Book contents
- Frontmatter
- Contents
- Preface
- List of Contributors
- ASSESSMENT, EQUITY, AND OPPORTUNITY TO LEARN
- 1 Introduction
- 2 Assessment Through the Lens of “Opportunity to Learn”
- 3 A Sociological Perspective on Opportunity to Learn and Assessment
- 4 A Sociocultural Perspective on Opportunity to Learn
- 5 Individualizing Assessment and Opportunity to Learn
- 6 Cultural Modeling as Opportunity to Learn
- 7 Opportunities to Learn in Practice and Identity
- 8 Game-Like Learning
- 9 Sociocultural Implications for Assessment I
- 10 Issues of Structure and Issues of Scale in Assessment from a Situative/Sociocultural Perspective
- 11 Sociocultural Implications for Assessment II
- 12 Assessment, Equity, and Opportunity to Learn
- Index
- References
7 - Opportunities to Learn in Practice and Identity
Published online by Cambridge University Press: 05 June 2012
Book contents
- Frontmatter
- Contents
- Preface
- List of Contributors
- ASSESSMENT, EQUITY, AND OPPORTUNITY TO LEARN
- 1 Introduction
- 2 Assessment Through the Lens of “Opportunity to Learn”
- 3 A Sociological Perspective on Opportunity to Learn and Assessment
- 4 A Sociocultural Perspective on Opportunity to Learn
- 5 Individualizing Assessment and Opportunity to Learn
- 6 Cultural Modeling as Opportunity to Learn
- 7 Opportunities to Learn in Practice and Identity
- 8 Game-Like Learning
- 9 Sociocultural Implications for Assessment I
- 10 Issues of Structure and Issues of Scale in Assessment from a Situative/Sociocultural Perspective
- 11 Sociocultural Implications for Assessment II
- 12 Assessment, Equity, and Opportunity to Learn
- Index
- References
Summary
Following Suchman, (1985), Lave, (1988), Lave and Wenger (1991), Hutchins, (1995a), Engeström, (1999), and others, we take a situative perspective in our research and, in this chapter, regarding opportunity to learn (OTL). Conducting analyses of learning with this perspective involves defining activity systems as the unit of analysis, which includes one or more persons interacting with each other and with material and informational resources that are present in the setting. The main emphasis of the situative perspective is on how learning by individuals and groups is accomplished through interaction between elements of an activity system. Of course there are changes in the participating individuals' mental structures, including schemata, but these are not the primary focus of our analyses. In this view, learning by an individual in a community is conceptualized as a trajectory of that person's participation in the community – a path with a past and present, shaping possibilities for future participation. Learning by a group or community is also conceptualized as a trajectory – a path that corresponds to change in the community's practices.
A SITUATIVE PERSPECTIVE ON LEARNING
Individuals Learning in a Community
Lave and Wenger (1991) outlined a situative framework on learning by considering the trajectories of individuals' participation as they become members of a community of practice. As individuals initially join a new activity, their involvement is limited to peripheral participation.
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- Assessment, Equity, and Opportunity to Learn , pp. 170 - 199Publisher: Cambridge University PressPrint publication year: 2008
References
1992. Classrooms: Goals, structures, and student motivation. Journal of Educational Psychology 84: 261–71.CrossRefGoogle Scholar
and . 1988. Achievement goals in the classroom: Students' learning strategies and motivation processes. Journal of Educational Psychology 80: 260–7.CrossRefGoogle Scholar
and . 1998. Inside the black box: Raising standards through classroom assessment. Phi Delta Kappan 80: 139–48.Google Scholar
2002. Experiencing school mathematics: Traditional and reform approaches to teaching and their impact on student learning, revised and expanded edition.Mahwah, NJ: Lawrence Erlbaum Associates. (Originally published 1997)Google Scholar
, , and . 1999. The evolution of mathematical practices: A case study. Cognition and Instruction 17: 25–64.CrossRefGoogle Scholar
Brown, A. L. and J. C. Campione. 1994. Guided discovery in a community of learners. In Classroom lessons: Integrating cognitive theory and classroom practice, edited by . Cambridge: MIT Press.Google Scholar
, , and . Forthcoming. An interpretive scheme for analyzing the identities that students develop in mathematics classrooms.
1986. Designing groupwork: Strategies for the heterogeneous classroom. New York: New Press.Google Scholar
Confrey, J. 1994. Splitting, similarity, and rate of change: A new approach to multiplicative and exponential functions. In The development of multiplicative reasoning in the learning of mathematics, edited by and , 293–332. Albany, N.Y.: SUNY Press.Google Scholar
D'Amato, J. 1992. Resistance and compliance in minority classrooms. In Minority education: Anthropological perspectives, edited by and , 181–207. Norwood, N.J.: Ablex.Google Scholar
1988. The silenced dialogue: Power and pedagogy in educating other people's children. Harvard Educational Review 58: 280–98.CrossRefGoogle Scholar
1999. Self-theories: Their role in motivation, personality, and development. Philadelphia: Psychology Press.Google Scholar
and . 1988. A social-cognitive approach to motivation and personality. Psychological Review 95: 256–73.CrossRefGoogle Scholar
Engeström, Y. 1999. Activity theory and individual and social transformation. In Perspectives on activity theory, edited by , and . New York: Cambridge University Press.CrossRefGoogle Scholar
2001. Expansive learning at work: Toward an activity theoretical reconceptualization. Journal of Education and Work 14: 133–56.CrossRefGoogle Scholar
and . 2002. Guiding principles for fostering productive disciplinary engagement: Explaining an emergent argument in a Community of Learners classroom. Cognition and Instruction 20: 399–483.CrossRefGoogle Scholar
Erickson, F. 1992. Transformation and school success: The policies and culture of educational achievement. In Minority education: Anthropological perspectives, edited by and , 27–51. Norwood, N.J.: Ablex.Google Scholar
Fennema, E., T. P. Carpenter, M. Franke, and D. Carey. 1993. Learning to use children's mathematics thinking: A case study. In Schools, mathematics, and the world of reality, edited by and . Boston: Allyn and Bacon.Google Scholar
1632/1967. Dialogue concerning the two chief world systems. Berkeley: University of California Press.Google Scholar
, C. W. Anderson, P. A. Quiroz, W. G. Secada, T. Williams, and S. Ashman. 2003. Transforming teaching in math and science: How schools and districts can support change. New York: Teachers College Press.Google Scholar
Gee, J. P. 2001. Identity as an analytic lens for research in education. In Review of Research in Education, vol. 25, edited by . Washington, D.C.: American Educational Research Association.Google Scholar
2001. Students with competence, authority, and accountability: Affording intellective identities in classrooms. New York: College Board.Google Scholar
Greeno, J. G., D. R. Smith, and J. L. Moore. 1993. Transfer of situated learning. In Transfer on trial: Intelligence, cognition, and instruction, edited by and , 99–167. Norwood, N.J.: Ablex.Google Scholar
2004. Taking up opportunities to learn: Examining the construction of participatory mathematical identities in middle school students. Palo Alto: Stanford University.Google Scholar
2006, April. Opportunities for whom? Classroom practices and the participatory identities of differentially successful students. Paper presented at the American Educational Research Association.Google Scholar
2003. Teaching and learning mathematics for social justice in an urban, Latino school. Journal for Research in Mathematics Education 34: 37–73.CrossRefGoogle Scholar
, , and . 1996. A case study of systemic aspects of assessment technologies. Educational Assessment 3: 315–61.CrossRefGoogle Scholar
Hall, R. and A. Rubin. 1998. There's five little notches in here: Dilemmas in teaching and learning the conventional structure of rate. In Thinking practices in mathematics and science learning, edited by and , 189–236. Mahwah, N.J.: Erlbaum.Google Scholar
and . 1999. Positioning theory: Moral contexts of intentional action. Oxford: Blackwell Publishers.Google Scholar
Herrenkohl, L. and J. V. Wertsch. 1999. The use of cultural tools: Mastery and appropriation. In Development of mental representation: Theories and applications, edited by , 415–35. Mahwah, N.J.: Lawrence Erlbaum.Google Scholar
, D. Skinner, J. G. Lachicotte, and C. Cain. 1998. Identity in cultural worlds. Cambridge: Harvard University Press.Google Scholar
Jordan, B., and P. Putz. 2004. Assessment as practice: Notes on measures, tests, and targets. Human Organization 63: 346–58.CrossRef
1997. It doesn't add up: African American students' mathematical achievement. Journal for Research in Mathematics Education 28: 697–708.CrossRefGoogle Scholar
1990. When the problem is not the question and the solution is not the answer: Mathematical knowing and teaching. American Educational Research Journal 27: 29–63.CrossRefGoogle Scholar
2001. Teaching problems and the problems of teaching. New Haven: Yale University Press.Google Scholar
1988. Cognition in practice: Mind, mathematics and culture in everyday life. New York: Cambridge University Press.CrossRefGoogle Scholar
and . 1991. Situated learning: Legitimate peripheral participation. New York: Cambridge University Press.CrossRefGoogle Scholar
, , and the Ciulistet Group. 1998. Transforming the culture of schools: Yup'ik Eskimo examples. Mahwah, N.J.: Lawrence Erlbaum.Google Scholar
Marshall, H. 1972. Social constraints on learning. In Learning to work, edited by . Beverly Hills: Sage Publications.Google Scholar
and 1999. Developing children's understanding of the rational numbers: A new model and an experimental curriculum. Journal for Research in Mathematics Education 30: 122–47.CrossRefGoogle Scholar
National Center for Research in Mathematical Sciences Education, and Freudenthal Institute. (1997–1998). Mathematics in Context. Chicago: Encyclopedia Britannica.
1992. Adaptation to minority status and impact on school success. Theory into Practice 31: 287–95.CrossRefGoogle Scholar
Phillips, S. 1972. Participant structures and communicative competence: Warm Springs children in community and classroom. In Functions of language in the classroom, edited by , , and , 370–94. New York: Teachers College Press.Google Scholar
1995. The mangle of practice: Time, agency, and science. Chicago: University of Chicago Press.CrossRefGoogle Scholar
1996. Encountering the world: Toward an ecological psychology. Oxford: Oxford University Press.Google Scholar
and . 2005. Telling identities: In search of an analytic tool for investigating learning as a culturally shaped activity. Educational Researcher 34: 14–22.CrossRefGoogle Scholar
Smith, M. E. 2004. Practices in transition: A case study of classroom assessment. In Standards-based mathematics assessment in middle school, edited by , 60–79. New York: Teachers College Press.Google Scholar
, M. S. Smith, M. A. Henningsen, and E. Silver. 2000. Implementing standards-based mathematics instruction: A casebook for professional development. New York: Teachers College Press.Google Scholar
1985. Plans and situated action: The problem of human-machine communication. Cambridge: Cambridge University Press.Google Scholar
1978. Mind and society: The development of higher psychological processes. Cambridge: Harvard University Press.Google Scholar
1998. Communities of practice: Learning, meaning, and identity. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
1993. Assessing student performance: Exploring the purpose and limits of testing. San Francisco: Jossey-Bass.Google Scholar
and . 1996. Sociomathematical norms, argumentation, and autonomy in mathematics. Journal for Research in Mathematics Education 27: 458–77.CrossRefGoogle Scholar
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