Abstract
This article describes a one-year study of 120 fifth grade students whose teachers participated in a program entitled Project SMILE (Science and Mathematics Integrated with Literary Experiences). The purpose of the study was to determine the extent to which the classroom implementation of Project SMILE positively influenced the classroom environment and student attitudes toward reading, writing and mathematics. This was accomplished by, first, facilitating a series of professional development workshops with the teachers and, subsequently, asking these teachers to use the strategies with their students in their elementary school classrooms. The research represents one of the relatively few studies that have employed learning environment dimensions as criteria of effectiveness in the evaluation of educational innovations. Methodologically, our study supported previous research that successfully combined qualitative and quantitative methods of data collection. The learning environment and attitude scales exhibited satisfactory internal consistency reliability and discriminant validity and, additionally, the actual form of most learning environment scales was capable of differentiating between the perceptions of students in different classrooms. The implementation of SMILE was found to have a positive impact on the students of the teachers who participated in the inservice program in that students’ attitudes to mathematics and reading improved and there was congruence between students’ actual and preferred classroom environment on the scales of satisfaction and difficulty. As well, prior research was replicated in that students’ satisfaction was greater in classrooms with a more positive learning environment, especially in terms of student cohesiveness. Finally, qualitative data-gathering methods were used to construct a case study of the mathematics classes of a teacher who attended the SMILE professional development. This case study supported and illuminated the results from the questionnaire survey concerning the effectiveness of Project SMILE in terms of student attitudes and classroom environment.
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Battista, M. (1999). The mathematical miseducation of America’s youth. Kappan, 80, 424–433.
Dryden, M. & Fraser, B. (1998, April). The impact of systemic reform efforts in promoting constructivist approaches in high school science. Paper presented at the annual meeting of the American Educational Research Association, San Diego, CA.
Erickson, F. (1998). Qualitative research methods for science education. In Fraser & Tobin (Eds.), International handbook of science education (pp. 1155–1173). Dordrecht, the Netherlands: Kluwer Academic Publishers.
FDOE (Florida Department of Education) (1997). The basics of school improvement and accountability in Florida GE356. Tallahassee, FL: Florida Department of Education.
Fisher, D.L. & Fraser, B.J. (1981). Validity and use of My Class Inventory. Science Education, 65, 145–156.
Fisher, D.L. & Fraser, B.J. (1983). A comparison of actual and preferred classroom environments as perceived by science teachers and students. Journal of Research in Science Teaching, 20, 55–61.
Fraser, B.J. (1989). Assessing and improving classroom environment (What Research Says to the Science and Mathematics Teacher, No 2). Perth, Australia: Curtin University of Technology.
Fraser, B.J. (1994). Research on classroom and school climate. In Gabel (Ed.), Handbook of research on science teaching and learning (pp. 493–541). New York: Macmillan.
Fraser, B.J. (1998a). Science learning environments: Assessment, effects and determinants. In Fraser & Tobin (Eds.), International handbook of science education (pp. 527–563). Dordrecht, The Netherlands: Kluwer Academic Publishers.
Fraser, B.J. (1998b). Classroom environment instruments: Development, validity and applications. Learning Environments Research: An International Journal, 1, 7–33.
Fraser, B.J. & Fisher, D.L. (1986). Using short forms of classroom climate instruments to assess and improve classroom psychosocial environment. Journal of Research in Science Teaching, 23, 387–413.
Fraser, B.J. & O’Brien, P. (1985). Student and teacher perceptions of the environment of elementary-school classrooms. Elementary School Journal, 85, 567–580.
Fraser, B.J. & Tobin, K. (1991). Combining qualitative and quantitative methods in classroom environment research. In Fraser & Walberg (Eds.), Educational environments: Evaluation, antecedents, and consequences (pp. 279–291). London: Pergamon.
Fraser, B.J. & Walberg, H.J. (Eds.) (1991). Educational environments: Evaluation, antecedents, and consequences. London: Pergamon.
Goh, S.C. & Khine, M.S. (Eds.) (2002). Studies in educational learning environments: An international perspective. Singapore: World Scientific.
Goh, S.C., Young, D.J. & Fraser, B.J. (1995). Psychosocial climate and student outcomes in elementary mathematics classrooms: A multilevel analysis. Journal of Experimental Education, 64, 29–40.
Kennedy, L. & Tipps, S. (2000). Guiding children’s learning of mathematics. Belmont, CA: Wadsworth/Thomason Learning.
Khine, M.S. & Fisher, D.L. (Eds.) (2003). Technology-rich learning environments: A future perspective. Singapore: World Scientific.
Majeed, A., Fraser, B.J. & Aldridge, J.M. (2003). Learning environment and its association with student satisfaction among mathematics students in Brunei Darussalam. Learning Environments Research: An International Journal, 5, 203–226.
Maor, D. & Fraser, B. (1996). Use of classroom environment perceptions in evaluating inquiry-based computer assisted learning. International Journal of Science Education, 18, 401–421.
McRobbie, C.J. & Fraser, B.J. (1993). Associations between student outcomes and psychosocial science environment. Journal of Educational Research, 87, 78–85.
NAEP (National Assessment of Educational Progress) (1988). The fifth national mathematics assessment: Results, trends, and issues. Denver, CO: National Assessment of Educational Progress.
NCTM (National Council for Teachers of Mathematics) (1989). Curriculum and evaluation standards for school mathematics. Reston, VA: National Council for Teachers of Mathematics.
Nix, R.K., Ledbetter, C. & Fraser, B.J. (2004, April). Using the Constructivist Learning Environment Survey to inform design, guide delivery, and enable multi-level program evaluation. Paper presented at the annual meeting of the American Educational Research Association, San Diego, CA.
OEEMA (Office of Educational Evaluation and Management Analysis) (1999). MDCPS statistical abstract 1998–1999. Miami, FL: MDCPS School Board.
OEEMA (Office of Educational Evaluation and Management Analysis) (2000). MDCPS statistical abstract 1999–2000. Miami, FL: MDCPS School Board.
Santa, C.M. (1996). Project CRISS, 2nd edn. Dubuque, IA: Kendall Hunt.
Spinner, H. & Fraser, B.J. (in press). Evaluation of an innovative mathematics program in terms of classroom environment, students’ attitudes and conceptual development. International Journal of Science and Mathematics Education.
Thompson, B. (1998). Review of ‘what if there were no significance tests?’ Educational Psychological Measurement, 58, 334–336.
Tobin, K. & Fraser, B.J. (1998). Qualitative and quantitative landscapes of classroom learning environments. In Fraser & Tobin (Eds.), International handbook of science education (pp. 623–640). Dordrecht, The Netherlands: Kluwer Academic Publishers.
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Mink, D.V., Fraser, B.J. Evaluation of a K–5 Mathematics Program Which Integrates Children’s Literature: Classroom Environment and Attitudes. Int J Sci Math Educ 3, 59–85 (2005). https://doi.org/10.1007/s10763-004-2975-0
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DOI: https://doi.org/10.1007/s10763-004-2975-0