Hans Lehikoinen, Pertti Väisänen, Sari Havu-Nuutinen, Kristiina Lappalainen, Markku Niemivirta
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引用次数: 0
Abstract
This study investigated the role of co-teaching in the development of students’ mathematics motivation and achievement. More specifically, we examined how sixth-grade students’ (N = 146) mathematics self-concept and individual interest changed over one school year, how these changes were related to each other and to mathematics achievement, and, most importantly, whether they differed between co-teaching and solo-teaching conditions. The co-teaching condition included 70 students in three classes with mathematics taught by pairs of teachers, while the solo-teaching condition included 76 students in four classes with mathematics taught by individual class teachers. The design included three repeated measures of mathematics self-concept and interest as well as pre- and post-measures of mathematics test performance and teacher-rated mathematics grades. A series of latent growth curve analyses showed both self-concept and individual interest to decline over time, and these changes to be strongly correlated: as self-concept decreased, so did interest, and vice versa. The changes in self-concept and interest were independent of prior achievement and did not predict later achievement either. Students in the co-taught group received better grades at the end of the year, but no differences in the development of self-concept and individual interest were found between the teaching conditions. That is, co-teaching contributed to improvement in mathematics achievement, but this was not mediated by changes in mathematics motivation.
期刊介绍:
Instructional Science, An International Journal of the Learning Sciences, promotes a deeper understanding of the nature, theory, and practice of learning and of environments in which learning occurs. The journal’s conception of learning, as well as of instruction, is broad, recognizing that there are many ways to stimulate and support learning. The journal encourages submission of research papers, covering a variety of perspectives from the learning sciences and learning, by people of all ages, in all areas of the curriculum, in technologically rich or lean environments, and in informal and formal learning contexts. Emphasizing reports of original empirical research, the journal provides space for full and detailed reporting of major studies. Regardless of the topic, papers published in the journal all make an explicit contribution to the science of learning and instruction by drawing out the implications for the design and implementation of learning environments. We particularly encourage the submission of papers that highlight the interaction between learning processes and learning environments, focus on meaningful learning, and recognize the role of context. Papers are characterized by methodological variety that ranges, for example, from experimental studies in laboratory settings, to qualitative studies, to design-based research in authentic learning settings. The Editors will occasionally invite experts to write a review article on an important topic in the field. When review articles are considered for publication, they must deal with central issues in the domain of learning and learning environments. The journal accepts replication studies. Such a study should replicate an important and seminal finding in the field, from a study which was originally conducted by a different research group. Most years, Instructional Science publishes a guest-edited thematic special issue on a topic central to the journal''s scope. Proposals for special issues can be sent to the Editor-in-Chief. Proposals will be discussed in Spring and Fall of each year, and the proposers will be notified afterwards. To be considered for the Spring and Fall discussion, proposals should be sent to the Editor-in-Chief by March 1 and October 1, respectively. Please note that articles that are submitted for a special issue will follow the same review process as regular articles.