| 1 | Aaboe, A. (1998). Episodes from the early history of mathematics. Washington D.C.: MAA. |
| 2 | Artmann, B. (1999). Euclid-The Creation of Mathematics. New York: Springer-Verlag. |
| 3 | Barbeau, B. (2000). Mathematical fallacies, flaws, and flimflam. Washington D.C.: MAA. |
| 4 | Becker, J. P. & Jacob, B. (2000). The politics of California school mathematics: The anti-reform of 1997-99. The Phi Delta Kappan, 81(7), 529-537. |
| 5 | Bishop, A. J. (1988). Mathematics education in its cultural context. Educational Studies in Mathematics, 19(2), 179-191. DOI |
| 6 | Bishop, A. J. (1994). Cultural conflicts in mathematics education: Developing a research agenda. For the Learning of Mathematics, 14(2), 15-18. |
| 7 | Boaler, J. (2002). The development of disciplinary relationships: Knowledge, practice and identity in mathematics classroom. For the Learning of Mathematics, 22(1), 42-47. |
| 8 | Boaler, J. & Greeno, J. (2000). Identity, agency and knowing in mathematics worlds. In J. Boaler (Ed.), Multiple perspectives on mathematics teaching and learning (pp. 171-200). Westport, CT: Alblex Publishing. |
| 9 | Bourbaki, N. (1950). The architecture of mathematics. The American Mathematics Monthly, 57(4), 221-232. DOI |
| 10 | Boyer, C. B. (1991). A History of Mathematics (2nd ed.). New York: John Wiley & Sons. |
| 11 | Bruner, J. (1996). The Culture of Education. Cambridge, MA: Harvard University Press. |
| 12 | Bunch, B. H. (1982). Mathematical fallacies and paradoxes. New York: Van Nostrand Reinhold Company. |
| 13 | Campbell, S. K. (2002). Flaws and fallacies in statistical thinking. Minola: Dover Publications, Inc. |
| 14 | Carraher, T. N., Carraher, D. W., & Schilemann, A. D. (1985/2002). Mathematics om ine streets and in schools. In T. W. Carpenter, J. A. Dossey, & J. L. Koehler (Ed.) Classics in Mathematics Education Research(pp.187-193). Reston, VA: NCTM. |
| 15 | Chevallard, Y. (1988). On didactic transpose theory: Some introductory notes. Paper presented at International Symposium on Research and Development. Bastislava, Czechoslavakia. |
| 16 | Chevallard, Y. (1990). On Mathematics education and culture: Critical afterthoughts. Educational Studies in Mathematics, 21(1), 3-27. DOI |
| 17 | Cobb, P. (1994). Where is the mind? constructivist and sociocultural perspectives on mathematical development. Educational Researcher, 23(7), 13-20. DOI |
| 18 | Cobb, P. & Yackel, E. (1996). Constructivist, emergent, and sociocultural perspectives in the context of developmental research. Educational Psychologist, 31(3), 175-190. DOI |
| 19 | D'Ambrosio, U. (1985). Ethnomathematics and its place in the history and pedagogy of mathematics. For the Learning of Mathematics, 5(1), 44-48. |
| 20 | Ernest, P. (1994). Social constructivism and the psychology of mathematics education. In P. Ernest (Ed.), Constructing mathematical knowledge: Epistemology and mathematical education (pp.62-72). London: The Falmer Press. |
| 21 | Garrison, D. R. (2007). Online community of inquiry review: Social, cognitive, and teaching presence issues. Journal of Asynchronous Learning Networks, 11(1), 61-72. |
| 22 | Hofstede, G. (1986). Cultural differences in teaching and learning. International Journal of Intercultural Relations 10(3), 301-320. DOI |
| 23 | Garrison, D. R., Anderson, T., & Archer, W. (2000). Critical inquiry in a text-based environment: Computer conferencing in higher education. The Internet and Higher Education, 1999(Spring), 87-105. |
| 24 | Goos, M. (2004). Learning mathematics in a classroom community of inquiry. Journal for Research in Mathematics Education, 35(4), 258-291. DOI |
| 25 | Heymann, H. W. (2003). Why teach mathematics?: A focus on general education. Dordrecht, The Netherlands: Kluwer Academic Publishers. |
| 26 | Hoyrup, J. (2007). The roles of mesopotamian bronze age mathematics tool for state formation and administration - carrier of teachers' professional intellectual autonomy. Educational Studies in Mathematics, 66(2), 257-271. DOI |
| 27 | Kang, W. & Kilpatrick, J. (1992). Didactic transposition in mathematics textbooks. For the Learning of Mathematics, 12(1), 2-7. |
| 28 | Katz, V. J. (1993). A history of mathematics: An introduction. New York: HarperCollins College Publishers. |
| 29 | Kline, M. (1972). Mathematical thought from ancient to modern times: Volume 1. New York; Oxford: Oxford University Press. |
| 30 | Kramer, S. N. (1949). Schooldays: A Sumerian composition relating to the education of scribe. Journal of the American Oriental Study, 69(4), 199-215. DOI |
| 31 | Lampert, M. (1990). When the problem is not the question and the solution is not the answer: Mathematical knowing and teaching. American Educational Research Journal, 27(1), 29-63. DOI |
| 32 | Liddell & Scott (1891). A Lexicon Abridged from Liddell and Scott's Greek-English Lexicon. Oxford, UK: Oxford University Press. |
| 33 | Lave, J. (1988). Cognition in practice: Mind, mathematics, and culture in everyday life. Cambridge, UK: Cambridge University Press |
| 34 | Lave, J. & Wenger, E. (1991). Situated Learning: Legitimate Peripheral Participation. New York: Cambridge University Press. |
| 35 | Lee, S. (2014). The growth of school mathematics: Korean secondary gifted students' collaborative problem solving using the Wiki. (Doctoral dissertation paper, University of Missouri-Columbia, 2014). |
| 36 | MacLane, S. (1981). Mathematical models: A sketch for the philosophy of mathematics. The American Mathematics Monthly, 88(7), 462-472. DOI |
| 37 | MATHCOUNTS Foundation. (1999). The all-time greatest mathecounts problems. Alexandria, VA: Author. |
| 38 | Mesa, V. (2004). Characterizing practices associated with functions in middle school textbooks: An empirical approach. Educational Studies in Mathematics, 56(2/3), 255-286. DOI |
| 39 | Moore, C. G. (1994). Research in native american mathematics education. For the Learning of Mathematics, 12(2), 9-15. |
| 40 | Nasir, N. I. S., Hand, V., & Taylor, E. V. (2008). Culture and mathematics in school: Boundaries between "Culture" and "Domain" knowledge in the mathematics classroom and beyond. Review of Research in Education, 32, 187-4240. DOI |
| 41 | NCTM. (1989). Curriculum and evaluation standards for school mathematics. Reston, VA: Author. |
| 42 | NCTM. (1991). Professional standards for teaching mathematics. Reston, VA: Author. |
| 43 | Piaget, J. (1971). Biology and knowledge: An essay on the relations between organic regulations and cognitive processes. Edinburgh: Edinburgh University Press. |
| 44 | NCTM. (2000). Principles and standards for school mathematics. Reston, VA: Author |
| 45 | O'Callaghan, B. R. (1998). Computer-intensive algebra and students' conceptual knowledge of functions. Journal for Research in Mathematics Education, 29(1), 21-40. DOI |
| 46 | Piaget, J. (1970). Genetic epistemology. New York: Columbia University Press. |
| 47 | Pinxten, R. (1994) Ethnomathematics and its practice. For the Learning of Mathematics, 14(2), 23-25. |
| 48 | Popper, K. (1978). Three worlds: the tanner lecture on human values: University of Michigan. |
| 49 | Popper, K. (1989). Objective knowledge: An evolutionary approach (revised ed.). Oxford, UK: Oxford University Press. |
| 50 | Popper, K. (2002). Conjectures and refutations: The growth of scientific knowledge (reprinted ed.). New York: Routledge Classics. |
| 51 | Robson, E. (2000a). The uses of mathematics in ancient Iraq, 6000-600 BC. In H. Selin (Ed.), Mathematics across cultures: The history of non-western mathematics (pp. 93-113). Dordrecht, The Netherlands: Kluwer Academic Publishers. |
| 52 | Robson, E. (2000b). Mesopotamian mathematics: Some historical background. In V. J. Katz (Ed.), Using history to teach mathematics (pp. 149-158). Washington, D.C.: Mathematical Association of America. |
| 53 | Robson, E. (2001). Neither Sherlock. Holmes nor Babylon: A reassessment of Plimpton 322. Historia Mathematica, 28, 167-206. DOI |
| 54 | Robson, E. (2007). Mathematics, metrology, and professional numeracy. In G. Leick (Ed.), The Babylonian world (pp. 414-427). London: Routledge. |
| 55 | Robson, E. (2002a). Guaranteed genuine Babylonian originals: the Plimpton collection and the early history of mathematical Assyriology. In C. Wunsch (Ed.), Mining the Archives: Festschrift for C.B.F. Walker (pp. 245-292). Dresden: ISLET. |
| 56 | Robson, E. (2002b). More than metrology: Mathematics education in an old babylonian scribed school. In J. M. Steele A. Imhausen (Eds.), Under one sky:Mathematics and astronomy in the ancient Near East (Vol. 325-365). Munster Ugarit-Verlag. |
| 57 | Robson, E. (2002c). Words and pictures: new light on Plimpton 322. American Mathematical Monthly, 109(2), 105-120. DOI |
| 58 | Sajka, M. (2003). A secondary school student's understanding of the concept of function; A case study. Educational Studies in Mathematics, 53(3), 229-254. DOI |
| 59 | Scardamalia, M. (2002). Collective cognitive resposibility for the advancement of knowledge. In B. Smith (Ed.), Liberal Education in a Knowledge Society (pp.67-98). Peru, IL: Carus Publishing Company. |
| 60 | Scardamalia, M., Bereiter, C., & Lamon, M. (1994). The CSILE project: Trying to bring the classroom into world 3. In M. Kate (Ed.), Classroom lessons: Integrating cognitive theory and classroom practice (pp.201-228). Cambridge, MA: The MIT Press. |
| 61 | Schoenfeld, A. H. (1996). In fostering community of inquiry, must it matter that teacher knows"the answer"?, For the Learning of Mathematics, 16(3), 11-16. |
| 62 | Sfard, A. (1991). On the dual nature of mathematical conceptions: Reflections on processes and objects as different sides of the same coin. Educational Studies in Mathematics, 22(1), 1-36. DOI |
| 63 | Shulman, L. S. (1986). Those who understand: Knowledge growth in teaching. Educational Researcher, 15(2), 4-31 DOI |
| 64 | Sfard, A. (1998). On two metaphors for learning and the dangers of choosing just one. Educational Researcher, 27(2), 4-13. DOI |
| 65 | Sfard, A. (2000). On reform movement and the limits of mathematical discourse. Mathematical Thinking & Learning, 2(3), 157-189. DOI |
| 66 | Sfard, A. (2008). Thinking as communicating: Human development, the growth of discourse, and mathematizing. New York: Cambridge University Press. |
| 67 | Sierpinska, A. (1987). Humanities students and epistemological obstacles related to limits. Educational Studies in Mathematics, 18(4), 371-397. DOI |
| 68 | Sierpinska, A. (1995). Mathematics: "In context", "pure", or "with applications"? a contribution to the question of transfer in the learning of mathematics. For the Learning of Mathematics, 15(1), 2-15. |
| 69 | Stahl, G. (2009). Toward a science of group cognition. In G. Stahl (Ed.), Studying Virtual Math Teams (Vol. 11, pp. 555-579). New York: Springer US. |
| 70 | Thomas, R. (1996). Proto-mathematics and/or real mathematics. For the Learning of Mathematics, 16(2), 11-18. |
| 71 | von Glasersfeld, E. (1983). Learning as constructive activity. In J. C. Bergeron & N. Herscovics (Eds.), Proceedings of the 5th annual meeting of the North American Group of Psychology in Mathematics Education (pp.41-101). Montreal: PME-NA. |
| 72 | von Glasersfeld, E. (1990). An exposition of constructivism: Why some like it radical. In Journal for Research in Mathematics Education. Monograph, 4: Constructivist Views on the Teaching and Learning of Mathematics (pp.19-29). Reston, VA: NCTM. |
| 73 | Zaslavsky, C. (1994). "Africa counts" and ethnomathematics. For the Learning of Mathematics, 14(2), 3-8. |
| 74 | Wenger, E. (1998). Community of practice: Learning, meaning, and identity. New York: Cambridge University Press. |
| 75 | Wilder, R. L. (1968). Evolution of mathematical concepts: An elementary study. New York: Jonson Wiley & Sons |
 |
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