The educational policy of King Otto, advised during his first years in Greece by Bavarian experts, caused considerable turmoil. Two organizational models were in use, the German one for the University and the French one for the Evelpidon Military School (Greek military academy) and the School of Technology (a forerunner of the Polytechnical School). France’s École Polytechnique remained nonetheless the basic educational model for the Greek military academy. The new educational policy created a number of scientific obstacles that did not favor the flourishing of mathematical education. The length of study at the Greek military academy Greek military academy increased to eight years and new mathematical courses were added to its program, so that its graduates would be able to take upper level technical courses. Bourdon’s Arithmetic, Legendre’s Geometry and Trigonometry, Francoeur’s Algebra, Monge’s Descriptive Geometry, Differential and Integral Calculus, etc, formed the basis of the cadets’ mathematical education. Mathematics was included in the subject matter so that the graduates would be in a position to understand the theoretical basis of the technology employed, as well as, crucially, to help the cadets understand upper-level technical courses. Another reason for the teaching of Mathematics was the materialization of the political goal set by the governments of the Ottonian period, that is access to Europe’s technological achievements. The introduction of additional and more difficult upper-level technical courses required the introduction of new mathematical courses to the program.
| Published in | International Journal of Vocational Education and Training Research (Volume 7, Issue 1) |
| DOI | 10.11648/j.ijvetr.20210701.14 |
| Page(s) | 21-29 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Military Academies, Ecole Polytechnique, Legendre, Bourdon, Monge, Greece
| [1] | Alder Ken, 1999. Engineering the Revolution. Arms and Enlightenment in France, 1763-1815. Princeton University Press, Princeton, New Jersey. |
| [2] | Anargyros A, (Ανάργυρος Α.), 1852-1853. Algebra Courses, (Μαθήματα Αλγέβρας), Collected and handed over by Lieutenant Infantry A. Anargyros during the Scholastic year 1852-1853, the second lithographed, Royal Military School of the Guards, from Royal Lithography, Athens. |
| [3] | Antoniou G (Αντωνίου Γιάννης), 2005, Greek Engineers, Institutions and Ideas 1900-1940, unpublished PhD, National Technical University of Athens, Athens. |
| [4] | Barnard, H. 1862, Military Schools and Courses of Instruction in the Science and the Art of War, Part 2, Lippincott, Philadelphia. |
| [5] | Bourdon L. P. M., 1821. Eléments d’arithmétique. Paris: Courcier (Στοιχεία Αριθμητικής, Karantinos Transl. 1828 Vienna: Anton Haykul). |
| [6] | Bourdon, L. P. M., 1823. Eléments d’algèbre. Troisième édition, Bachelier, Paris. |
| [7] | Bournazos A. K (Βουρνάζος Α. Κ) "The founding of the Polytechnic" The centenary of the National. M. Polytechniou, Technical Chronicles, July 1, 1939, No. 181. |
| [8] | Byzantios Ch. (Βυζάντιος Χρήστος), 1853. Collection of Military Laws and Orders. From 1821 to 1853, Part A, Administrative, vol. A, Royal Printing House, Athens. |
| [9] | Glas Eduard, 2002. «Socially conditioned mathematical change: the case of the France Revolution» Studies in History of Science 33, (709-728). |
| [10] | Heideck, K. 1900, 1901, The Bavarian Philhellenes in Greece during the years 1826-1829: From the memoirs of the Bavarian lieutenant general Charles Baron Heideck. Harmony Vol 1 (1900), Vol 2 (1901). Athens. |
| [11] | Hors M (Χορς Μιχαήλ), 1887-1888. Architecture Courses, Part 1 Building, Military School, Athens. |
| [12] | Kalafati E, (Καλαφάτη Ελένη), 1989 "The National Technical University of Athens at the turn of the century", University: Ideology and Education, IAEN, 19 167-183. |
| [13] | Kapodistrias, I. A. 1841, Letters of IA Kapodistrias to the Governor of Greece. Diplomatic, administrative and private, registered from April 8, 1827 to September 26, 1831. 4 Vol Athens: Ralli. |
| [14] | Kastanis A, (Καστάνης Ανδρέας), 1997. "The mathematical book during the period 1828-1932", Tribute to Antonis Antonakopoulos, edited by K. Aroni-Tsichlis, Papazisis, (531- 546). |
| [15] | Kastanis A, (Καστάνης Ανδρέας), Descriptive Geometry in the Greek Military and Technical Education during the 19th Century, Journal of Applied Mathematics & Bioinformatics, vol. 7, no. 3, 2017, 13-82. |
| [16] | Kastanis A. (Καστάνης Ανδρέας), 2000. The Military School of the Evelpidon during the first years of its operation 1828-1834, doctoral dissertation, Hellenic Letters, Athens. |
| [17] | Kastanis, Andreas, 1st unpublished monograph, Descriptive Geometry in 19th century Greek education. |
| [18] | Kastanis A. (Καστάνης Ανδρέας), 2014 Military History: Aspects of the Greek Army. Developments of the 19th century that influenced military operations, Military School, Athens. |
| [19] | Kastanis Andreas, «The teaching of Mathematics in the Greek military academy during the first years of its foundation (1828-1834)» Historia Mathematica, 30 (2003), 123-139. |
| [20] | Kastanis N (Καστάνης Νίκος), 1998. "The influence of French mathematics on modern Greek mathematics education in the period 1800-1804", Aspects of Modern Greek Education, published by Vafiadis Mathematical Library, Thessaloniki, 173-205. |
| [21] | Kastanis, I. and Kastanis, N. 2004. «Transition of Mathematics into Greek education 1800-1840: From Individual choices to institutional framework» (Technical Report No 11, October, Department of Mathematics, Aristotle University of Thessaloniki). |
| [22] | Kimourtzis P (Κιμουρτζής Παναγιώτης), 2003. "European universities as models: The Greek case (1837)", Nefsi, 12, 129-150. |
| [23] | Kondis G, (Κόνδης Γεώργιος), 1853. Elements of Arithmetic, Vlastos, Athens. |
| [24] | Legendre, A. M. 1823 Eléments de Géométrie 12 ed. Paris: Chez Firmin Didot, Père et fils (Στoιχεία Γεωμετρίας, translated by Ioannis Karantinos (1828, 1 ed), (1840, 2 ed) Vol 2 Corfu: Government Typography and, Στοιχεία Τριγωνομετρίας translated from French to Modern Greek dialect by Dr. Ioannis Karantinos from Kefallinia 1830, vol 6 Corfu: Government Typography. |
| [25] | Legendre, A. M. 1823. Eléments de Géométrie, 12th edition, pub.: Chez Firmin Didot, Père et fils, Paris. |
| [26] | Mertiri A, (Μερτύρη Αντωνία), 2000. The Artistic Education of Young People in Greece (1836-1945), Historical Archive of Greek Youth (IAEN), Athens. |
| [27] | Monge, G., 1811. Géométrie descriptive, pub. Klostermann, Paris. |
| [28] | Neuerer Karl, 1978. Das höhere Lehramt in Bayern im 19. Jahrhundert, Duncker & Humblot, Berlin. |
| [29] | Oraiopoulos F. (Ωραιόπουλος Φίλιππος), 1998, The Modern Greek discourse on Architecture and the city. The spatial model of the East, Estia, Athens. |
| [30] | Papageorgiou G (Παπαγεωργίου Γιώργος), 1986. Apprenticeship in the professions, (16th - 20th century), IAEN, Athens. |
| [31] | Papageorgiou G. (Παπαγεωργίου Γιώργος), 1982. The guilds in Ioannina during the 19th and the beginning of the 20th century, doctoral dissertation, University of Ioannina, Ioannina. |
| [32] | Ragavis Α (Ραγκαβής Αλέξανδρος), 1894. Memoirs, vol. 1, Athens. |
| [33] | Shubring Gr, 1996. «Changing culture and epistemological view on Mathematics and different institutional contexts in 19th century Europe», Mathematical Europe, Goldstein, C et al. (ed), Éditions de la Maison des Sciences de l’homme, Paris. 363-388. |
| [34] | Stathopoulos H, (Σταθόπουλος Ηλίας), 1857. Of the poetry competition of 1857. The episodes of a logical Arithmetic or criticism, Io Angelopoulos, Athens. |
| [35] | Thiersch Frédéric, 1833. De l' État actuel de la Grèce, F. A Brockhaus, Leipzig, (The Greece of Kapodistrias translation A. Spiliou, Tolidis, 1972 Athens), |
| [36] | Tsoukalas Κ. (Τσουκαλάς Κωνσταντίνος), 1992. Dependence and reproduction. The social role of educational mechanisms in Greece (1830-1922), in edition, Themelio, Athens. |
| [37] | Onisandros (Ονήσανδρος), 15 Φεβρουαρίου 1867 Brochure 60. |
| [38] | Military Herald Stratiotikos Aggelos 1846. Defending the rights of the army and teaching martial arts, Athens. General National Archives (GAK) Ottonian Archive GAK, The organizational plan of Evelpidon Military School. |
| [39] | 17 March 1842, folder 372: Minutes of the Student Council concerning the distribution of subject matter into six years of study. |
| [40] | 16 March 1853, folder 375, document 038: Professors Payroll GAK, Library of Evelpidon Military School. |
| [41] | 27 June 1848., folder 413, document 017: This document refers to the textbooks used at the Evelpidon. |
| [42] | 23 May 1852, folder 414, document 094: Acquisition of textbooks. |
| [43] | 28 April 1862, folder 414, document 178: Deletion of textbooks due to misplacement. GAK Examinations. |
| [44] | No date 1848, folder 424, documents 151 and 168: Answers to the same test by two different cadets. |
| [45] | No date 1850, folder 409, document 059: Written Geometry examination of 1850. |
| [46] | 8 September 1855, folder 427, documents 283 and 285: Answers to an examination question by two different cadets. |
| [47] | No date 1854. Folder 427, documents 070 and 071: Examinations of two cadets. Each examination contained only one question. |
| [48] | 11 October 1854. Folder 427: Examination of one cadet. |
| [49] | 12 October, 1854. Folder 427 document 072: Written examination on Differential Calculus. |
| [50] | 12 October, 1854. Folder 427 document 076: Written examination on Differential Calculus. |
APA Style
Andreas Kastanis. (2021). The Teaching of Mathematics in the Greek Military Academy (1834-1854). International Journal of Vocational Education and Training Research, 7(1), 21-29. https://doi.org/10.11648/j.ijvetr.20210701.14
ACS Style
Andreas Kastanis. The Teaching of Mathematics in the Greek Military Academy (1834-1854). Int. J. Vocat. Educ. Train. Res. 2021, 7(1), 21-29. doi: 10.11648/j.ijvetr.20210701.14
AMA Style
Andreas Kastanis. The Teaching of Mathematics in the Greek Military Academy (1834-1854). Int J Vocat Educ Train Res. 2021;7(1):21-29. doi: 10.11648/j.ijvetr.20210701.14
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Download@article{10.11648/j.ijvetr.20210701.14,
author = {Andreas Kastanis},
title = {The Teaching of Mathematics in the Greek Military Academy (1834-1854)},
journal = {International Journal of Vocational Education and Training Research},
volume = {7},
number = {1},
pages = {21-29},
doi = {10.11648/j.ijvetr.20210701.14},
url = {https://doi.org/10.11648/j.ijvetr.20210701.14},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijvetr.20210701.14},
abstract = {The educational policy of King Otto, advised during his first years in Greece by Bavarian experts, caused considerable turmoil. Two organizational models were in use, the German one for the University and the French one for the Evelpidon Military School (Greek military academy) and the School of Technology (a forerunner of the Polytechnical School). France’s École Polytechnique remained nonetheless the basic educational model for the Greek military academy. The new educational policy created a number of scientific obstacles that did not favor the flourishing of mathematical education. The length of study at the Greek military academy Greek military academy increased to eight years and new mathematical courses were added to its program, so that its graduates would be able to take upper level technical courses. Bourdon’s Arithmetic, Legendre’s Geometry and Trigonometry, Francoeur’s Algebra, Monge’s Descriptive Geometry, Differential and Integral Calculus, etc, formed the basis of the cadets’ mathematical education. Mathematics was included in the subject matter so that the graduates would be in a position to understand the theoretical basis of the technology employed, as well as, crucially, to help the cadets understand upper-level technical courses. Another reason for the teaching of Mathematics was the materialization of the political goal set by the governments of the Ottonian period, that is access to Europe’s technological achievements. The introduction of additional and more difficult upper-level technical courses required the introduction of new mathematical courses to the program.},
year = {2021}
}
TY - JOUR T1 - The Teaching of Mathematics in the Greek Military Academy (1834-1854) AU - Andreas Kastanis Y1 - 2021/05/08 PY - 2021 N1 - https://doi.org/10.11648/j.ijvetr.20210701.14 DO - 10.11648/j.ijvetr.20210701.14 T2 - International Journal of Vocational Education and Training Research JF - International Journal of Vocational Education and Training Research JO - International Journal of Vocational Education and Training Research SP - 21 EP - 29 PB - Science Publishing Group SN - 2469-8199 UR - https://doi.org/10.11648/j.ijvetr.20210701.14 AB - The educational policy of King Otto, advised during his first years in Greece by Bavarian experts, caused considerable turmoil. Two organizational models were in use, the German one for the University and the French one for the Evelpidon Military School (Greek military academy) and the School of Technology (a forerunner of the Polytechnical School). France’s École Polytechnique remained nonetheless the basic educational model for the Greek military academy. The new educational policy created a number of scientific obstacles that did not favor the flourishing of mathematical education. The length of study at the Greek military academy Greek military academy increased to eight years and new mathematical courses were added to its program, so that its graduates would be able to take upper level technical courses. Bourdon’s Arithmetic, Legendre’s Geometry and Trigonometry, Francoeur’s Algebra, Monge’s Descriptive Geometry, Differential and Integral Calculus, etc, formed the basis of the cadets’ mathematical education. Mathematics was included in the subject matter so that the graduates would be in a position to understand the theoretical basis of the technology employed, as well as, crucially, to help the cadets understand upper-level technical courses. Another reason for the teaching of Mathematics was the materialization of the political goal set by the governments of the Ottonian period, that is access to Europe’s technological achievements. The introduction of additional and more difficult upper-level technical courses required the introduction of new mathematical courses to the program. VL - 7 IS - 1 ER -
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