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Pietro Mengoli (1626, Bologna – June 7, 1686, Bologna) was an Italian 
Pietro Mengoli's works were all published in Bologna:
* 1650: ''Novae quadraturae arithmeticae seu de additione fractionum'' on infinite series
* 1659: ''Geometria speciosae elementa'' on quasi-proportions to extend Euclid's proportionality of his Book 5, six definitions yield 61 theorems on quasi-proportion
* 1670: ''Refrattitione e parallase solare''
* 1670: ''Speculattione di musica''
* 1672: ''Circulo''
* 1675: ''Anno'' on Biblical chronology
* 1681: ''Mese'' on cosmology
*
* 1674: ''Arithmetica rationalis'' on logic
* 1675: ''Arithmetica realis'' on metaphysics
''Dizionario biografico degli italiani''
{{DEFAULTSORT:Mengoli, Pietro 1626 births 1686 deaths Catholic clergy scientists Italian mathematicians 17th-century Italian mathematicians Italian scientists 17th-century Italian scientists
mathematician
A mathematician is someone who uses an extensive knowledge of mathematics in their work, typically to solve mathematical problems.
Mathematicians are concerned with numbers, data, quantity, structure, space, models, and change.
History
O ...
and clergyman from Bologna, where he studied with Bonaventura Cavalieri
Bonaventura Francesco Cavalieri ( la, Bonaventura Cavalerius; 1598 – 30 November 1647) was an Italian mathematician and a Jesuate. He is known for his work on the problems of optics and motion, work on indivisibles, the precursors of infin ...
at the University of Bologna
The University of Bologna ( it, Alma Mater Studiorum – Università di Bologna, UNIBO) is a public research university in Bologna, Italy. Founded in 1088 by an organised guild of students (''studiorum''), it is the oldest university in continu ...
, and succeeded him in 1647. He remained as professor there for the next 39 years of his life.
Contributions
Mengoli first posed the famousBasel problem
The Basel problem is a problem in mathematical analysis with relevance to number theory, concerning an infinite sum of inverse squares. It was first posed by Pietro Mengoli in 1650 and solved by Leonhard Euler in 1734, and read on 5 December 1735 ...
in 1650, solved in 1735 by Leonhard Euler
Leonhard Euler ( , ; 15 April 170718 September 1783) was a Swiss mathematician, physicist, astronomer, geographer, logician and engineer who founded the studies of graph theory and topology and made pioneering and influential discoveries in ...
. In 1650, he also proved that the sum of the alternating harmonic series
In mathematics, the harmonic series is the infinite series formed by summing all positive unit fractions:
\sum_^\infty\frac = 1 + \frac + \frac + \frac + \frac + \cdots.
The first n terms of the series sum to approximately \ln n + \gamma, wher ...
is equal to the natural logarithm of 2 The decimal value of the natural logarithm of 2
is approximately
:\ln 2 \approx 0.693\,147\,180\,559\,945\,309\,417\,232\,121\,458.
The logarithm of 2 in other bases is obtained with the formula
:\log_b 2 = \frac.
The common logarithm in particula ...
.
He also proved that the harmonic series has no upper bound, and provided a proof that Wallis' product for is correct.
Mengoli anticipated the modern idea of limit of a sequence
As the positive integer n becomes larger and larger, the value n\cdot \sin\left(\tfrac1\right) becomes arbitrarily close to 1. We say that "the limit of the sequence n\cdot \sin\left(\tfrac1\right) equals 1."
In mathematics, the limi ...
with his study of quasi-proportions in ''Geometria speciose elementa'' (1659). He used the term ''quasi-infinite'' for unbounded and ''quasi-null'' for vanishing.
:Mengoli proves theorems starting from clear hypotheses and explicitly stated properties, showing everything necessary ... proceeds to a step-by-step demonstration. In the margin he notes the theorems used in each line. Indeed, the work bears many similarities to a modern book and shows that Mengoli was ahead of his time in treating his subject with a high degree of rigor.M.R. Massa (1997) "Mengoli on 'Quasi-proportions'", ''Historia Mathematica'' 24(3): 257–80
Six square problem
Mengoli became enthralled with aDiophantine problem
In mathematics, a Diophantine equation is an equation, typically a polynomial equation in two or more unknowns with integer coefficients, such that the only solutions of interest are the integer ones. A linear Diophantine equation equates to a ...
posed by Jacques Ozanam
Jacques Ozanam (16 June 1640, in Sainte-Olive, Ain – 3 April 1718, in Paris) was a French mathematician.
Biography
Jacques Ozanam was born in Sainte-Olive, Ain, France.
In 1670, he published trigonometric and logarithmic tables more accu ...
called the six-square problem: find three integers such that their differences are squares and that the differences of their squares are also three squares. At first he thought that there was no solution, and in 1674 published his reasoning in ''Theorema Arthimeticum''. But Ozanam then exhibited a solution: ''x'' = 2,288,168, ''y'' = 1,873,432, and ''z'' = 2,399,057. Humbled by his error, Mengoli made a study of Pythagorean triple
A Pythagorean triple consists of three positive integers , , and , such that . Such a triple is commonly written , and a well-known example is . If is a Pythagorean triple, then so is for any positive integer . A primitive Pythagorean triple is ...
s to uncover the basis of this solution. He first solved an auxiliary Diophantine problem: find four numbers such that the sum of the first two is a square, the sum of the third and fourth is a square, their product is a square, and the ratio of the first two is greater than the ratio of the third to the fourth. He found two solutions: (112, 15, 35, 12) and (364, 27, 84, 13). Using these quadruples, and algebraic identities, he gave two solutions to the six-square problem beyond Ozanam’s solutions. Jacques de Billy
: ''For the English patristic scholar and Benedictine abbot, see Jacques de Billy (abbot) (1535–1581).''
Jacques de Billy (March 18, 1602 – January 14, 1679) was a French Jesuit mathematician. Born in Compiègne, he subsequently entere ...
also provided six-square problem solutions.P. Nastasi & A. Scimone (1994) "Pietro Mengoli and the six square problem", Historia Mathematica
''Historia Mathematica: International Journal of History of Mathematics'' is an academic journal on the history of mathematics published by Elsevier. It was established by Kenneth O. May in 1971 as the free newsletter ''Notae de Historia Mathemati ...
21(1):10–27
Works
Pietro Mengoli's works were all published in Bologna:
* 1650: ''Novae quadraturae arithmeticae seu de additione fractionum'' on infinite series
* 1659: ''Geometria speciosae elementa'' on quasi-proportions to extend Euclid's proportionality of his Book 5, six definitions yield 61 theorems on quasi-proportion
* 1670: ''Refrattitione e parallase solare''
* 1670: ''Speculattione di musica''
* 1672: ''Circulo''
* 1675: ''Anno'' on Biblical chronology
* 1681: ''Mese'' on cosmology
*
* 1674: ''Arithmetica rationalis'' on logic
* 1675: ''Arithmetica realis'' on metaphysics
References
* G. Baroncini & M. Cavazza (1986) ''La Corrispondenza di Pietro Mengoli'', Florence: Leo S. OlschkiExternal links
* * Marta Cavazza, ''Pietro Mengoli'' i''Dizionario biografico degli italiani''
{{DEFAULTSORT:Mengoli, Pietro 1626 births 1686 deaths Catholic clergy scientists Italian mathematicians 17th-century Italian mathematicians Italian scientists 17th-century Italian scientists