Pietro Cataldi (nonfiction): Difference between revisions

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[[File:Due lettioni date nella academia erigenda dove si mostra come si trovi la grandezza delle superficie rettilinee.jpg|thumb|"Due lettioni date nella academia erigenda dove si mostra come si trovi la grandezza delle superficie rettilinee" (1613).]]'''Pietro Antonio Cataldi''' (15 April 1548, Bologna – 11 February 1626, Bologna) was an Italian [[Mathematician (nonfiction)|mathematician]]. A citizen of Bologna, he taught mathematics and astronomy and also worked on military problems. His work included the development of [[Continued fraction (nonfiction)|continued fractions]] and a method for their representation. He was one of many mathematicians who attempted to prove [[Euclid (nonfiction)|Euclid]]'s fifth postulate (the [[Parallel postulate (nonfiction)|parallel postulate]].
[[File:Due lettioni date nella academia erigenda dove si mostra come si trovi la grandezza delle superficie rettilinee.jpg|thumb|"Due lettioni date nella academia erigenda dove si mostra come si trovi la grandezza delle superficie rettilinee" (1613).]]'''Pietro Antonio Cataldi''' (15 April 1548, Bologna – 11 February 1626, Bologna) was an Italian [[Mathematician (nonfiction)|mathematician]]. A citizen of Bologna, he taught mathematics and astronomy and also worked on military problems. His work included the development of [[Continued fraction (nonfiction)|continued fractions]] and a method for their representation. He was one of many mathematicians who attempted to prove [[Euclid (nonfiction)|Euclid]]'s fifth postulate (the [[Parallel postulate (nonfiction)|parallel postulate]].


Cataldi discovered the sixth and seventh [[Perfect number (nonfiction)|perfect numbers]] by 1588. His discovery of the 6th, that corresponding to p=17 in the formula Mp=2p-1, exploded a many-times repeated [[Number theory (nonfiction)|number-theoretical]] myth that the perfect numbers had [[Numerical digit (nonfiction)|units digits]] that invariably alternated between 6 and 8. (Until Cataldi, 19 authors going back to [[Nicomachus (nonfiction)|Nicomachus]] are reported to have made the claim, with a few more repeating this afterward, according to [[Leonard Eugene Dickson (nonfiction)|Leonard Eugene Dickson]]'s ''[[History of the Theory of Numbers (nonfiction)|History of the Theory of Numbers]]''). Cataldi's discovery of the 7th (for p=19) held the record for the [[Largest known prime number (nonfiction)|largest known prime]] for almost two centuries, until [[Leonhard Euler (nonfiction)|Leonhard Euler]] discovered that 231 - 1 was the eighth Mersenne prime. Although Cataldi incorrectly claimed that p=23, 29, 31 and 37 all also generate Mersenne primes (and perfect numbers), his text's clear demonstration shows that he had genuinely established primality through p=19.
Cataldi discovered the sixth and seventh [[Perfect number (nonfiction)|perfect numbers]] by 1588. His discovery of the 6th, that corresponding to p=17 in the formula Mp=2p-1, exploded a many-times repeated [[Number theory (nonfiction)|number-theoretical]] myth that the perfect numbers had [[Numerical digit (nonfiction)|units digits]] that invariably alternated between 6 and 8. (Until Cataldi, 19 authors going back to [[Nicomachus (nonfiction)|Nicomachus]] are reported to have made the claim, with a few more repeating this afterward, according to [[Leonard Eugene Dickson (nonfiction)|Leonard Eugene Dickson]]'s ''[[History of the Theory of Numbers (nonfiction)|History of the Theory of Numbers]]''). Cataldi's discovery of the 7th (for p=19) held the record for the [[Largest known prime number (nonfiction)|largest known prime]] for almost two centuries, until [[Leonhard Euler (nonfiction)|Leonhard Euler]] discovered that 231 - 1 was the eighth Mersenne prime ([[2,147,483,647 (nonfiction)|2,147,483,647]]). Although Cataldi incorrectly claimed that p=23, 29, 31 and 37 all also generate [[Mersenne primes (nonfiction)|Mersenne primes]] (and perfect numbers), his text's clear demonstration shows that he had genuinely established primality through p=19.


== References ==
== References ==
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* [[Mathematician (nonfiction)]]
* [[Mathematician (nonfiction)]]
* [[Mathematics (nonfiction)]]
* [[Mathematics (nonfiction)]]
* [[Mersenne primes (nonfiction)]]
* [[Number theory (nonfiction)]]
* [[Number theory (nonfiction)]]
* [[Numerical digit (nonfiction)]]
* [[Numerical digit (nonfiction)]]

Revision as of 05:57, 15 April 2020

"Due lettioni date nella academia erigenda dove si mostra come si trovi la grandezza delle superficie rettilinee" (1613).

Pietro Antonio Cataldi (15 April 1548, Bologna – 11 February 1626, Bologna) was an Italian mathematician. A citizen of Bologna, he taught mathematics and astronomy and also worked on military problems. His work included the development of continued fractions and a method for their representation. He was one of many mathematicians who attempted to prove Euclid's fifth postulate (the parallel postulate.

Cataldi discovered the sixth and seventh perfect numbers by 1588. His discovery of the 6th, that corresponding to p=17 in the formula Mp=2p-1, exploded a many-times repeated number-theoretical myth that the perfect numbers had units digits that invariably alternated between 6 and 8. (Until Cataldi, 19 authors going back to Nicomachus are reported to have made the claim, with a few more repeating this afterward, according to Leonard Eugene Dickson's History of the Theory of Numbers). Cataldi's discovery of the 7th (for p=19) held the record for the largest known prime for almost two centuries, until Leonhard Euler discovered that 231 - 1 was the eighth Mersenne prime (2,147,483,647). Although Cataldi incorrectly claimed that p=23, 29, 31 and 37 all also generate Mersenne primes (and perfect numbers), his text's clear demonstration shows that he had genuinely established primality through p=19.

References

  • Caldwell, Chris. The largest known prime by year.

In the News

Fiction cross-reference

Nonfiction cross-reference

External links

  • Pietro Cataldi @ Wikipedia
  • O'Connor, John J.; Robertson, Edmund F., "Pietro Cataldi", MacTutor History of Mathematics archive, University of St Andrews.
  • Galileo Project

Attribution