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Taqi ad-Din Muhammad ibn Ma'ruf

March 09, 2023

"Ibn Ma'ruf" redirects here. For the 10th-century chief qadi of Iraq, see Abu Muhammad Ubaydallah ibn Ahmad ibn Ma'ruf.

Taqi ad-Din Muhammad ibn Ma'ruf ash-Shami al-Asadi (Arabic: تقي الدين محمد بن معروف الشامي; Ottoman Turkish: تقي الدين محمد بن معروف الشامي السعدي; Turkish: Takiyüddin‎ 1526–1585) was an Ottoman polymath active in Cairo and Istanbul. He was the author of more than ninety books on a wide variety of subjects, including astronomy, clocks, engineering, mathematics, mechanics, optics and natural philosophy.[1]

Taqi al-Din
Work in the observatory of Taqi ad-Din
Born1526
Damascus, Ottoman Empire
Died1585
Istanbul, Ottoman Empire
Known forConstantinople observatory
Scientific career
FieldsMathematics, astronomy, engineering, mechanics, optics, natural philosophy

In 1574 the Ottoman Sultan Murad III invited Taqi ad-Din to build an observatory in the Ottoman capital, Istanbul. Using his exceptional knowledge in the mechanical arts, Taqi ad-Din constructed instruments like huge armillary and mechanical clocks that he used in his observations of the Great Comet of 1577. He also used European celestial and terrestrial globes that were delivered to Istanbul in gift exchanges.

The major work that resulted from his work in the observatory is titled "The tree of ultimate knowledge [in the end of time or the world] in the Kingdom of the Revolving Spheres: The astronomical tables of the King of Kings [Murad III]" (Sidrat al-muntah al-afkar fi malkūt al-falak al-dawār– al-zij al-Shāhinshāhi). The work was prepared according to the results of the observations carried out in Egypt and Istanbul in order to correct and complete Ulugh Beg's Zij as-Sultani. The first 40 pages of the work deal with calculations, followed by discussions of astronomical clocks, heavenly circles, and information about three eclipses which he observed at Cairo and Istanbul. For corroborating data of other observations of eclipses in other locales like Daud ar-Riyyadi (David the Mathematician), David Ben-Shushan of Salonika.

As a polymath, Taqi al-Din wrote numerous books on astronomy, mathematics, mechanics, and theology. His method of finding coordinates of stars were reportedly so precise that he got better measurements than his contemporaries, Tycho Brahe and Nicolas Copernicus. Brahe is also thought to have been aware of Taqi al-Din's work.[2]

Taqi ad-Din also described a steam turbine with the practical application of rotating a spit in 1551.[3] He worked on and created astronomical clocks for his observatory.[4] Taqi ad-Din also wrote a book on optics, in which he determined the light emitted from objects, proved the Law of Reflection observationally, and worked on refraction.[5]

Biography

 
Observation of a comet from Istanbul (1577)

Taqī al-Dīn was born in Damascus in 1526 according to most sources. His ethnicity has been described as Ottoman Arab,[6] Ottoman Turkish[7][8] and Ottoman Syrian.[9] In his treatise, titled "Rayḥānat al-rūḥ", Taqī al-Dīn himself claimed descent from the Ayyubids[10][11] tracing his lineage back to the Ayyubid prince Nasir al-Din Mankarus ibn Nasih al-Din Khumartekin who ruled Abu Qubays in Syria during the 12th century.[12] The Encyclopaedia of Islam makes no mention of his ethnicity, simply calling him, "...the most important astronomer of Ottoman Turkey".[13]

Taqi ad-Din's education started in theology and as he went on he would gain an interest in the rational sciences. Following his interest, he would begin to study the rational sciences in Damascus and Cairo. During that time he studied alongside his father Maʿruf Efendi. Al-Dīn went on to teach at various madaris and served as a qadi, or judge, in Palestine, Damascus, and Cairo. He stayed in Egypt and Damascus for some time and while he was there he created work in astronomy and mathematics. His work in these categories would eventually become important. He became a chief astronomer to the Sultan in 1571 a year after he came to Istanbul, replacing Mustafa ibn Ali al-Muwaqqit.[14][3]

Taqī al-Dīn maintained a strong bond with the people from the Ulama and statesmen. He would pass on information to Sultan Murad III who had an interest in astronomy but also in astrology. The information stated that Ulugh Beg Zij had particular observational errors. Al-Dīn made a suggestions that those errors could be fixed if there were new observations made. He also suggested that an observatory should be created in Istanbul to make that situation easier. Murad III would become a patron of the first observatory in Istanbul. He preferred that construction for the new observatory begin immediately. Since Murad III was the patron he would assist with finances for the project.[14]

Taqī al-Dīn continued his studies at the Galata Tower while this was going on. His studies would continue until 1577 at the nearly complete observatory, which was called Dar al-Rasad al-Jadid. This new observatory contained a library that held books which covered astronomy and mathematics. The observatory, built in the higher part of Tophane in Istanbul, was made of two separate buildings. One building was big and the other one was small. Al-Dīn possessed some of the instruments used in the old Islamic observatories. He had those instruments reproduced and also created new instruments which would be used for observational purposes. The staff at the new observatory consisted of sixteen people. Eight of them were observers or rasids, four of them were clerks, and the last four were assistants.[14]

Taqī al-Dīn approached his observations in a creative way and created new answers to astronomical problems due to the new strategies he created along with the new equipment he created as well. He would go on to create trigonometric tables based on decimal fractions. These tables placed the ecliptic at 23° 28' 40". The current value was 23° 27' showing that al-Dīn's instruments and methods were more precise. Al-Dīn used a new method to calculate solar parameters and to determine the magnitude of the annual movement of the sun's apogee as 63 seconds. The known value today is 61 seconds. Copernicus came up with 24 seconds and Tycho Brahe had 45 seconds but al-Dīn was more accurate than both.[14]

 
Ottoman observatory astronomers and astrologers headed by the müneccimbaşı (chief astrologer) using a quadrant.

The main purpose behind the observatory was to cater to the needs of the astronomers and provide a library and workshop so they could design and produce instruments. This observatory would become one of the largest ones in the Islamic world. It was complete in 1579. It would go on to run until January 22, 1580 which is when it was destroyed. Some say religious arguments was the reason why it was destroyed, but it really came down to political problems. A report by the grand vizier Sinan Pasha to Sultan Murad III goes into how the Sultan and the vizier attempted to keep Taqī Ad-Dīn away from the ulama because it seemed like they wanted to take him to trial for heresy. The vizier informs the sultan that Taqī Ad-Dīn wanted to go to Syria regardless of the sultan's orders. The vizier also warned the sultan that if Taqī Ad-Dīn went there, there is a possibility that he would be noticed by the ulama who would take him to trial.[14]

Despite Taqī al-Dīn's originality, his influence seemed to be limited. There are only a small number of surviving copies of his works so they were not able to reach a wide variety of people. His commentaries that are known are very few. However, one of his works and a piece of a library that he owned reached western Europe pretty quickly. This was due to the manuscript collecting efforts of Jacob Golius, a Dutch professor of Arabic and mathematics at Leiden University. Golius traveled to Istanbul in the early seventeenth century. In 1629 he wrote a letter to Constantijn Huygens that talks about seeing Taqī Ad-Dīn's work on optics in Istanbul. He argued that he was not able to get ahold of it from his friends even after all his efforts. He must have succeeded in acquiring it later since Taqī al-Dīn's work on optics would eventually make it to the Bodleian Library as Marsh 119. It was originally in the Golius collection so it is clear that Golius eventually succeeded at acquiring it.[14]

According to Salomon Schweigger, the chaplain of Habsburg ambassador Johann Joachim von Sinzendorf, Taqi al-Din was a charlatan who deceived Sultan Murad III and had him spent enormous resources.[15]

At the age of 59, after authoring more than ninety books, Taqī al-Dīn passed away in 1585.[16]

The Constantinople Observatory

Taqī al-Dīn was both the founder and director of the Constantinople Observatory, which is also known as the Istanbul Observatory.[17] This observatory is frequently said to be one of Taqī al-Dīn's most important contributions to sixteenth-century Islamic and Ottoman astronomy.[3] In fact, it is known as one of the largest observatories in Islamic history. It is often compared to Tycho Brahe's Uraniborg Observatory, which was said to have been the home to the best instruments of its time in Europe. As a matter of fact, Brahe and Taqī al-Dīn have frequently been compared for their work in sixteenth-century astronomy.[3] The founding of the Constantinople Observatory began when Taqī al-Dīn returned to Istanbul in 1570, after spending 20 years in Egypt developing his astronomy and mathematical knowledge.[17] Shortly after his return, Sultan Selīm II appointed Taqī al-Dīn as the head astronomer (Müneccimbast), following the death of the previous head astronomer Muṣṭafā ibn ҁAlī al-Muwaqqit in 1571.[17]

During the early years of his position as head astronomer, Taqī al-Dīn worked in both the Galata Tower and a building overlooking Tophane.[17] While working in these buildings, he began to gain the support and trust of many important Turkish officials. These newfound relationships lead to an imperial edict in 1569 from Sultan Murad III, which called for the construction of the Constantinople Observatory. This observatory became home to many important books and instruments, it had sixteen assistants who helped with the making of scientific instruments, as well as many renowned scholars of the time.[16] While there is not much known of the architectural characteristics of the building, there are many depictions of the scholars and astronomical instruments present in the observatory. It was from this observatory that Taqī al-Dīn discovered the Great Comet of 1577, Murad III taught of the comet as a bad omen on the war with the Safavids (he also blamed Taqī al-Dīn for the plague that was occurring at the time).[16] Due to political conflict, this observatory was short lived.[18] It was closed in 1579 and, was demolished entirely by the state on 22 January 1580, only 11 short years after the imperial edict which called for its construction.[17]

Politics

The rise and fall of Taqī al-Dīn and his observatory depended on political issues that surrounded him. Due to his father's occupation as a professor at the Damascene College of law Taqī al-Dīn spent much of his life in Syria and Egypt. During his trips to Istanbul he was able to make connections with many scholar-jurists. He was also able to use the private library of the Grand Vizier of the time, Semiz Ali Pasha. He then began working under Sultan Murad III's new Grand Vizier's, private mentor Sa'deddin. Continuing his research on observations of the heavens while in Egypt Taqī al-Dīn used the Galata tower and Sa'deddin's private residence. Although Murad III was the one who commanded an observatory to be built it was actually Sa'deddin who brought the idea to him knowing about his interest in science.[19] The Sultan ultimately would provide Taqī al-Dīn with everything he needed from financial assistance for the physical buildings, to intellectual assistance making sure he had easy access to many types of books he would need. When the Sultan decided to create the observatory he saw it as a way to show off the power his monarchy had besides just financially backing it. Murad III showed his power by bringing Taqī al-Dīn and some of the most accomplished men in the field of astronomy together to work towards one goal and not only have them work well together but also make progress in the field.[19] Murad III made sure that there was proof of his accomplishments by having his court historiographer Seyyid Lokman keep very detailed records of the work going on at the observatory. Seyyid Lokman wrote that his sultan's monarchy was much more powerful than others in Iraq, Persia, and Anatolia.[19] He also claimed that Murad III was above other monarchs because the results of the observatory were new to the world and replaced many others.[19]

Instruments used at the Observatory

Taqī al-Dīn used a variety of instruments to aid in his work at the observatory. Some were instruments that were already in use from European Astronomers while others he invented himself. While working in this observatory, Taqī al-Dīn not only operated many previously created instruments and techniques, but he also developed numerous new ones.[17] Of these novel inventions, the automatic-mechanical clock is regarded as one of the most important developed in the Constantinople Observatory.[3]

  • Each of these instruments were first described by Ptolemy.[17]
  • These instruments were created by Muslim astronomers.[17]
    • A Mural quadrant, a type of mural Instrument for measuring angles from 0 to 90 degrees.
    • An Azimuthally Quadrant
  • Each of the instruments were created by Taqi al-Din to use for his own work.[17]
    • A Parallel ruler
    • A Ruler Quadrant or Wooden Quadrant an instrument with two holes for the measurement of apparent diameters and eclipses.
    • A mechanical clock with a train of cogwheels which helped measure the true ascension of the stars.
    • Muşabbaha bi'l-menatık, an instrument with chords to determine the equinoxes, invented to replace the equinoctial armillary.[4]
  • A Sunaydi Ruler which was apparently a special type of instrument of an auxiliary nature, the function of which was explained by Alaeddin el-Mansur[20]

Contributions

Clock mechanics

Rise of clock use in the Ottoman Empire

Before the sixteenth century European mechanical clocks were not in high demand. This lack of demand was brought on by the extremely high prices and the lack of preciseness needed by the population who had to calculate when they would have to have the prayer. The use of hourglasses, water clocks, and sundials was more than enough to meet their needs.[21]

It was not until around 1547 that the Ottomans started creating a high demand for them. Initially, it was started by the gifts brought by the Austrians but this would end up starting a market for the clocks. European clockmakers began to create clocks designed to the tastes and needs of the Ottoman people. They did this by showing both the phases of the moon and by utilizing Ottoman numbers.[21]

Taqī al-Dīn's work

Due to this high demand for mechanical clocks, Taqī al-Dīn was asked by the Grand Vizier to create a clock that would show exactly when the call to prayer was. This would lead him to write his first book on the construction of mechanical clocks called, "al-Kawakib al-Durriya fi Bengamat al-Dawriyya" in 1563 A.D. which he used throughout his research at the short-lived observatory.[22] He believed that it would be advantageous to bring a "true hermetic and distilled perception of the motion of the heavenly bodies."[23] In order to get a better understanding of how clocks ran Taqī al-Dīn took the time to gain knowledge from many European clock makers as well as going into the treasury of Semiz Ali Pasha and learning anything he could from the many clocks he owned.[21]

Types of clocks examined

Of the clocks in the Grand Vizier's treasury Taqī al-Dīn examined three different types. Those three were weight-driven, spring-driven, and driven by lever escapement. He wrote of these three types of watches but also made comments on pocket watches and astronomical ones. As Chief Astronomer, Taqī al-Dīn created a mechanical astronomical clock. This clock was made to permit more precise measurements at the Constantinople observatory. As stated above the creation of this clock was thought to be one of the most important astronomical discoveries of the sixteenth century. Taqī al-Dīn constructed a mechanical clock with three dials which show the hours, minutes, and seconds, with each minute consisting of five seconds.[4] After this clock it is not known whether Taqī al-Dīn's work in mechanical clocks was ever continued, given that much of the clockmaking after that time in the Ottoman Empire was taken over by Europeans.

Steam

In 1551 Taqī al-Dīn described a self-rotating spit that is important in the history of the steam turbine. In Al-Turuq al-samiyya fi al-alat al-ruhaniyya (The Sublime Methods of Spiritual Machines) al-Dīn describes this machine as well as some practical applications for it. The spit is rotated by directing steam into the vanes which then turns the wheel at the end of the axle.[24] Al-Dīn also described four water-raising machines. The first two are animal driven water pumps. The third and fourth are both driven by a paddle wheel. The third is a slot-rod pump while the fourth is a six-cylinder pump. The vertical pistons of the final machine are operated by cams and trip-hammers, run by the paddle wheel.[24] The descriptions of these machines predates many of the more modern engines. The screw pump, for example, that al-Dīn describes predates Agricola, whose description of the rag and chain pump was published in 1556. The two pump engine, which was first described by al-Jazarī, was also the basis of the steam engine.[25]

Important works

Astronomy

  • Sidrat muntahā al-afkār fī malakūt al-falak al-dawwār (al-Zīj al-Shāhinshāhī): this is said to be one of Taqī al-Dīn's most important works in astronomy. He completed this book on the basis of his observations in both Egypt and Istanbul. The purpose of this work was to improve, correct, and ultimately complete Zīj-i Ulugh Beg, which was a project devised in Samarkand and furthered in the Constantinople Observatory. The first 40 pages of his writing focus on trigonometric calculations, with emphasis on trigonometric functions such sine, cosine, tangent, and cotangent.[17]
  • Jarīdat al-durar wa kharīdat al-fikar is a zīj that is said to be Taqī al-Dīn's second most important work in astronomy. This zīj contains the first recorded use of decimal fractions and trigonometric functions in astronomical tables. He also gives the parts of degree of curves and angles in decimal fractions with precise calculations.[17]
  • Dustūr al-tarjīḥ li-qawā ҁ id al-tasṭīḥ is another important work by Taqī al-Dīn, which focuses on the projection of a sphere into a plane, among other geometric topics.
  • Taqī al-Din is also accredited as the author of Rayḥānat al-rūḥ fī rasm al- ҁ āt ҁ alā mustawī al-suṭūḥ, which discusses sundials and their characteristics drawn on a marble surface.[17]

Clocks and mechanics

  • al-Kawākib al-durriyya fī waḍ ҁ al-bankāmāt al-dawriyya was written by Taqī al-Dīn in 1559 and addressed mechanical-automatic clocks. This work is considered the first written work on mechanical-automatic clocks in the Islamic and Ottoman world. In this book, he accredits Alī Pasha as a contributor for allowing him to use and study his private library and collection of European mechanical clocks.[17]
  • al-Ṭuruq al-saniyya fī al-ālāt al-rūḥāniyya is a second book on mechanics by Taqī al-Dīn that emphasizes the geometrical-mechanical structure of clocks, which was a topic previously observed and studied by Banū Mūsā and Ismail al-Jazari (Abū al-ҁIzz al-Jazarī).[17]

Physics and optics

  • Nawr ḥadīqat al-abṣar wa-nūr ḥaqīqat al-Anẓar was a work of Taqī al-Dīn that discussed physics and optics. This book discussed the structure of light, the relationship between light and color, as well as diffusion and global refraction.[17]

See also

Notes

  1. ^ "Taqi al-Din Ibn Ma'ruf: A Bio-Bibliographical Essay | Muslim Heritage". muslimheritage.com. Retrieved 2018-04-24.
  2. ^ Ágoston, Gábor; Masters, Bruce Alan. Encyclopedia of the Ottoman Empire Infobase Publishing, 2009. p. 552 ISBN 0-8160-6259-5
  3. ^ a b c d e Tekeli, Sevim (2008). "Taqī Al-Dīn". Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures. Springer, Dordrecht. pp. 2080–2081. doi:10.1007/978-1-4020-4425-0_9065. ISBN 978-1-4020-4559-2.
  4. ^ a b c Encyclopaedia of the history of science, technology, and medicine in non-western cultures. Selin, Helaine, 1946- (2nd ed.). Berlin: Springer. 2008. ISBN 9781402044250. OCLC 261324840.{{cite book}}: CS1 maint: others (link)
  5. ^ "Taqi al-Din ibn Ma'ruf and the Science of Optics: The Nature of Light and the Mechanism of Vision". muslimheritage.com.
  6. ^ Soucek, Svat (1994). "Piri Reis and Ottoman Discovery of the Great Discoveries". Studia Islamica. 79 (79): 121–142. doi:10.2307/1595839. JSTOR 1595839."Two such cases are Piri Reis (d.1554), an Ottoman Turk from Gallipoli, and Taqi al-Din (d.1585), an Ottoman Arab from Damascus. They form the symbolic pivot of my argument."
  7. ^ " Chief Astronomer Taqi al-Din was born to a family of Turkish descent in Damascus." Hoffmann, Dieter; İhsanoğlu, Ekmeleddin; Djebbar, Ahmed; Günergun, Feza. Science, technology, and industry in the Ottoman world in Volume 6 of Proceedings of the XXth International Congress of History of Science p. 19. Publisher Brepols, 2000. ISBN 2-503-51095-7
  8. ^ S. Frederick Starr (2 June 2015). Lost Enlightenment: Central Asia's Golden Age from the Arab Conquest to Tamerlane. Princeton University Press. pp. 509–510. ISBN 978-0-691-16585-1. Astronomy did not really get off the ground in Constantinople until 1576, when Taqi al-Din, a Damascus-born Turk and a gifted mathematician and astronomer, persuaded the sultan to fund an observatory patterned after Ulughbeg's (see plate 29).
  9. ^ Ibn Haytham, Nader el-Bizri, Medieval Science Technology and Medicine: An Encyclopedia, ed. Thomas F. Glick, Steven Livesey, Faith Wallis, (Taylor & Francis Group, 2005), 239;"..composed as a commentary on Kamal al-Din's "Tanqih" by Taqi al-Din Muhammad ibn Ma'ruf, the Syrian astronomer at the Ottoman court".
  10. ^ Akkach, Samer; السياسات, المركز العربي للأبحاث ودراسة (2017). مرصد اسطنبول: هدم الرصد ورصد الهدم. تطور ثقافة العلوم في الإسلام بعد كوبرنيكوس / Istanbul Observatory: The Ethos of Science in Islam in the Post-Copernican Period. p. 87.
    Taqi ad-Din lineage as recorded by himself in his Rayḥānat al-rūḥ:
    "تقي الدين محمد بن معروف بن أحمد بن محمد بن محمد بن أحمد بن يوسف ابن الأمير ناصر الدين منكويرس ابن الأمير ناصح الدين خمارتكين" "Taqi al-Din Muhammad ibn Ma'ruf ibn Ahmed ibn Muhammad ibn Muhammad ibn Ahmed ibn Yusuf ibn Nasir al-Din Mankarus ibn Nasih al-Din Khumartekin"
  11. ^ Chaarani, Mona SANJAKDAR (2019), تقي الدين محمد بن معروف الدمشقي - حياته وأعماله. (PDF), p. 1
  12. ^ Lyons, Malcolm Cameron; Jackson, D. E. P. (1984). Saladin: The Politics of the Holy War. Cambridge University Press. p. 195.
  13. ^ King, D.A. (2000). "Taḳī al- Dīn". In Bearman, P. J.; Bianquis, Th.; Bosworth, C. E.; van Donzel, E. & Heinrichs, W. P. (eds.). The Encyclopaedia of Islam, Second Edition. Volume X: T–U. Leiden: E. J. Brill. p. 132. ISBN 978-90-04-11211-7.
  14. ^ a b c d e f Ayduz, Salim. Taqī al-Dīn ibn Maʿrūf. The Oxford Encyclopedia of Philosophy, Science, and Technology in Islam. Oxford Islamic Studies Online.
  15. ^ Salomon Schweigger, Ein newe Reyssbeschreibung auss Teutschland nach Constantinopel und Jerusalem (Graz, 1964), 90–1.
  16. ^ a b c Darke, Diana (2022). "Chapter 5". The Ottomans: A Cultural Legacy. Thames & Hudson. ISBN 978-0-500-77753-4.
  17. ^ a b c d e f g h i j k l m n o Fazlıoğlu, İhsan (2014). "Taqī al-Dīn Abū Bakr Muḥammad ibn Zayn al-Dīn Maҁrūf al-Dimashqī al-Ḥanafī". Biographical Encyclopedia of Astronomers. Springer, New York, NY. pp. 2123–2126. doi:10.1007/978-1-4419-9917-7_1360. ISBN 978-1-4419-9916-0.
  18. ^ Casale, Giancarlo (2010). The Ottoman Age of Exploration. New York City: Oxford University Press. pp. 162. ISBN 978-0-19-537782-8.
  19. ^ a b c d Tezcan, Baki. "Some Thoughts on the Politics of Early Modern Ottoman Science." Osmanlı Araştırmaları 36, no. 36 (2010).
  20. ^ İHSANOĞLU, Ekmeleddin (2004). "Science in the Ottoman Empire" (PDF).
  21. ^ a b c ihsanoglu, Ekmeleddin (2004). Science, Technology, and Learning in the Ottoman Empire. Burlington, VT: Ashgate Publishing Company. p. 20. ISBN 978-0-86078-924-6.
  22. ^ Stolz, Daniel A. "POSITIONING THE WATCH HAND: 'ULAMA' AND THE PRACTICE OF MECHANICAL TIMEKEEPING IN CAIRO, 1737–1874." 47, no. 3 (2015): 489-510.
  23. ^ Avner, Ben-Zaken (2004). "The Heavens of the Sky and the Heavens of the Heart: The Ottoman Cultural Context for the Introduction of Post-Copernican Astronomy". The British Journal for the History of Science. 37 (1): 1–28. doi:10.1017/S0007087403005302. JSTOR 4028254. S2CID 171015647.
  24. ^ a b Hill, Donald R. (1978). "Review of Taqī-al-Dīn and Arabic Mechanical Engineering. With the Sublime Methods of Spiritual Machines. An Arabic Manuscript of the Sixteenth Century". Isis. 69 (1): 117–118. doi:10.1086/351968. JSTOR 230643.
  25. ^ Hassani, A. M. (1979). "Arab Scientists Revisited: Ibn Ash-Shatir and Taqi ed-Din". History of Science. 17: 135–140. Bibcode:1979HisSc..17..135H. doi:10.1177/007327537901700203. S2CID 163964366 – via NASA Astrophysics Data System.

Further reading

  • Ben-Zaken, Avner. "The Revolving Planets and the Revolving Clocks: Circulating Mechanical Objects in the Mediterranean", History of Science, xlix (2010), pp. 125-148.
  • Ben-Zaken, Avner. Cross-Cultural Scientific Exchanges in the Eastern Mediterranean 1560-1660 (Johns Hopkins University Press, 2010), pp. 8-47.
  • King, David A. (2000). "Taḳī al-Dīn". In Bearman, P. J.; Bianquis, Th.; Bosworth, C. E.; van Donzel, E. & Heinrichs, W. P. (eds.). The Encyclopaedia of Islam, Second Edition. Volume X: T–U. Leiden: E. J. Brill. pp. 132–133. ISBN 978-90-04-11211-7.
  • King, David A. (1986). A Survey of the Scientific manuscripts in the Egyptian National Library. Vol. 5. Winona Lake, IN, USA: American Research Center in Egypt. pp. 171–2.
  • Hassan, Ahmad Y (1976). Taqi al-Din and Arabic Mechanical Engineering. Institute for the History of Arabic Science, Aleppo University.
  • Gautier, Antoine (December 2005). "L'âge d'or de l'astronomie ottomane". L'Astronomie. 119.
  • Tekeli, Sevim. (2002). Second edition, Ankara: T. C. Kültür Bakanlıgi.
  • Unat, Yavuz, "Time in The Sky of Istanbul, Taqî al Dîn al-Râsid's Observatory", Art and Culture Magazine, Time in Art, Winter 2004/Issue 11, pp. 86–103.

External links

  • Fazlıoğlu, İhsan (2007). "Taqī al-Dīn Abū Bakr Muḥammad ibn Zayn al-Dīn Maʿrūf al-Dimashqī al-Ḥanafī". In Thomas Hockey; et al. (eds.). The Biographical Encyclopedia of Astronomers. New York: Springer. pp. 1122–3. ISBN 978-0-387-31022-0. (PDF version)

March 09, 2023
taqi, muhammad, redirects, here, 10th, century, chief, qadi, iraq, muhammad, ubaydallah, ahmad, shami, asadi, arabic, تقي, الدين, محمد, بن, معروف, الشامي, ottoman, turkish, تقي, الدين, محمد, بن, معروف, الشامي, السعدي, turkish, takiyüddin, 1526, 1585, ottoman, . Ibn Ma ruf redirects here For the 10th century chief qadi of Iraq see Abu Muhammad Ubaydallah ibn Ahmad ibn Ma ruf Taqi ad Din Muhammad ibn Ma ruf ash Shami al Asadi Arabic تقي الدين محمد بن معروف الشامي Ottoman Turkish تقي الدين محمد بن معروف الشامي السعدي Turkish Takiyuddin 1526 1585 was an Ottoman polymath active in Cairo and Istanbul He was the author of more than ninety books on a wide variety of subjects including astronomy clocks engineering mathematics mechanics optics and natural philosophy 1 Taqi al DinWork in the observatory of Taqi ad DinBorn1526Damascus Ottoman EmpireDied1585Istanbul Ottoman EmpireKnown forConstantinople observatoryScientific careerFieldsMathematics astronomy engineering mechanics optics natural philosophyIn 1574 the Ottoman Sultan Murad III invited Taqi ad Din to build an observatory in the Ottoman capital Istanbul Using his exceptional knowledge in the mechanical arts Taqi ad Din constructed instruments like huge armillary and mechanical clocks that he used in his observations of the Great Comet of 1577 He also used European celestial and terrestrial globes that were delivered to Istanbul in gift exchanges The major work that resulted from his work in the observatory is titled The tree of ultimate knowledge in the end of time or the world in the Kingdom of the Revolving Spheres The astronomical tables of the King of Kings Murad III Sidrat al muntah al afkar fi malkut al falak al dawar al zij al Shahinshahi The work was prepared according to the results of the observations carried out in Egypt and Istanbul in order to correct and complete Ulugh Beg s Zij as Sultani The first 40 pages of the work deal with calculations followed by discussions of astronomical clocks heavenly circles and information about three eclipses which he observed at Cairo and Istanbul For corroborating data of other observations of eclipses in other locales like Daud ar Riyyadi David the Mathematician David Ben Shushan of Salonika As a polymath Taqi al Din wrote numerous books on astronomy mathematics mechanics and theology His method of finding coordinates of stars were reportedly so precise that he got better measurements than his contemporaries Tycho Brahe and Nicolas Copernicus Brahe is also thought to have been aware of Taqi al Din s work 2 Taqi ad Din also described a steam turbine with the practical application of rotating a spit in 1551 3 He worked on and created astronomical clocks for his observatory 4 Taqi ad Din also wrote a book on optics in which he determined the light emitted from objects proved the Law of Reflection observationally and worked on refraction 5 Contents 1 Biography 2 The Constantinople Observatory 2 1 Politics 2 2 Instruments used at the Observatory 3 Contributions 3 1 Clock mechanics 3 1 1 Rise of clock use in the Ottoman Empire 3 1 2 Taqi al Din s work 3 1 3 Types of clocks examined 3 2 Steam 4 Important works 4 1 Astronomy 4 2 Clocks and mechanics 4 3 Physics and optics 5 See also 6 Notes 7 Further reading 8 External linksBiography Edit Observation of a comet from Istanbul 1577 Taqi al Din was born in Damascus in 1526 according to most sources His ethnicity has been described as Ottoman Arab 6 Ottoman Turkish 7 8 and Ottoman Syrian 9 In his treatise titled Rayḥanat al ruḥ Taqi al Din himself claimed descent from the Ayyubids 10 11 tracing his lineage back to the Ayyubid prince Nasir al Din Mankarus ibn Nasih al Din Khumartekin who ruled Abu Qubays in Syria during the 12th century 12 The Encyclopaedia of Islam makes no mention of his ethnicity simply calling him the most important astronomer of Ottoman Turkey 13 Taqi ad Din s education started in theology and as he went on he would gain an interest in the rational sciences Following his interest he would begin to study the rational sciences in Damascus and Cairo During that time he studied alongside his father Maʿruf Efendi Al Din went on to teach at various madaris and served as a qadi or judge in Palestine Damascus and Cairo He stayed in Egypt and Damascus for some time and while he was there he created work in astronomy and mathematics His work in these categories would eventually become important He became a chief astronomer to the Sultan in 1571 a year after he came to Istanbul replacing Mustafa ibn Ali al Muwaqqit 14 3 Taqi al Din maintained a strong bond with the people from the Ulama and statesmen He would pass on information to Sultan Murad III who had an interest in astronomy but also in astrology The information stated that Ulugh Beg Zij had particular observational errors Al Din made a suggestions that those errors could be fixed if there were new observations made He also suggested that an observatory should be created in Istanbul to make that situation easier Murad III would become a patron of the first observatory in Istanbul He preferred that construction for the new observatory begin immediately Since Murad III was the patron he would assist with finances for the project 14 Taqi al Din continued his studies at the Galata Tower while this was going on His studies would continue until 1577 at the nearly complete observatory which was called Dar al Rasad al Jadid This new observatory contained a library that held books which covered astronomy and mathematics The observatory built in the higher part of Tophane in Istanbul was made of two separate buildings One building was big and the other one was small Al Din possessed some of the instruments used in the old Islamic observatories He had those instruments reproduced and also created new instruments which would be used for observational purposes The staff at the new observatory consisted of sixteen people Eight of them were observers or rasids four of them were clerks and the last four were assistants 14 Taqi al Din approached his observations in a creative way and created new answers to astronomical problems due to the new strategies he created along with the new equipment he created as well He would go on to create trigonometric tables based on decimal fractions These tables placed the ecliptic at 23 28 40 The current value was 23 27 showing that al Din s instruments and methods were more precise Al Din used a new method to calculate solar parameters and to determine the magnitude of the annual movement of the sun s apogee as 63 seconds The known value today is 61 seconds Copernicus came up with 24 seconds and Tycho Brahe had 45 seconds but al Din was more accurate than both 14 Ottoman observatory astronomers and astrologers headed by the muneccimbasi chief astrologer using a quadrant The main purpose behind the observatory was to cater to the needs of the astronomers and provide a library and workshop so they could design and produce instruments This observatory would become one of the largest ones in the Islamic world It was complete in 1579 It would go on to run until January 22 1580 which is when it was destroyed Some say religious arguments was the reason why it was destroyed but it really came down to political problems A report by the grand vizier Sinan Pasha to Sultan Murad III goes into how the Sultan and the vizier attempted to keep Taqi Ad Din away from the ulama because it seemed like they wanted to take him to trial for heresy The vizier informs the sultan that Taqi Ad Din wanted to go to Syria regardless of the sultan s orders The vizier also warned the sultan that if Taqi Ad Din went there there is a possibility that he would be noticed by the ulama who would take him to trial 14 Despite Taqi al Din s originality his influence seemed to be limited There are only a small number of surviving copies of his works so they were not able to reach a wide variety of people His commentaries that are known are very few However one of his works and a piece of a library that he owned reached western Europe pretty quickly This was due to the manuscript collecting efforts of Jacob Golius a Dutch professor of Arabic and mathematics at Leiden University Golius traveled to Istanbul in the early seventeenth century In 1629 he wrote a letter to Constantijn Huygens that talks about seeing Taqi Ad Din s work on optics in Istanbul He argued that he was not able to get ahold of it from his friends even after all his efforts He must have succeeded in acquiring it later since Taqi al Din s work on optics would eventually make it to the Bodleian Library as Marsh 119 It was originally in the Golius collection so it is clear that Golius eventually succeeded at acquiring it 14 According to Salomon Schweigger the chaplain of Habsburg ambassador Johann Joachim von Sinzendorf Taqi al Din was a charlatan who deceived Sultan Murad III and had him spent enormous resources 15 At the age of 59 after authoring more than ninety books Taqi al Din passed away in 1585 16 The Constantinople Observatory EditTaqi al Din was both the founder and director of the Constantinople Observatory which is also known as the Istanbul Observatory 17 This observatory is frequently said to be one of Taqi al Din s most important contributions to sixteenth century Islamic and Ottoman astronomy 3 In fact it is known as one of the largest observatories in Islamic history It is often compared to Tycho Brahe s Uraniborg Observatory which was said to have been the home to the best instruments of its time in Europe As a matter of fact Brahe and Taqi al Din have frequently been compared for their work in sixteenth century astronomy 3 The founding of the Constantinople Observatory began when Taqi al Din returned to Istanbul in 1570 after spending 20 years in Egypt developing his astronomy and mathematical knowledge 17 Shortly after his return Sultan Selim II appointed Taqi al Din as the head astronomer Muneccimbast following the death of the previous head astronomer Muṣṭafa ibn ҁAli al Muwaqqit in 1571 17 During the early years of his position as head astronomer Taqi al Din worked in both the Galata Tower and a building overlooking Tophane 17 While working in these buildings he began to gain the support and trust of many important Turkish officials These newfound relationships lead to an imperial edict in 1569 from Sultan Murad III which called for the construction of the Constantinople Observatory This observatory became home to many important books and instruments it had sixteen assistants who helped with the making of scientific instruments as well as many renowned scholars of the time 16 While there is not much known of the architectural characteristics of the building there are many depictions of the scholars and astronomical instruments present in the observatory It was from this observatory that Taqi al Din discovered the Great Comet of 1577 Murad III taught of the comet as a bad omen on the war with the Safavids he also blamed Taqi al Din for the plague that was occurring at the time 16 Due to political conflict this observatory was short lived 18 It was closed in 1579 and was demolished entirely by the state on 22 January 1580 only 11 short years after the imperial edict which called for its construction 17 Politics Edit The rise and fall of Taqi al Din and his observatory depended on political issues that surrounded him Due to his father s occupation as a professor at the Damascene College of law Taqi al Din spent much of his life in Syria and Egypt During his trips to Istanbul he was able to make connections with many scholar jurists He was also able to use the private library of the Grand Vizier of the time Semiz Ali Pasha He then began working under Sultan Murad III s new Grand Vizier s private mentor Sa deddin Continuing his research on observations of the heavens while in Egypt Taqi al Din used the Galata tower and Sa deddin s private residence Although Murad III was the one who commanded an observatory to be built it was actually Sa deddin who brought the idea to him knowing about his interest in science 19 The Sultan ultimately would provide Taqi al Din with everything he needed from financial assistance for the physical buildings to intellectual assistance making sure he had easy access to many types of books he would need When the Sultan decided to create the observatory he saw it as a way to show off the power his monarchy had besides just financially backing it Murad III showed his power by bringing Taqi al Din and some of the most accomplished men in the field of astronomy together to work towards one goal and not only have them work well together but also make progress in the field 19 Murad III made sure that there was proof of his accomplishments by having his court historiographer Seyyid Lokman keep very detailed records of the work going on at the observatory Seyyid Lokman wrote that his sultan s monarchy was much more powerful than others in Iraq Persia and Anatolia 19 He also claimed that Murad III was above other monarchs because the results of the observatory were new to the world and replaced many others 19 Instruments used at the Observatory Edit Taqi al Din used a variety of instruments to aid in his work at the observatory Some were instruments that were already in use from European Astronomers while others he invented himself While working in this observatory Taqi al Din not only operated many previously created instruments and techniques but he also developed numerous new ones 17 Of these novel inventions the automatic mechanical clock is regarded as one of the most important developed in the Constantinople Observatory 3 Each of these instruments were first described by Ptolemy 17 An Armillary Sphere A model of celestial bodies with rings that represent longitude and latitude A Paralactic Ruler also known as a Triquetrum was used to calculate the altitudes of celestial bodies An Astrolabe Measures the inclined position of celestial bodies These instruments were created by Muslim astronomers 17 A Mural quadrant a type of mural Instrument for measuring angles from 0 to 90 degrees An Azimuthally Quadrant Each of the instruments were created by Taqi al Din to use for his own work 17 A Parallel rulerA Ruler Quadrant or Wooden Quadrant an instrument with two holes for the measurement of apparent diameters and eclipses A mechanical clock with a train of cogwheels which helped measure the true ascension of the stars Musabbaha bi l menatik an instrument with chords to determine the equinoxes invented to replace the equinoctial armillary 4 A Sunaydi Ruler which was apparently a special type of instrument of an auxiliary nature the function of which was explained by Alaeddin el Mansur 20 Contributions EditClock mechanics Edit Rise of clock use in the Ottoman Empire Edit Before the sixteenth century European mechanical clocks were not in high demand This lack of demand was brought on by the extremely high prices and the lack of preciseness needed by the population who had to calculate when they would have to have the prayer The use of hourglasses water clocks and sundials was more than enough to meet their needs 21 It was not until around 1547 that the Ottomans started creating a high demand for them Initially it was started by the gifts brought by the Austrians but this would end up starting a market for the clocks European clockmakers began to create clocks designed to the tastes and needs of the Ottoman people They did this by showing both the phases of the moon and by utilizing Ottoman numbers 21 Taqi al Din s work Edit Due to this high demand for mechanical clocks Taqi al Din was asked by the Grand Vizier to create a clock that would show exactly when the call to prayer was This would lead him to write his first book on the construction of mechanical clocks called al Kawakib al Durriya fi Bengamat al Dawriyya in 1563 A D which he used throughout his research at the short lived observatory 22 He believed that it would be advantageous to bring a true hermetic and distilled perception of the motion of the heavenly bodies 23 In order to get a better understanding of how clocks ran Taqi al Din took the time to gain knowledge from many European clock makers as well as going into the treasury of Semiz Ali Pasha and learning anything he could from the many clocks he owned 21 Types of clocks examined Edit Of the clocks in the Grand Vizier s treasury Taqi al Din examined three different types Those three were weight driven spring driven and driven by lever escapement He wrote of these three types of watches but also made comments on pocket watches and astronomical ones As Chief Astronomer Taqi al Din created a mechanical astronomical clock This clock was made to permit more precise measurements at the Constantinople observatory As stated above the creation of this clock was thought to be one of the most important astronomical discoveries of the sixteenth century Taqi al Din constructed a mechanical clock with three dials which show the hours minutes and seconds with each minute consisting of five seconds 4 After this clock it is not known whether Taqi al Din s work in mechanical clocks was ever continued given that much of the clockmaking after that time in the Ottoman Empire was taken over by Europeans Steam Edit In 1551 Taqi al Din described a self rotating spit that is important in the history of the steam turbine In Al Turuq al samiyya fi al alat al ruhaniyya The Sublime Methods of Spiritual Machines al Din describes this machine as well as some practical applications for it The spit is rotated by directing steam into the vanes which then turns the wheel at the end of the axle 24 Al Din also described four water raising machines The first two are animal driven water pumps The third and fourth are both driven by a paddle wheel The third is a slot rod pump while the fourth is a six cylinder pump The vertical pistons of the final machine are operated by cams and trip hammers run by the paddle wheel 24 The descriptions of these machines predates many of the more modern engines The screw pump for example that al Din describes predates Agricola whose description of the rag and chain pump was published in 1556 The two pump engine which was first described by al Jazari was also the basis of the steam engine 25 Important works EditAstronomy Edit Sidrat muntaha al afkar fi malakut al falak al dawwar al Zij al Shahinshahi this is said to be one of Taqi al Din s most important works in astronomy He completed this book on the basis of his observations in both Egypt and Istanbul The purpose of this work was to improve correct and ultimately complete Zij i Ulugh Beg which was a project devised in Samarkand and furthered in the Constantinople Observatory The first 40 pages of his writing focus on trigonometric calculations with emphasis on trigonometric functions such sine cosine tangent and cotangent 17 Jaridat al durar wa kharidat al fikar is a zij that is said to be Taqi al Din s second most important work in astronomy This zij contains the first recorded use of decimal fractions and trigonometric functions in astronomical tables He also gives the parts of degree of curves and angles in decimal fractions with precise calculations 17 Dustur al tarjiḥ li qawa ҁ id al tasṭiḥ is another important work by Taqi al Din which focuses on the projection of a sphere into a plane among other geometric topics Taqi al Din is also accredited as the author of Rayḥanat al ruḥ fi rasm al sa ҁ at ҁ ala mustawi al suṭuḥ which discusses sundials and their characteristics drawn on a marble surface 17 Clocks and mechanics Edit al Kawakib al durriyya fi waḍ ҁ al bankamat al dawriyya was written by Taqi al Din in 1559 and addressed mechanical automatic clocks This work is considered the first written work on mechanical automatic clocks in the Islamic and Ottoman world In this book he accredits Ali Pasha as a contributor for allowing him to use and study his private library and collection of European mechanical clocks 17 al Ṭuruq al saniyya fi al alat al ruḥaniyya is a second book on mechanics by Taqi al Din that emphasizes the geometrical mechanical structure of clocks which was a topic previously observed and studied by Banu Musa and Ismail al Jazari Abu al ҁIzz al Jazari 17 Physics and optics Edit Nawr ḥadiqat al abṣar wa nur ḥaqiqat al Anẓar was a work of Taqi al Din that discussed physics and optics This book discussed the structure of light the relationship between light and color as well as diffusion and global refraction 17 See also EditInventions in the Muslim world Islamic astronomy Islamic scienceNotes Edit Taqi al Din Ibn Ma ruf A Bio Bibliographical Essay Muslim Heritage muslimheritage com Retrieved 2018 04 24 Agoston Gabor Masters Bruce Alan Encyclopedia of the Ottoman Empire Infobase Publishing 2009 p 552 ISBN 0 8160 6259 5 a b c d e Tekeli Sevim 2008 Taqi Al Din Encyclopaedia of the History of Science Technology and Medicine in Non Western Cultures Springer Dordrecht pp 2080 2081 doi 10 1007 978 1 4020 4425 0 9065 ISBN 978 1 4020 4559 2 a b c Encyclopaedia of the history of science technology and medicine in non western cultures Selin Helaine 1946 2nd ed Berlin Springer 2008 ISBN 9781402044250 OCLC 261324840 a href Template Cite book html title Template Cite book cite book a CS1 maint others link Taqi al Din ibn Ma ruf and the Science of Optics The Nature of Light and the Mechanism of Vision muslimheritage com Soucek Svat 1994 Piri Reis and Ottoman Discovery of the Great Discoveries Studia Islamica 79 79 121 142 doi 10 2307 1595839 JSTOR 1595839 Two such cases are Piri Reis d 1554 an Ottoman Turk from Gallipoli and Taqi al Din d 1585 an Ottoman Arab from Damascus They form the symbolic pivot of my argument Chief Astronomer Taqi al Din was born to a family of Turkish descent in Damascus Hoffmann Dieter Ihsanoglu Ekmeleddin Djebbar Ahmed Gunergun Feza Science technology and industry in the Ottoman world in Volume 6 of Proceedings of the XXth International Congress of History of Science p 19 Publisher Brepols 2000 ISBN 2 503 51095 7 S Frederick Starr 2 June 2015 Lost Enlightenment Central Asia s Golden Age from the Arab Conquest to Tamerlane Princeton University Press pp 509 510 ISBN 978 0 691 16585 1 Astronomy did not really get off the ground in Constantinople until 1576 when Taqi al Din a Damascus born Turk and a gifted mathematician and astronomer persuaded the sultan to fund an observatory patterned after Ulughbeg s see plate 29 Ibn Haytham Nader el Bizri Medieval Science Technology and Medicine An Encyclopedia ed Thomas F Glick Steven Livesey Faith Wallis Taylor amp Francis Group 2005 239 composed as a commentary on Kamal al Din s Tanqih by Taqi al Din Muhammad ibn Ma ruf the Syrian astronomer at the Ottoman court Akkach Samer السياسات المركز العربي للأبحاث ودراسة 2017 مرصد اسطنبول هدم الرصد ورصد الهدم تطور ثقافة العلوم في الإسلام بعد كوبرنيكوس Istanbul Observatory The Ethos of Science in Islam in the Post Copernican Period p 87 Taqi ad Din lineage as recorded by himself in his Rayḥanat al ruḥ تقي الدين محمد بن معروف بن أحمد بن محمد بن محمد بن أحمد بن يوسف ابن الأمير ناصر الدين منكويرس ابن الأمير ناصح الدين خمارتكين Taqi al Din Muhammad ibn Ma ruf ibn Ahmed ibn Muhammad ibn Muhammad ibn Ahmed ibn Yusuf ibn Nasir al Din Mankarus ibn Nasih al Din Khumartekin Chaarani Mona SANJAKDAR 2019 تقي الدين محمد بن معروف الدمشقي حياته وأعماله PDF p 1 Lyons Malcolm Cameron Jackson D E P 1984 Saladin The Politics of the Holy War Cambridge University Press p 195 King D A 2000 Taḳi al Din In Bearman P J Bianquis Th Bosworth C E van Donzel E amp Heinrichs W P eds The Encyclopaedia of Islam Second Edition Volume X T U Leiden E J Brill p 132 ISBN 978 90 04 11211 7 a b c d e f Ayduz Salim Taqi al Din ibn Maʿruf The Oxford Encyclopedia of Philosophy Science and Technology in Islam Oxford Islamic Studies Online Salomon Schweigger Ein newe Reyssbeschreibung auss Teutschland nach Constantinopel und Jerusalem Graz 1964 90 1 a b c Darke Diana 2022 Chapter 5 The Ottomans A Cultural Legacy Thames amp Hudson ISBN 978 0 500 77753 4 a b c d e f g h i j k l m n o Fazlioglu Ihsan 2014 Taqi al Din Abu Bakr Muḥammad ibn Zayn al Din Maҁruf al Dimashqi al Ḥanafi Biographical Encyclopedia of Astronomers Springer New York NY pp 2123 2126 doi 10 1007 978 1 4419 9917 7 1360 ISBN 978 1 4419 9916 0 Casale Giancarlo 2010 The Ottoman Age of Exploration New York City Oxford University Press pp 162 ISBN 978 0 19 537782 8 a b c d Tezcan Baki Some Thoughts on the Politics of Early Modern Ottoman Science Osmanli Arastirmalari 36 no 36 2010 IHSANOGLU Ekmeleddin 2004 Science in the Ottoman Empire PDF a b c ihsanoglu Ekmeleddin 2004 Science Technology and Learning in the Ottoman Empire Burlington VT Ashgate Publishing Company p 20 ISBN 978 0 86078 924 6 Stolz Daniel A POSITIONING THE WATCH HAND ULAMA AND THE PRACTICE OF MECHANICAL TIMEKEEPING IN CAIRO 1737 1874 47 no 3 2015 489 510 Avner Ben Zaken 2004 The Heavens of the Sky and the Heavens of the Heart The Ottoman Cultural Context for the Introduction of Post Copernican Astronomy The British Journal for the History of Science 37 1 1 28 doi 10 1017 S0007087403005302 JSTOR 4028254 S2CID 171015647 a b Hill Donald R 1978 Review of Taqi al Din and Arabic Mechanical Engineering With the Sublime Methods of Spiritual Machines An Arabic Manuscript of the Sixteenth Century Isis 69 1 117 118 doi 10 1086 351968 JSTOR 230643 Hassani A M 1979 Arab Scientists Revisited Ibn Ash Shatir and Taqi ed Din History of Science 17 135 140 Bibcode 1979HisSc 17 135H doi 10 1177 007327537901700203 S2CID 163964366 via NASA Astrophysics Data System Further reading EditBen Zaken Avner The Revolving Planets and the Revolving Clocks Circulating Mechanical Objects in the Mediterranean History of Science xlix 2010 pp 125 148 Ben Zaken Avner Cross Cultural Scientific Exchanges in the Eastern Mediterranean 1560 1660 Johns Hopkins University Press 2010 pp 8 47 King David A 2000 Taḳi al Din In Bearman P J Bianquis Th Bosworth C E van Donzel E amp Heinrichs W P eds The Encyclopaedia of Islam Second Edition Volume X T U Leiden E J Brill pp 132 133 ISBN 978 90 04 11211 7 King David A 1986 A Survey of the Scientific manuscripts in the Egyptian National Library Vol 5 Winona Lake IN USA American Research Center in Egypt pp 171 2 Hassan Ahmad Y 1976 Taqi al Din and Arabic Mechanical Engineering Institute for the History of Arabic Science Aleppo University Gautier Antoine December 2005 L age d or de l astronomie ottomane L Astronomie 119 Tekeli Sevim 2002 16 inci yuzyilda Osmanlilarda saat ve Takiyuddin in mekanik saat konstruksuyonuna dair en parlak yildizlar The clocks in Ottoman Empire in 16th century and Taqi al Din s the brightest stars for the construction of the mechanical clocks Second edition Ankara T C Kultur Bakanligi Unat Yavuz Time in The Sky of Istanbul Taqi al Din al Rasid s Observatory Art and Culture Magazine Time in Art Winter 2004 Issue 11 pp 86 103 External links EditFazlioglu Ihsan 2007 Taqi al Din Abu Bakr Muḥammad ibn Zayn al Din Maʿruf al Dimashqi al Ḥanafi In Thomas Hockey et al eds The Biographical Encyclopedia of Astronomers New York Springer pp 1122 3 ISBN 978 0 387 31022 0 PDF version Retrieved from https en wikipedia org w index php title Taqi ad Din Muhammad ibn Ma 27ruf amp oldid 1136383293, wikipedia, wiki, book, books, library,

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