Kitchen science investigators: promoting identity development as scientific reasoners and thinkers

My research centers upon designing transformative learning environments and supporting technologies. Kitchen Science Investigators (KSI) is an out-of-school transformative learning environment we designed to help young people learn science through cooking. My dissertation considers the question, 'How can we design a learning environment in which children discover the utility of science in their lives and their own scientific capabilities?’ I have explored this question in the context of designing and enacting KSI. We designed the environment (i.e., activities, facilitation, and technology support) so that in the midst of cooking, participants generate personal goals that they need science to achieve. Our design integrates software to promote scientific practices in a real world context. In my thesis research I analyze how learners are developing identity as scientific reasoners in this environment. I also make recommendations about the design of learning environments and technologies to help with scientific development. My dissertation study is a longitudinal study of individuals in our most recent implementation of KSI. My current analysis of KSI shows significant development of disposition and identity development among focal learners, as well as a set of causal factors. I found that as learners connected cooking and science, and as they participated in science socially with their friends, they began to increase their scientific participation in and outside of KSI. My findings suggest guidelines for software support, facilitation, and activities for getting learners engaged in scientific inquiry in ways that promote the development of scientific identities.

[1]  Ann C. H. Kindfield,et al.  Integrating Curriculum, Instruction, Assessment, and Evaluation in a Technology-Supported Genetics Learning Environment , 2003 .

[2]  Melissa Sommerfeld Gresalfi,et al.  Taking Up Opportunities to Learn: Constructing Dispositions in Mathematics Classrooms , 2009 .

[3]  Paul Cobb,et al.  Cultivating Students' Discipline-Specific Dispositions as a Critical Goal for Pedagogy and Equity , 2006 .

[4]  Janet L. Kolodner,et al.  Promoting Learning in Informal Learning Environments , 2006, ICLS.

[5]  J. Gee Identity as an analytic lens for research in education , 2000 .

[6]  Elliot Soloway,et al.  Symphony: a case study in extending learner-centered design through process space analysis , 1999, CHI '99.

[7]  L. Resnick,et al.  Knowing, Learning, and Instruction , 2018 .

[8]  N. Nasir,et al.  What Does It Mean to Be African American? Constructions of Race and Academic Identity in an Urban Public High School , 2009 .

[9]  Mary Ratcliffe,et al.  What “ideas‐about‐science” should be taught in school science? A Delphi study of the expert community , 2003 .

[10]  E. Keller,et al.  A feeling for the organism : the life and work of Barbara McClintock , 1985 .

[11]  J. Kolodner Educational implications of analogy. A view from case-based reasoning. , 1997, The American psychologist.

[12]  K. Crowley,et al.  Learning conversations in museums , 2002 .

[13]  L. Katz Dispositions as Educational Goals. ERIC Digest. , 1993 .

[14]  Janet L. Kolodner,et al.  Turning on minds with computers in the kitchen: supporting group reflection in the midst of engaging in hands-on activities , 2007, CSCL.

[15]  Janet L. Kolodner,et al.  Bricoleurs and Planners engaging in Scientific Reasoning: a Tale of Two Groups in One Learning Community , 2007, Res. Pract. Technol. Enhanc. Learn..

[16]  David W. Shaffer,et al.  Epistemic frames for epistemic games , 2006, Comput. Educ..

[17]  Amy Bruckman,et al.  Community Support for Constructionist Learning , 2004, Computer Supported Cooperative Work (CSCW).

[18]  J. Mezirow Transformative Dimensions of Adult Learning , 1991 .

[19]  A. E. Yoder Barriers to ego identity status formation: a contextual qualification of Marcia's identity status paradigm. , 2000, Journal of adolescence.

[20]  A. Collins,et al.  Cognition and learning. , 1996 .

[21]  Mark Guzdial,et al.  Software-Realized Scaffolding to Facilitate Programming for Science Learning , 1994, Interact. Learn. Environ..

[22]  BONNIE A. NARDI,et al.  Beyond Bandwidth: Dimensions of Connection in Interpersonal Communication , 2005, Computer Supported Cooperative Work (CSCW).

[23]  Anne McKeough,et al.  Teaching for transfer: Fostering generalization in learning. , 1995 .

[24]  Annemarie S. Palincsar,et al.  Motivating Project-Based Learning: Sustaining the Doing, Supporting the Learning , 1991 .

[25]  Etienne Wenger,et al.  Situated Learning: Legitimate Peripheral Participation , 1991 .

[26]  T. Cline,et al.  Schooled mathematics and cultural knowledge , 2003 .

[27]  Susan E. Newman,et al.  Cognitive Apprenticeship: Teaching the Craft of Reading, Writing, and Mathematics. Technical Report No. 403. , 1987 .

[28]  J. Marcia Development and validation of ego-identity status. , 1966, Journal of personality and social psychology.

[29]  T. Duffy,et al.  2 From Practice Fields to Communities of Practice , 2001 .

[30]  Jim Hewitt An Exploration of Community in a Knowledge Forum Classroom: An Activity System Analysis , 2004 .

[31]  C. Cooley,et al.  The Looking-Glass Self , 1993 .

[32]  Kate T. Anderson,et al.  Negotiating Linguistic and Cultural Identities: Theorizing and Constructing Opportunities and Risks in Education , 2009 .

[33]  N. Nasir,et al.  Identity, Goals, and Learning: Mathematics in Cultural Practice , 2002 .

[34]  Patricia Cranton,et al.  Teaching for Transformation , 2002 .

[35]  Heidi B. Carlone,et al.  Understanding the Science Experiences of Successful Women of Color: Science Identity as an Analytic Lens. , 2007 .

[36]  N. Nasir,et al.  “Points Ain't Everything”: Emergent Goals and Average and Percent Understandings in the Play of Basketball among African American Students , 2000 .

[37]  B. Brown,et al.  “It isn't no slang that can be said about this stuff”: Language, identity, and appropriating science discourse , 2006 .

[38]  H. Kohl I Won't Learn from You: And Other Thoughts on Creative Maladjustment , 1994 .

[39]  C. Chinn,et al.  Epistemologically Authentic Inquiry in Schools: A Theoretical Framework for Evaluating Inquiry Tasks , 2002 .

[40]  John M. Reveles,et al.  Scientific literacy and discursive identity: A theoretical framework for understanding science learning , 2005 .

[41]  C. Bereiter,et al.  Liberal education in a knowledge society , 2002 .

[42]  S. Fordham,et al.  Racelessness as a Factor in Black Students' School Success: Pragmatic Strategy or Pyrrhic Victory? , 1988 .

[43]  Jo Boaler,et al.  The Development of Disciplinary Relationships: Knowledge, Practice, and Identity in Mathematics Classrooms. , 2002 .

[44]  Etienne Wenger,et al.  Communities of Practice: Learning, Meaning, and Identity , 1998 .

[45]  Seymour Papert,et al.  Mindstorms: Children, Computers, and Powerful Ideas , 1981 .

[46]  N. Brickhouse,et al.  Young women's scientific identity formation in an urban context , 2001 .

[47]  K. Crowley,et al.  Building Islands of Expertise in Everyday Family Activity , 2002 .

[48]  Janet L. Kolodner,et al.  Problem-Based Learning Meets Case-Based Reasoning in the Middle-School Science Classroom: Putting Learning by Design(tm) Into Practice , 2003 .

[49]  Daniel L. Schwartz,et al.  Doing with Understanding: Lessons from Research on Problem- and Project-Based Learning , 1998 .

[50]  湯淺 太一,et al.  20世紀の名著名論:Seymour Papert: Mindstorms:Children Computers and Powerful Ideas Basic Books New York 1980 , 2005 .

[51]  R. Yin Case Study Research: Design and Methods , 1984 .

[52]  J. Wertsch Vygotsky and the Social Formation of Mind , 1985 .

[53]  Matthew B. Miles,et al.  Qualitative Data Analysis: An Expanded Sourcebook , 1994 .

[54]  T. Oko Interviewing as Qualitative Research: A Guide for Researchers in Education and the Social Sciences. , 1992 .

[55]  Richard C. Thomas,et al.  Learning and Transfer , 1998 .

[56]  Geoffrey B. Saxe,et al.  Ethnic and Academic Identities: A Cultural Practice Perspective on Emerging Tensions and Their Management in the Lives of Minority Students , 2003 .

[57]  R. Yin Yin, Robert K., Case Study Research: Design and Methods, 2nd ed. Newbury Park, CA: Sage, 1994. , 1994 .

[58]  Janet L. Kolodner,et al.  Playing with food: moving from interests and goals into scientifically meaningful experiences , 2010, ICLS.

[59]  Joseph Krajcik,et al.  A Scaffolding Design Framework for Software to Support Science Inquiry , 2004, The Journal of the Learning Sciences.

[60]  A. Ahlgren,et al.  Science for all Americans , 1990 .

[61]  Timothy Koschmann,et al.  Cscl : Theory and Practice of An Emerging Paradigm , 1996 .

[62]  Leona Schauble,et al.  Parents' Assistance of Their Children's Scientific Reasoning. , 1999 .

[63]  Michael E. Gorman,et al.  Levels of Expertise and Trading Zones: Combining Cognitive and Social Approaches to Technology Studies , 2002 .

[64]  M. Scardamalia Collective cognitive responsibility for the advancement of knowledge , 2002 .

[65]  Edith Ackermann,et al.  Hidden Drivers of Pedagogic Transactions: Teachers as Clinicians and Designers , 2003 .

[66]  James H. Gray,et al.  Designing for Virtual Communities in the Service of Learning: COMING TO TERMS WITH COMMUNITY , 2004 .

[67]  Kate T. Anderson Applying positioning theory to the analysis of classroom interactions: Mediating micro-identities, macro-kinds, and ideologies of knowing , 2009 .