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João Baptista Lavanha  
  
1371   09:20 صباحاً   date: 13-1-2016
Author : A C Canas
Book or Source : A obra náutica de João Baptista Lavanha
Page and Part : ...


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Date: 17-1-2016 1553
Date: 13-1-2016 1542
Date: 26-10-2015 1402

Born: 1555 in Lisbon, Portugal
Died: 31 March 1624 in Madrid, Spain

 

João Baptista Lavanha was born into a Jewish family. His father, Luis de Lavanha, was a gentleman in the Portuguese Court while nothing is known of his mother except her name, D Jerónima Dança. Nothing is known of Lavanha's childhood or is youth but he is said to have been sent by his patron, the king of Portugal D Sebastian (1554-1578), to study in Rome under the professor of mathematics there. It is believed that he entered the service of Sebastian in 1572 and studied in Rome between 1572 and 1578. During this period he wrote a book on astronomy, namely Taboas do lugar do Sol but it was not published until 1600. He was appointed by king Philip II (1527-1598) of Spain to be professor of mathematics in Madrid in 1582. Perhaps we should look at the background to see how this came about.

At the beginning of the 16th century, Spain and Portugal were both major sea powers conquering parts of the new world. Both were Roman Catholic countries and, particularly Spain, was a major force behind the Counter-reformation against the Protestant lands. Sebastian, who had become king of Portugal in 1557, dreamed that he might be able to lead new Crusades. His attempt at a Crusade was to invade North Africa in 1578 but his army was defeated by the Sultan of Morocco. The position of Portugal was greatly weakened by this defeat in which Sebastian was killed. Philip II had become king of Spain in 1556 but he also ruled over an empire including the Netherlands and Italy. The royal houses of Spain and Portugal were related by marriage and Philip II was an uncle of Sebastian of Portugal. Sebastian had tried to get Philip's support for his Morocco Crusade but Philip had other projects in mind and was not interesting in supporting Portugal. Philip II sent the Duke of Alba with an army to conquer Portugal in 1580 and he absorbed it into the Spanish empire. However, after conquering Portugal, he realised that Portugal was more advanced in the study of navigation than Spain. In an attempt to correct this, Philip founded an Academy of Mathematics in Madrid with Lavanha as its first professor. Lavanha was given his mission by Philip to:-

... take care of our Court ... in matters of cosmography, topography, and geography and to teach mathematics.

Philip II appointed a wide range of experts to the Academy of Mathematics in Madrid. There were cosmographers, military experts, architects together with civil and military engineers. The idea for the Academy had been due to Juan de Herrera (1530-1597), a mathematician and architect, who was appointed as its first director. Founded on 25 December 1582, it began operating in October 1583. The idea was that theoretical developments in mathematics should produce corresponding practical advances, both military and civil. Lavanha taught mathematics at the Academy from the time it began operating [2]:-

The 'Tratado del arte de navegar' contains notes from classes he taught at the Academy of Mathematics, in Madrid. Its content is essentially theoretical, based on work of Pedro Nunes ...

On 4 November 1586, Lavanha was appointed chief engineer to Philip II making him chief engineer of the Kingdom of Portugal. He took on these duties in addition to his teaching duties at the Academy. However, only a few years after the founding of the Academy, Spanish naval superiority was broken in 1588 when Philip II sent an Armada to invade England but was defeated by a smaller English fleet. Lavanha was appointed cosmographer to the king in 1591 (although he did not assume the full duties of that position for a few years) and about the same time he moved from Madrid to Lisbon where he taught mathematics to sailors and navigators. At this time he was paid a salary of 40,000 reales as cosmographer to the king in addition to 20,000 reales as professor of mathematics in Lisbon.

Lavanha returned to Madrid in 1599 when he was appointed royal historian to Philip III who succeeded to the throne on the death of his father Philip II in 1598. Lavanha was given a special task of writing the history of the Spanish royal family. He travelled to Flanders to gather information for this project and remained there during 1600-01. There he was able to find information about the Austrian royal family as part of the history, piecing together the complicated way that the royals had married over the years. In fact Lavanha himself had married in the 1590s. His wife was Leonarda de Mesquita and together they had six children.

Lavanha is best known for his contributions to navigation. His book Regimento nautico (1595) is [2]:-

... a work printed by Lavanha shortly after being appointed chief cosmographer of Portugal. The text provides pilots with the knowledge needed to performing their tasks.

In the same year he published a further two books, Tratado da gnómica and Tratado do Astrolábio on the use of the quadrant and the astrolabe. Lavanha gives rules for determining latitude and tables of declination of the Sun. Theoretical work on the construction of ships was one of his tasks as cosmographer to the king. This role he fulfilled in 1598 by writing down a set of rules to be followed in constructing ships which were designed to sail to India. Around two years later he published Livro Primeiro de Architectura Naval in which he argues that ship design must be based on modelling and he stressed the importance of the use of mathematics in the design process. He also worked on maps, producing some interesting new ideas. He began work on a map of Aragon in about 1611 by making a series of geodesic measurements [1]:-

To determine the coordinates of the fundamental points of the map Lavanha used a goniometer of his own design. This instrument was later perfected and proved very useful in surveying.

In fact he was one of the first to use this method of making a map and he completed his map of Aragon in 1615. It was remarkable for its accuracy and it would be over 150 years before a more accurate map of this region was produced. In addition to the map, he had produced a political description of the country in Itenerário do reyno de Aragao (1611-12) which consists of the notes he made while travelling round the district making measurements for the map. Another work by Lavanha in this area is his Compendio de Geografia.

Lavanha also studied instruments used in navigation, constructing astrolabes, quadrants and compasses. He also devised a new navigational instrument. He worked on hydraulic projects, in particular working on the Esgueva and Pisuerga rivers in the vicinity of the city of Valladolid (the capital of Spain until 1561, which is situated at the confluence of these two rivers) in 1604-06, working on a project related to the river Douro in 1606 (the third longest river in the Iberian Peninsula), and then working on a project to bring water to the city of Lisbon in 1618. Lavanha taught mathematics to many leading people including Prince Emmanuel Filiberto of Sabóia (1528-1580) (who was Duke of Savoy from 1553 to 1580), the famous novelist, poet and playwright Miguel de Cervantes (1547-1616), the dramatist and poet Félix Arturo Lope de Vega (1562-1635), and Philip IV (1605-1665) of Spain before he ascended to the throne of Spain in 1621.

Among Lavanha's publications was a translation of Euclid (1584), the tables of the sun Taboas do lugar do So (1600), and a work containing all the mathematical facts a learned man needed to know, Descripción del Universo (1613).

In 1609, Lavanha joined the Order of Christ which, given his Jewish origins, caused some criticism. King Sebastian had been Grand Master of the Order and, at that time, members had been divided into two classes, namely lay members and military members. To make Lavanha's position secure, Philip III directly intervened to support him against the criticism. He was appointed as chief chronicler of Portugal on 9 March 1618 on a salary of 100,000 reales. One might have thought that such a distinguished man who had held so many important positions for his country, would have ended his days well-off. However, when he died in Madrid in 1624 he was heavily in debt.


 

  1. L de Alburquerque, Biography in Dictionary of Scientific Biography (New York 1970-1990). 
    http://www.encyclopedia.com/doc/1G2-2830902501.html

Books:

  1. A C Canas, A obra náutica de João Baptista Lavanha (c.1550-1624) (Ph.D. thesis. University of Lisbon, Portugal, 2011).
  2. A Cortesäo and A Mota, Portugaliae Monumenta Cartographica 4 (Lisbon, 1960).
  3. C R A Esteves, O Livro Primeiro de Architectura Naval de João Baptista Lavanha e a arquitectura naval ibérica no final do século XVI, princ’pios do XVII, O perfil do arquitecto naval (M.A. dissertation, University of Lisbon, Portugal, 2011).
  4. J A Saqnchez Perez, Monografia sobre João Baptista Lavanha (Madrid, Academia de Ciencias Exactas, Fisicas y Naturales, 1934).
  5. J Steffy, Wooden ship building and the interpretation of shipwrecks (Texas A&M University Press, College Station, 1994).

Articles:

  1. A P U Artur, Aportações à Biografia de João Baptista Lavanha. Separata da Revista da Universidade de Coimbra 36 (1991), 395-408.
  2. J Barata, O Livro Primeiro da Architectura Naval de João Baptista Lavanha, Ethnos 4 (Lisbon, 1965).
  3. J Coates, The naval architecture of European oared ships, Transactions of the Royal Institution of Naval Architects 136(B) (1994), 175-187.
  4. A Cortesäo, João Baptista Lavanha, in Cartografia e cartografos portugueses dos séculos XVI e XVII II (Lisbon, 1935), 294-361.
  5. F C Domingues, Lavanha, João Baptista, in Dicionário de História dos Descobrimentos, Albuquerque, Luis de (dir), Coord. Francisco Contente Domingues, 2 vols. (Circulo de Leitores/Caminho, Lisbon, 1994), 586-588.
  6. P Monteiro, João Baptista Lavanha. 
    http://nautarch.tamu.edu/shiplab/treatisefiles/tt-lavanha-pmonteiro.htm

 




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يعتبر علم المثلثات Trigonometry علماً عربياً ، فرياضيو العرب فضلوا علم المثلثات عن علم الفلك كأنهما علمين متداخلين ، ونظموه تنظيماً فيه لكثير من الدقة ، وقد كان اليونان يستعملون وتر CORDE ضعف القوسي قياس الزوايا ، فاستعاض رياضيو العرب عن الوتر بالجيب SINUS فأنت هذه الاستعاضة إلى تسهيل كثير من الاعمال الرياضية.

تعتبر المعادلات التفاضلية خير وسيلة لوصف معظم المـسائل الهندسـية والرياضـية والعلمية على حد سواء، إذ يتضح ذلك جليا في وصف عمليات انتقال الحرارة، جريان الموائـع، الحركة الموجية، الدوائر الإلكترونية فضلاً عن استخدامها في مسائل الهياكل الإنشائية والوصف الرياضي للتفاعلات الكيميائية.
ففي في الرياضيات, يطلق اسم المعادلات التفاضلية على المعادلات التي تحوي مشتقات و تفاضلات لبعض الدوال الرياضية و تظهر فيها بشكل متغيرات المعادلة . و يكون الهدف من حل هذه المعادلات هو إيجاد هذه الدوال الرياضية التي تحقق مشتقات هذه المعادلات.