Oznamujeme autorům a čtenářům, že po dohodě s nakladatelstvím Karolinum bude od roku 2024 (ročník 18) časopis Orbis scholae vycházet pouze v elektronické podobě.
Orbis scholae je odborný recenzovaný časopis zaměřený na problematiku školního vzdělávání v jeho širších sociokulturních souvislostech. Cílem časopisu je přispět k porozumění školnímu vzdělávání a jeho rozvoji, k řešení problémů praxe a vzdělávací politiky.
Časopis je zařazen do databází SCOPUS, CEEOL, DOAJ, EBSCO a ERIH Plus.
ORBIS SCHOLAE, Vol 12 No 2 (2018), 101–124
Factors Explaining the Interest of Czech Students in Reading and Mathematics
Eva Potužníková
DOI: https://doi.org/10.14712/23363177.2018.295
zveřejněno: 25. 01. 2019
Abstract
The goal of the empirical study is to identify significant predictors of student interest in reading and mathematics using data from international large-scale assessments. According to studies of interest development in educational settings, certain instructional techniques are able to evoke situational interest, whereas personal relevance and active involvement are sources of maintained interest. This study compares the effect of engaging instruction with the effect of student-related characteristics, such as gender, family background, free time preferences and perceived difficulty of the subject. The analyses were performed on PIRLS and TIMSS 2011 data for Grade 4 students from the Czech Republic separately for reading (N = 4556) and mathematics (N = 4578). In addition, data from a national follow-up study in Grade 6 was used to study interest development (N = 2955 for reading, N = 2956 for mathematics). Engaging instruction is positively associated with student interest in Grade 4 in both domains. The percentage of students declaring a positive attitude is close to 80% in both domains. A slight decrease in interest levels between Grades 4 and 6 was identified. While the most powerful predictor of interest in reading in Grade 6 is the former interest level, interest in mathematics is best predicted by perceived difficulty. Implications for instructional practice are also discussed.
klíčová slova: student interest; reading; mathematics; engaging instruction; PIRLS; TIMSS
reference (36)
1. Bandura, A. (1977). Self-efficacy: Toward a unifying theory of behavioural change. Psychological Review, 84(2), 191–215. CrossRef
2. Chvál, M. (2013). Změna postojů českých žáků k matematice během školní docházky [Change of attitudes of Czech pupils towards mathematics during school attendance]. Orbis Scholae, 7(3), 49–71. CrossRef
3. Cortright, R. N., Lujan, H. L., & Blumberg, A. J. (2013). Higher levels of intrinsic motivation are related to higher levels of class performance for male but not female students. Advances in Physiology Education, 37(3), 227–232. CrossRef
4. Deci, E. L., & Ryan, R. M. (1985). Intrinsic motivation and self-determination in human behavior. New York: Plenum. CrossRef
5. Eccles (Parsons), J., Adler, T. F., Futterman, R., Goff, S. B., Kaczala, C. M., Meece, J. L., & Midgley, C. (1983). Expectancies, values, and academic behaviors. In J. T. Spence (Ed.), Achievement and achievement motivation: Psychological and sociological approaches (pp. 75–146). San Francisco, CA: W. H. Freeman.
6. Federičová, M., & Münich, D. (2015). Srovnání žákovské obliby školy a matematiky pohledem mezinárodních šetření [A comparison of satisfaction with school and mathematics from the perspective of international testing programs]. Pedagogická orientace, 25(4), 557–582. CrossRef
7. Fredricks, J. A., & Eccles, J. S. (2002). Children's competence and value beliefs from childhood through adolescence: Growth trajectories in two male-sex-typed domains. Developmental Psychology, 38(4), 519–533. CrossRef
8. Frenzel, A. C., Goetz, T., Pekrun, R., & Watt, H. M. G. (2010). Development of mathematics interest in adolescence: Influences of gender, family, and school context. Journal of Research on Adolescence, 20(2), 507–537 CrossRef
9. Gläser-Zikuda, M., Stuchlíková, I., & Janík, T. (2013). Emotional aspects of learning and teaching: Reviewing the field – discussing the issues. Orbis scholae, 7(2), 7–22. CrossRef
10. Gottfried, A. E., Marcoulides, G. A., Gottfried, A. W. & Oliver, P. H. (2013). Longitudinal pathways from math intrinsic motivation and achievement to math course accomplishments and educational attainment. Journal of Research on Educational Effectiveness, 6(1), 68–92. CrossRef
11. Gustafsson, J.-E., Yang Hansen, K., & Rosén, M. (2013). Effects of home background on student achievement in reading, mathematics and science at the fourth grade. In M. O. Martin & I. V. S. Mullis (Eds.), TIMSS and PIRLS 2011: Relationships among reading, mathematics, and science achievement at the fourth grade – implications for early learning. Chestnut Hill, MA: TIMSS & PIRLS International Study Center, Lynch School of Education, Boston College.
12. Hidi, S., & Renninger, K. A. (2006). The four-phase model of interest development. Educational Psychologist, 41(2), 111–127. CrossRef
13. Kearney, C. (2016). Efforts to Increase Students' Interest in Pursuing Mathematics, Science and Technology Studies and Careers. National Measures taken by 30 Countries – 2015 Report. Brussels: European Schoolnet.
14. Köller, O., Baumert, J., & Schnabel, K. (2001). Does interest matter? The relationship between academic interest and achievement in mathematics. Journal for Research in Mathematics Education, 32(5), 448−470. CrossRef
15. Korhonen, J., Tapola, A., Linnanmäki, K., & Aunio, P. (2016). Gendered pathways to educational aspirations: The role of academic self-concept, school burnout, achievement and interest in mathematics and reading. Learning and Instruction, 46, 21–33. CrossRef
16. Krapp, A. (2002). Structural and dynamic aspects of interest development: Theoretical considerations from an ontogenetic perspective. Learning and Instruction, 12(4), 383–409. CrossRef
17. Krapp, A. (2007). An educational-psychological conceptualization of interest. International Journal for Educational and Vocational Guidance, 7(1), 5–21. CrossRef
18. Martin, M. O., & Mullis, I. V. S. (Eds.). (2012). Methods and procedures in TIMSS and PIRLS 2011. Chestnut Hill, MA: TIMSS & PIRLS International Study Center, Boston College.
19. McLaughlin, M., McGrath, D. J., Burian-Fitzgerald, M. A., Lanahan, L., Scotchmer, M., Enyeart, C., & Salganik, L. (2005). Student content engagement as a construct for the measurement of effective classroom instruction and teacher knowledge. Washington, D.C.: American Institutes for Research. CrossRef
20. Mullis, I. V. S., Martin, M. O., Kennedy, A. M., Trong, K. T, & Sainsbury, M. (2009a). PIRLS 2011 assessment framework. Chestnut Hill, MA: TIMSS & PIRLS International Study Center, Boston College.
21. Mullis, I. V. S., Martin, M. O., Ruddock, G. J., O'Sullivan, C. Y., & Preuschoff, C. (2009b). TIMSS 2011 assessment frameworks. Chestnut Hill, MA: TIMSS & PIRLS International Study Center, Boston College.
22. Mullis, I. V. S., Martin, M. O., Foy, P., & Drucker, K. T. (2012a). PIRLS international results in reading. Chestnut Hill, MA: TIMSS & PIRLS International Study Center, Boston College.
23. Mullis, I. V. S., Martin, M. O., Foy, P., & Arora, A. (2012b). TIMSS international results in mathematics. Chestnut Hill, MA: TIMSS & PIRLS International Study Center, Boston College.
24. Mullis, I. V. S., & Martin, M. O. (Eds.). (2015). PIRLS 2016 assessment framework (2nd ed.). Chestnut Hill, MA: TIMSS & PIRLS International Study Center, Boston College.
25. Nagy, G., Trautwein, U., Baumert, J., Köller, O., & Garrett, J. (2006). Gender and course selection in upper secondary education: Effects of academic self-concept and intrinsic value. Educational Research and Evaluation, 12(4), 323–345. CrossRef
26. O'Brien, R. M (2007). A caution regarding rules of thumb for variance inflation factors. Quality & Quantity, 41(5), 673–690. CrossRef
27. OECD (2010). PISA 2009 results: Learning to learn – student engagement, strategies and practices (Volume III). Paris: OECD.
28. Pajares, F., & Miller, D. (1994). Role of self-efficacy and self-concept beliefs in mathematical problem solving: A path analysis. Journal of Educational Psychology, 86(2), 193–203. CrossRef
29. Pavelková, I., & Hrabal, V. (2012). Mathematics in perception of pupils and teachers. Orbis scholae, 6(2), 119–132. CrossRef
30. Renninger, K. A., & Hidi, S. (2011). Revisiting the conceptualization, measurement, and generation of interest. Educational Psychologist, 46(3), 168–184. CrossRef
31. Ronková, J. (2015). Rozvoj čtenářské gramotnosti: Edukační model na bázi metody Podvojného zápisu [Disertační práce] [Development of reading literacy: Educational model based on the double-entry diary method (Doctoral thesis)]. Praha: Univerzita Karlova, Pedagogická fakulta.
32. Rotgans, J. I., & Schmidt, H. G. (2017). Interest development: Arousing situational interest affects growth trajectory of individual interest. Contemporary Educational Psychology, 49, 175–184. CrossRef
33. Savelsbergh, E. R., Prins, G. T., Rietbergen, C., Fechner, S., Vaessen, B. E., Draijer, J. M., & Bakker, A. (2016). Effects on innovative science and mathematics teaching on student attitudes and achievement: A meta-analytic study. Educational Research Review, 19, 158–172. CrossRef
34. Springer, S. E., Harris, S., & Dole, J. A. (2017). From surviving to thriving: Four research-based principles to build students' reading interest. The Reading Teacher, 71(1), 43–50. CrossRef
35. Straková, J. (2016). Mezinárodní výzkumy výsledků vzdělávání. Metodologie, přínosy, rizika a příležitosti [International large-scale assessment surveys: Methodology, benefits, risks, and opportunities]. Praha: Univerzita Karlova, Pedagogická fakulta.
36. Wigfield, A., & Eccles, J. S. (2000). Expectancy-value theory of achievement motivation. Contemporary Educational Psychology, 25, 68–81. CrossRef
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ISSN: 1802-4637
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