Biography:Sebastián Izquierdo

From HandWiki
Short description: Spanish Jesuit philosopher
Sebastián Izquierdo
Sebastián Izquierdo - Pharus Scientiarum.jpg
Pharus scientiarum. Vol. 1. Lyon: Bourgeat and Liétard. 1659
Born
Alcaraz, Kingdom of Spain
DiedFebruary 20, 1681(1681-02-20) (aged 80)
Rome, Papal States
NationalitySpanish
EducationColegio Imperial de Madrid
Notable work
Pharus scientiarum
Era17th-century philosophy
Region
School
Main interests
Metaphysics, philosophy of science, combinatorics
Ecclesiastical career
ReligionChristianity
ChurchCatholic Church
Ordained17 November 1623

Sebastián Izquierdo (29 January 1601 – 20 February 1681) was a Spanish philosopher and Jesuit, considered a pioneer in the fields of combinatorics and mathematical logic.

Biography

Sebastián Izquierdo was born on 29 January 1601 at Alcaraz, in the Castilian province of Albacete.[2] He joined the Jesuits on November 17, 1623 and studied at the Jesuit college in Alcalá de Henares and the prestigious Colegio Imperial de Madrid.[3] He taught Philosophy and Theology at Alcalá, Murcia and Madrid and became Rector of the colleges of Murcia and Madrid. The environment at these colleges was brimming with renewed interest in the work of the Catalonian philosopher Ramon Llull emphasizing theoretical mathematics, combinatorics, and methodology of science.[4] In 1659, he published in Lyon his monumental philosophical work Pharus scientiarum (The Lighthouse of Sciences), which was widely disseminated throughout Europe. Two years later, he left for Rome in order to attend the eleventh General Congregation of the Society of Jesus, at which time he was named assistant to the Superior General for Spain and the West Indies. In Rome he befriended among others the well-known German polymath Athanasius Kircher.[3] In 1664 he published there the first part of his Opus Teologicum, and in 1670 the second part. He died in Rome on 20 February 1681.[3]

Philosophy

Although Izquierdo is virtually forgotten nowadays, he was an important figure 17th-century philosophy. Izquierdo was a follower of the Spanish medieval philosopher Ramon Llull.[5] He was also strongly influenced by Bacon's empiricism.[5] In his Pharus scientiarum he emphasized the need for a universal science that could be valid for all human knowledge (scientia de scientia or arte general del saber).[5] It would be akin to the manner in which the Lullian Ars Magna was applicable to the entire ladder of creation. At the same time, Izquierdo advocated mathematizing the ars lulliana, and in the course of his exposition illustrates how Llull's letter combinations could be replaced by number combinations.[6] According to Izquierdo only the mathematization of the Lullian ars combinandi could make it possible to create that unique instrument of all the sciences 'by means of which the edifice of science can be constructed and can grow infinitely'.[7] The German Jesuit Athanasius Kircher, inflenced by the Pharus scientiarum, wrote his immense Ars magna sciendi an attempt to make the Lullian Ars a "science of science" suitable for the preparation of an encyclopedia of all human knowledge.[8]

Historians of mathematics remember Izquierdo especially in connection with combinatorics, to which he devoted Disputation 29 (De Combinatione). He was the first to discuss the number of k-combinations from a given set of n elements.[9] Izquierdo influenced several contemporary philosophers, such as the Spanish Juan Caramuel and Tomás Vicente Tosca and the German Gaspar Knittel and Gottfried Wilhelm Leibniz; the latter, in particular, quoted the Disputatio de Combinatione, in his De Arte Combinatoria (1666).[10] The Disputatio 29 «De Combinatione», was rescued from oblivion and studied in depth by the Jesuit historian of philosophy Ramón Ceñal, who not only translated it from Latin but also carried out an exhaustive study of it published by the Instituto de España.[11]

Works

A prolific author, Izquierdo wrote philosophical, theological and ascetic works.

Notes

  1. Fuertes Herreros 1981, pp. 45-46.
  2. Carreras i Artau 1939, p. 305.
  3. 3.0 3.1 3.2 Díaz Díaz 1980, p. 345.
  4. Novotný 2017, p. 230.
  5. 5.0 5.1 5.2 Yates, Frances A. (2013). Art Of Memory. Routledge. p. 379. ISBN 9781136353611. https://books.google.com/books?id=MRFFAQAAQBAJ. 
  6. Rossi 1960, pp. 194-195.
  7. Rossi, Paolo (2006). Logic and the Art of Memory. The Quest for a Universal Language. Bloomsbury Publishing. p. 141. ISBN 9781847144614. 
  8. Rossi 1960, p. 196.
  9. Cf. Knuth, Donald Ervin (2006). The Art of Computer Programming, Volume 4, Fascicle 4: Generating All Trees: History of Combinatorial Generation. Boston: Addison-Wesley Professional. pp. 60–61. 
  10. Fuertes Herreros 1981, pp. 270-271.
  11. Ceñal, Ramón (1974). La combinatoria de Sebastián Izquierdo. Madrid: Instituto de España. 

Bibliography

On the life and ideas of Izquierdo, see:

For an extended study of Izquierdo's combinatory analysis and its influence, see: