Marin Mersenne

Marin Mersenne
Born (1588-09-08)8 September 1588
Oizé, Maine
Died 1 September 1648(1648-09-01) (aged 59)
Paris
Nationality French
Known for Acoustics, Mersenne primes

Marin Mersenne, Marin Mersennus or le Père Mersenne (French: [mɛʀsɛn]; 8 September 1588 – 1 September 1648) was a French theologian, philosopher, mathematician and music theorist, often referred to as the "father of acoustics".[1][2] Mersenne, an ordained priest, had many contacts in the scientific world and has been called "the center of the world of science and mathematics during the first half of the 1600s."[3]

Life

Marin Mersenne (pronounced Mehr-SENN) was born of peasant parents near Oizé, Maine (present day Sarthe, France). He was educated at Le Mans and at the Jesuit College of La Flèche. On 17 July 1611, he joined the Minim Friars, and, after studying theology and Hebrew in Paris was ordained a priest in 1613.

Between 1614 and 1618, he taught theology and philosophy at Nevers, but he returned to Paris and settled at the convent of L'Annonciade in 1620. There he studied mathematics and music and met with other kindred spirits such as René Descartes, Étienne Pascal, Pierre Petit, Gilles de Roberval and Nicolas-Claude Fabri de Peiresc. He corresponded with Giovanni Doni, Constantijn Huygens, Galileo Galilei, and other scholars in Italy, England and the Dutch Republic. He was a staunch defender of Galileo, assisting him in translations of some of his mechanical works.

For four years, Mersenne devoted himself entirely to philosophic and theological writing, and published Quaestiones celeberrimae in Genesim (1623); L'Impieté des déistes (1624); La Vérité des sciences (Truth of the Sciences against the Sceptics, 1624). It is sometimes incorrectly stated that he was a Jesuit. He was educated by Jesuits, but he never joined the Society of Jesus. He taught theology and philosophy at Nevers and Paris.

In 1635 he set up the informal Académie Parisienne (Academia Parisiensis) which had nearly 140 correspondents including astronomers and philosophers as well as mathematicians and was the precursor of the Académie des sciences established by Jean-Baptiste Colbert in 1666. He was not afraid to cause disputes among his learned friends in order to compare their views, notable among which were disputes between Descartes and Pierre de Fermat and Jean de Beaugrand.[4] Peter L. Bernstein in his book Against the Gods: the Remarkable story of risk writes: "The Académie des Sciences in Paris and the Royal Society in London, which were founded about twenty years after Mersenne's death, were direct descendants of Mersenne's activities."[5]

In 1635 Mersenne met with Tommaso Campanella, but concluded that he could "teach nothing in the sciences (...) but still he has a good memory and a fertile imagination." Mersenne asked if René Descartes wanted Campanella to come to Holland to meet him, but Descartes declined. He visited Italy fifteen times, in 1640, 1641 and 1645. In 1643–1644 Mersenne also corresponded with the German Socinian Marcin Ruar concerning the Copernican ideas of Pierre Gassendi, finding Ruar already a supporter of Gassendi's position.[6] Among his correspondents were Descartes, Galilei, Roberval, Pascal, Beeckman and other scientists.

He died September 1st through complications arising from a lung abscess. Some history scientists suggest he died for having drunk a huge quantity of fresh water, along with Descartes, on a hot summer day.

Works

Quaestiones celeberrimae in Genesim (1623)

It was written as a commentary on the Book of Genesis and comprises uneven sections headed by verses from the first three chapters of that book. At first sight the book appears to be a collection of treatises on various miscellaneous topics. However Robert Lenoble has shown that the principle of unity in the work is a polemic against magical and divinatory arts, cabalism, animistic and pantheistic philosophies. He mentions Martin Del Rio's Investigations into Magic and criticises Marsilio Ficino for claiming power for images and characters. He condemns astral magic and astrology and the anima mundi, a concept popular amongst Renaissance neo-platonists. Whilst allowing for a mystical interpretation of the Cabala, he wholeheartedly condemned its magical application—particularly to angelology. He also criticises Pico della Mirandola, Cornelius Agrippa and Francesco Giorgio with Robert Fludd as his main target. Fludd responded with Sophia cum moria certamen (1626), wherein Fludd admits his involvement with the Rosicrucians. The anonymous Summum bonum (1629), another critique of Mersenne, is an openly Rosicrucian text. The cabalist Jacques Gaffarel joined Fludd's side, while Pierre Gassendi defended Mersenne.

L'Harmonie Universelle (1637)

Main article: Harmonie universelle

This book consists of Mersenne's laws, which describe the frequency of oscillation of a stretched string. This frequency is:

  1. Inversely proportional to the length of the string (this was actually known to the ancients, and is usually credited to Pythagoras himself).
  2. Proportional to the square root of the stretching force, and
  3. Inversely proportional to the square root of the mass per unit length.

The formula for the lowest frequency is

where f is the frequency, L is the length, F is the force and μ is the mass per unit length.

In this book, Mersenne also introduced several innovative concepts that can be considered as the basis of modern reflecting telescopes:

Because of criticism that he encountered, especially that of Descartes, Mersenne made no attempt to build a telescope of his own.

Other

Mersenne is also remembered today thanks to his association with the Mersenne primes. The Mersenne Twister, named for Mersenne prime, is frequently used in computer engineering, and in related fields such as cryptography.

However, Mersenne was not primarily a mathematician; he wrote about music theory and other subjects. He edited works of Euclid, Apollonius, Archimedes, and other Greek mathematicians. But perhaps his most important contribution to the advance of learning was his extensive correspondence (in Latin) with mathematicians and other scientists in many countries. At a time when the scientific journal had not yet come into being, Mersenne was the centre of a network for exchange of information.

It has been argued that Mersenne used his lack of mathematical specialty, his ties to the print world, his legal acumen, and his friendship with the French mathematician and philosopher René Descartes (1596–1650) to manifest his international network of mathematicians.[9]

Mersenne's philosophical works are characterized by wide scholarship and the narrowest theological orthodoxy. His greatest service to philosophy was his enthusiastic defence of Descartes, whose agent he was in Paris and whom he visited in exile in the Netherlands. He submitted to various eminent Parisian thinkers a manuscript copy of the Meditations on First Philosophy, and defended its orthodoxy against numerous clerical critics.

In later life, he gave up speculative thought and turned to scientific research, especially in mathematics, physics and astronomy. In this connection, his best known work is Traité de l'harmonie universelle (also referred to as Harmonie universelle) of 1636, dealing with the theory of music and musical instruments. It is regarded as a source of information on 17th-century music, especially French music and musicians, to rival even the works of Pietro Cerone.

One of his many contributions to musical tuning theory was the suggestion of

as the ratio for an equally-tempered semitone (). It was more accurate (0.44 cents sharp) than Vincenzo Galilei's 18/17 (1.05 cents flat), and could be constructed using straightedge and compass. Mersenne's description in the 1636 Harmonie universelle of the first absolute determination of the frequency of an audible tone (at 84 Hz) implies that he had already demonstrated that the absolute-frequency ratio of two vibrating strings, radiating a musical tone and its octave, is 1 : 2. The perceived harmony (consonance) of two such notes would be explained if the ratio of the air oscillation frequencies is also 1 : 2, which in turn is consistent with the source-air-motion-frequency-equivalence hypothesis.

He also performed extensive experiments to determine the acceleration of falling objects by comparing them with the swing of pendulums, reported in his Cogitata Physico-Mathematica in 1644. He was the first to measure the length of the seconds pendulum, that is a pendulum whose swing takes one second, and the first to observe that a pendulum's swings are not isochronous as Galileo thought, but that large swings take longer than small swings.[10]

Battles with occult and mysticism

Two German books which circulated around Europe in 1614-15, Fama fraternitatis and Confessio Fraternitatis, claimed to be manifestos of a highly select, secret society of alchemists and sages called the Brotherhood of Rosicrucians. The books were hoaxes, but obviously written by a small group who were reasonably knowledgeable about the sciences of the day, and their main theme was to promote educational reform (they were anti-Aristotelian). However, these books also promoted an occult view of science containing elements of Paracelsian philosophy, neo-Platonism, Cabalism and Hermeticism. In effect they sought to establish a new form of scientific religion with some pre-Christian elements.

Mersenne led the fight against acceptance of these ideas, particularly those of Rosicrucian-promoter Robert Fludd who had a life-long battle of words with Johannes Kepler. The Rosicrucian ideas were defended by many prominent men of learning, and some members of the European scholarly community boosted their own prestige by claiming to be among the selected members of the Brotherhood. However it is now generally agreed among historians that there is no evidence that the order of Rosicrucians ever existed.[11]

During the mid-1630s Mersenne gave up search for physical causes in the Aristotelian sense (rejecting the idea of 'essences' which were still favoured by the scholastic philosophers), and taught that true physics could only be a descriptive science of motions (Mécanisme) which was the direction set by Galileo Galilei. Mersenne had been a regular correspondent with Galileo and had extended the work on vibrating strings originally developed by his father Vincenzo Galilei.[12]

Music

An air attributed to Mersenne was used by Ottorino Respighi in his second suite of Ancient Airs and Dances.

Bibliography

See also

References

  1. Bohn, Dennis A. (1988). "Environmental Effects on the Speed of Sound" (PDF). Journal of the Audio Engineering Society. 36 (4): 223–231.
  2. Simmons, George F. (1992/2007). Calculus Gems: Brief Lives and Memorable Mathematics, p.94. MAA. ISBN 9780883855614.
  3. Bernstein, Peter L. (1996). Against the Gods: The Remarkable Story of Risk. John Wiley & Sons. p. 59. ISBN 978-0-471-12104-6.
  4. Sergescu, Pierre (1948). "Mersenne l'Animateur". Revue de l'Histoire des sciences et leur applications. 2 (2-1): 5–12.
  5. Bernstein 1996, p. 59
  6. Murr, Sylvia, ed. (1997) (in French), Gassendi et l'Europe, Paris: Vrin, ISBN 978-2-7116-1306-9.
  7. Wilson, Todd (2007), Reflecting Telescope Optics I: Basic Design Theory and its Historical Development, Springer, p. 4, ISBN 9783540765813.
  8. Pendergrast, Mark (2003). Mirror Mirror: A History of the Human Love Affair with Reflection. Basic Books. pp. 88–89. ISBN 0786729902.
  9. Grosslight, Justin (2013). "Small Skills, Big Networks: Marin Mersenne as Mathematical Intelligencer". History of Science. 51: 337–374. doi:10.1177/007327531305100304.
  10. Koyre, Alexander (1992). Metaphysics and Measurement. Taylor & Francis. p. 100. ISBN 2-88124-575-7.
  11. Debus, Allen G. The Chemical Philosophy.
  12. Heilbron J. L. (1979) Electricity in the 17th and 18th Centuries: A Study of Early Modern Physics

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