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Perspective: Arab Mathematics and Renaissance Western Art

Published online by Cambridge University Press:  01 May 2008

Hans Belting
Hans Belting*
Affiliation:
Sophienstrasse 105, Karlsruhe D- 76135, Germany
*
E-mail: hbelting@hfg-karlsruhe.de
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Abstract

This paper deals with the transfer of Arab visual theory in the Middle Ages, as it is believed that the cultural significance of this transfer needs a new emphasis. Mathematical perspective was invented in Florentine Renaissance Art. However, except in the history of science, it is a little known fact that this visual theory was based on the Book of Optics, written by Ibn al Haithan, also known as Alhazen, and was translated, probably in Spain, with the Latin title Perspectiva. We therefore can speak of a double history of perspective, as visual theory and as pictorial theory. The main argument is to identify the importance of images, which separate Arab thought from Western thinking. It was the transformation of mathematics into art, in the Western sense, that allows us to distinguish two different cultures. In this process, the invention of mathematical space by Biagio Pelacani was an important step. Thereafter, the gaze and its looking space became a new concern of the Renaissance.

Type
Articles
Information
European Review , Volume 16 , Issue 2 , May 2008 , pp. 183 - 190
Copyright
Copyright © Academia Europaea 2008

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References

References and Notes

1. My German book: H. Belting (2008) Florenz und Bagdad. Eine Westöstliche Geschichte des Blicks (Munich: Beck) offers full footnote coverage of the present article, which only serves as a first notice for English readers.Google Scholar
2.Sabra, A. I. (ed.) (1989) The Optics of Ibn Al-Haytham, Books I–III on Direct Vision (Vol. I and II) (London : The Warburg Institute).Google Scholar
3. F. Sezgin and E. Neugebauer (eds) (2003) Wissenschaft und Technik im Islam. Katalog des Instituts der Arabisch-Islamischen Wissenschaften, Vol. III, chapter 6 (Frankfurt).Google Scholar
4. For his aesthetics, cf. J. M. P. Vilchez (1997) Del Pensamiento Estético Arabe. Al-Andalus y la estetica classica (Madrid) and G. Necipoglu (1995) The Topkapi Scroll. Geometry and Ornament in Islamic Architecture (Santa Monica: Getty Center).Google Scholar
5. O. Grabar (1992) The Mediation of Ornament (Princeton: Mellon Lectures); and O. Grabar (2006) Islamic Art and Beyond (Ashgate).Google Scholar
6.Lu, P. J. and Steinhardt, P. J. (2007) Decagonal and quasi-crystalline tilings in medieval Islamic architecture. Science, 315, 1106.CrossRefGoogle ScholarPubMed
7. M. Al-Asad (1995) A geometrical analysis. Necipoglu, p. 349; and Y. Dold-Samplonius (2003) Calculating surface patterns and volumes in Islamic architecture. In: J. P. Hogendijk and A. I. Sabra (eds) The Enterprise of Science in Islam. New Perspectives (MIT Press), p. 235.Google Scholar
8. G. F. Vescovini (1965) Studi sulla propettiva medievale (Turin) and many other of her later writings.Google Scholar