, finally, developed his "Mathematical Theory of the
Phenomena of Electro-dynamics" in 1830. In 1821 he suggested an
electric telegraph, using separate wires for every letter. His
final work, published after his death, was the ambitious "Essai
sur la philosophie des sciences, ou exposition analytique d'une
classification naturelle de toutes les connaissances humaines".
His predilection for philosophic, psychological, and
metaphysical speculation was very marked. His arduous task as
teacher, together with the engrossing functions of a government
official--he was Inspector-General of the University--prevented
him from devoting himself more to the work of the experimenter.
He was a member of the Institute of France, the Royal Societies
of London and Edinburgh, the Acadamies of Berlin, Stockholm,
Brussels, and Lisbon, and other scientific societies. In 1872
Madame Chevreux edited his "Journal and Correspondence". In 1881
the Paris Conference of Electricians honoured his memory by
naming the practical unit of electric current the ampère. His
religious life is interesting. He says that at eighteen years he
found three culminating points in his life, his First Communion,
the reading of Thomas's "Eulogy of Descartes", and the taking of
the Bastille. His marriage to the pious Julie Carron was
secretly performed by a priest, her family refusing to recognize
the competency of the "constitutional" clergyman; this fact
impressed him very deeply. On the day of his wife's death he
wrote two verses from the Psalms, and the prayer, "O Lord, God
of Mercy, unite me in Heaven with those whom you have permitted
me to love on earth". Serious doubts harassed him at times, and
made him very unhappy. Then he would take refuge in the reading
of the Bible and the Fathers of the Church. "Doubt", he says in
a letter to a friend, "is the greatest torment that a man
suffers on earth". His death took place at Marseilles, in his
fifty-second year.
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