Mixed methods study of middle school mathematics teachers’ content knowledge in usa and russia using sequential nested design
Main Article Content
Аннотация
Article Details
Библиографические ссылки
An S., Kulm G., and Wu Z. The pedagogical content knowledge of middle school, mathematics teachers in China and the U.S. Journal of Mathematics Teacher Education, 2004, 7(2), P. 145–172.
Andrews P. Comparative studies of mathematics teachers' observable learning objectives: Validating low inference codes. Educational Studies in Mathematics, 2009, 71(2), P. 97–122.
Bair S.L. and Ric B.S. Characterizing the development of specialized mathematical content knowledge for teaching in algebraic reasoning and number theory. Mathematical Thinking and Learning, 2011, 13(4), P. 292–321.
Baumert J., Kunter M., Blum W., Brunner M., Voss T., Jordan A., Klusmann U., Krauss S., Neubrand M., and Tsa Y. Teachers’ mathematical knowledge, cognitive activation in the classroom, and student progress. American Educational Research Journal, 2010, 47(1), P. 133–180.
Blomeke S., Suhl U., and Kaiser G. Teacher education effectiveness: Quality and equity of future primary teachers’ mathematics and mathematics pedagogical content knowledge. Journal of Teacher Education, 2011, 62(2), P. 154–171.
Blomeke S. Content, professional preparation, and teaching methods: How diverse is teacher education across countries? Comparative Education Review, 2012, 56(4), 684–714.
Blomeke S., Paine L., Houang R., Hsieh F-J., Schmidt W., Tatto M., Bankov K., Cedilllo T., Cogan L., Han S., Santillan M., and Schwille J. Future teachers’ competence to plan a lesson: first results of a six-country study on the efficiency of teacher education. ZDM, 2008, 40(5), P. 749–762.
Bransford J., Brown A., and Cocking R. How People Learn. Expanded Edition. Washington, DC: National Research Council, 2000.
Cai J. and Wang T. Conceptions of effective mathematics teaching within a cultural context: perspectives of teachers from China and the United States. Journal of Mathematics Teacher Education, 2010, 13(3), P. 265–287.
Cai J., Ding M., and Wang T. How do exemplary Chinese and U.S. mathematics teachers’ view instructional coherence? Educational Studies in Mathematics, 2014, 85(2), 265–280.
Chapman O. Investigating teachers’ knowledge for teaching mathematics. Journal of Mathematics Teacher Education, 2013, 16, P. 237–243.
Charalambous C. and Pitta-Pantazi D. Perspectives on priority mathematics education unpacking and understanding a complex relationship linking teacher knowledge, teaching, and learning. In Handbook of International Research in Mathematics Education, 3rd Edition. Edited by Lyn D. English and David Kirshner. New York, NY: Routledge, 2016, P. 19–59.
Cronbach L.J. Coefficient alpha and the internal structure of the tests. Psychometrica, 1951, 16, P. 297–334.
Davis B. and Simmt E. Mathematics-for-teaching: An ongoing investigation of the mathematics that teachers (need to) know. Educational Studies in Mathematics, 2006, 61, P. 293–319.
Delaney S., Ball D., Hill H., Schilling S., and Zopf D. Mathematical knowledge for teaching: Adapting U.S. measures for use in Ireland. Journal of Mathematics Teacher Education, 2008, 11(3), 171–197.
Ewha R., Ham S-H., and Paine L. Knowledge expectations in mathematics teacher preparation programs in South Korea and the United States: Towards international dialogue. Journal of Teacher Education, 2011, 62(1), 48–61.
Felbrich A., Kaiser G., and Schmotz C. The cultural dimension of beliefs: An investigation of future primary teachers’ epistemological beliefs concerning the nature of mathematics in 15 countries. ZDM, 2012, 44(3), P. 355–366.
Ferrini-Mundy J., Floden R.E., McCrory R., Burrill G., and Sandow D. Knowledge for teaching school algebra: Challenges in developing an analytic framework. East Lansing, MI: Michigan State University, Knowledge of Algebra for Teaching Project. 2005.
Groth R.E. and Bergner J.A. Preservice elementary teachers’ conceptual and procedural knowledge of mean, median, and mode. Mathematical Thinking and Learning, 2006, 8(1), P. 37–63.
Hemmi K. and Ryve A. Effective mathematics teaching in Finnish and Swedish teacher education discourses. Journal of Mathematics Teacher Education, 2015, 18(6), P. 501–521.
Hill H., Schilling S., and Ball D. Developing measures of teachers’ mathematics knowledge for teaching. Elementary School Journal, 2004, 105, P. 11–30.
Hill H.C., Rowan B., and Ball D.L. Effects of teachers’ mathematical knowledge for teaching on student achievement. American Educational Research Journal, 2005, 42(2), P. 371–406.
Hill H., Ball D., and Schilling S. Unpacking pedagogical content knowledge: Conceptualizing and measuring teachers’ topic-specific knowledge of students. Journal for Research in Mathematics Education, 2008, 39(4), P. 372–400.
Izsac A., Jacobson E., and de Araujo Z. Measuring mathematical knowledge for teaching fractions with drawn quantities. Journal for Research in Mathematics Education, 2012, 43(4), P. 391–427.
Kleickmann T., Richter D., Kunter M., Elsner J., Besser M., Krauss S., and Baumert J. Teachers’ content knowledge and pedagogical content knowledge: The role of structural differences in teacher education. Journal of Teacher Education, 2013, 64(1), P. 90–106.
Kvale S. and Brinkmann S. InterViews: Learning the Craft of Qualitative Research Interviewing. 2nd ed. Los Angeles: CA: Sage, 2009.
LeTendre G. Cross-national studies and the analysis of comparative qualitative research. In Steiner-Khamsi G., Torney-Purta J., and Schwille J. (ed.) New paradigms and recurring paradoxes in education for citizenship: An international comparison (International Perspectives on Education and Society, Volume 5). Emerald Group Publishing Limited, 2002, P. 239–277.
Ma L. Knowing and Teaching Elementary Mathematics: Teachers’ Understanding of Fundamental Mathematics in China and the United States. Hillsdale, NJ: Erlbaum, 1999.
Marshall J. and Sorto A. The effects of teacher mathematics knowledge and pedagogy on student achievement in rural Guatemala. International Review of Education, 2012, 58(2), P. 173–197.
Mccrory R., Floden R, Ferrini-Mundy J., Reckase M., and Senk S. Knowledge of algebra for teaching: A framework of knowledge and practices. Journal for Research in Mathematics Education, 2012, 43(5), P. 584–615.
Monk D. and Rice J. Multilevel teacher resource effects on pupil performance in secondary mathematics and science: The case of teacher subject-matter preparation. In R.G. Ehrenberg (Ed.), Choices and consequences: Contemporary policy issues in education. Ithaca, NY: ILR Press, 1994, P. 29–58.
Mullis I.V.S., Martin M.O., Foy P., and Hooper M. TIMSS 2015 International Results in Mathematics. Retrieved from. 2016. URL: http://timssandpirls.bc.edu/ timss2015/international-results/.
Murphy C. The role of subject knowledge in primary prospective teachers’ approaches to teaching the topic of area. Journal of Mathematics Teacher Education, 2012, 15(3), P. 187–206.
Nason R., Chalmers C., and Yeh A. Facilitating growth in prospective teachers’ knowledge: Teaching geometry in primary schools. Journal of Mathematics Teacher Education, 2012, 15(3), P. 227–249.
Ng S. and Rao N. Chinese number words, culture, and mathematics learning. Review of Educational Research, 2010, 80(2), P. 180–206.
Robitaille D.F. and Travers K.J. International studies of achievement in mathematics. In D.A. Grouws (Ed.), Handbook of mathematics teaching and learning. New York: Macmillan Publishing Company, 1992,P. 687–709.
Rowland T., Huckstep P., and Thwaites A. Elementary teachers’ mathematics subject knowledge: The knowledge quartet and the case of Naomi. Journal of Mathematics Teacher Education, 2005, 8, P. 255–281.
Schoenfeld A. The complexities of assessing teacher knowledge. In Measurement: Interdisciplinary Research and Perspectives, 2007, 5 (2-3), P. 198–204.
Senk S., Tatto M., Reckase M., Rowley G., Peck R., and Bankov K. Knowledge of future primary teachers for teaching mathematics: an international comparative study. ZDM, 2012, 44(3), P. 307–324.
Seaberg R. Mathematics lessons from Finland and Sweden. The Mathematics Teacher, 2015, 108(8), P. 593–598.
Schmidt W., Cogan L., and Houang R. The role of opportunity to learn in teacher preparation: An international context. Journal of Teacher Education, 2011, 62(2), P. 138–153.
Shulman L. Those who understand: Knowledge growth in teaching. Educational Researcher, 1986, 15(2), P. 4–14.
Sorto M., Marshall J., Luschel T., and Carnoy M. Teacher knowledge and teaching in Panama and Costa Rica: A comparative study in primary and secondary education. Revista Latinoamerica de Investigacion en Matematica Educativa, 2009, 12(2), P. 251–290.
Stein M., Smith M., Henningsen M., and Silver E. Implementing standards-based mathematics instruction: A casebook for professional development. Foreword by Deborah Ball. New York, NY: Teachers College Press, 2000.
Steinberg T., Haymore J., and Marks R. Teacher’s knowledge and structuring content in mathematics. Paper presented at the Annual meeting of American Educational Research Association, Chicago, 1985.
Stigler J.W. and Perry M. Cross-cultural studies of mathematics teaching and learning: Recent finding and new directions. In D. Grouws and T. Cooney (Eds.), Effective mathematics teaching directions. Reston, VA: National Council of Teachers of Mathematics, 1988, P. 194–223.
Tashakkori A. and Teddlie C. Handbook of Mixed Methods in Social and Behavioral Research. Thousand Oaks, CA: Sage, 2003.
Tatto M. and Senk S. The mathematics education of future primary and secondary teachers: Methods and findings from the Teacher Education and Development Study in Mathematics (TEDS-M), Journal of Teacher Education, 2011, 62 (2), P. 121–137
Tatto M.T. (Ed.). The Teacher Education and Development Study in Mathematics (TEDS-M): Policy, practice, and readiness to teach primary and secondary mathematics in 17 countries. Technical report. Amsterdam: IEA, 2013.
Tchoshanov M.A. Relationship between teacher knowledge of concepts and connections, teaching practice, and student achievement in middle grades mathematics. Educational Studies in Mathematics, 2011, 76(2), P. 141–164.
Tchoshanov M., Cruz Quinones M., Shakirova K., Ibragimova E., and Shakirova L. Analyzing connections between teacher and student topic-specific knowledge of lower secondary mathematics. Journal of Mathematical Behavior, 2017, 47, P. 54–69.
Tchoshanov M., Cruz Quinones M., Shakirova K., Ibragimova E., and Shakirova L. Examination of lower secondary mathematics teachers’ content knowledge and its connection to students’ performance. International Journal of Science and Mathematics Education, 2017, 15(4), P. 683–702.
Wagner S., Lee H., and Ozgun-Koca S. A comparative study of the United States, Turkey, and Korea: Attitudes and beliefs of preservice mathematics teachers towards mathematics, teaching mathematics, and their teacher preparation programs. Proceedings of the Annual Meeting of Association of Mathematics Teacher Educators. Chicago, IL, 1999.
Wang J. and Lin E. Comparative studies on the U.S. and Chinese mathematics learning and the implications for standards-based mathematics teaching reform. Educational Researcher, 2005, 34(5), P. 3–13.
Представляя статьи для публикации в журнале «Электронные библиотеки», авторы автоматически дают согласие предоставить ограниченную лицензию на использование материалов Казанскому (Приволжскому) федеральному университету (КФУ) (разумеется, лишь в том случае, если статья будет принята к публикации). Это означает, что КФУ имеет право опубликовать статью в ближайшем выпуске журнала (на веб-сайте или в печатной форме), а также переиздавать эту статью на архивных компакт-дисках журнала или включить в ту или иную информационную систему или базу данных, производимую КФУ.
Все авторские материалы размещены в журнале «Электронные библиотеки» с ведома авторов. В случае, если у кого-либо из авторов есть возражения против публикации его материалов на данном сайте, материал может быть снят при условии уведомления редакции журнала в письменной форме.
Документы, изданные в журнале «Электронные библиотеки», защищены законодательством об авторских правах, и все авторские права сохраняются за авторами. Авторы самостоятельно следят за соблюдением своих прав на воспроизводство или перевод их работ, опубликованных в журнале. Если материал, опубликованный в журнале «Электронные библиотеки», с разрешения автора переиздается другим издателем или переводится на другой язык, то ссылка на оригинальную публикацию обязательна.
Передавая статьи для опубликования в журнале «Электронные библиотеки», авторы должны принимать в расчет, что публикации в интернете, с одной стороны, предоставляют уникальные возможности доступа к их материалам, но, с другой, являются новой формой обмена информацией в глобальном информационном обществе, где авторы и издатели пока не всегда обеспечены защитой от неправомочного копирования или иного использования материалов, защищенных авторским правом.
При использовании материалов из журнала обязательна ссылка на URL: http://rdl-journal.ru. Любые изменения, дополнения или редактирования авторского текста недопустимы. Копирование отдельных фрагментов статей из журнала разрешается для научных исследований, персонального использования, коммерческого использования до тех пор, пока есть ссылка на оригинальную статью.
Запросы на право переиздания или использования любых материалов, опубликованных в журнале «Электронные библиотеки», следует направлять главному редактору Елизарову А.М. по адресу: amelizarov@gmail.com
Издатели журнала «Электронные библиотеки» не несут ответственности за точки зрения, излагаемые в публикуемых авторских статьях.
Предлагаем авторам статей загрузить с этой страницы, подписать и выслать в адрес издателя журнала по электронной почте скан Авторского договора о передаче неисключительных прав на использование произведения.