Marginalized Identities of Sense‐Makers: Reframing Engineering Student Retention

Background Students' identities and sense of belonging in a program affect whether they stay in engineering. Research suggests that students' ways of knowing and beliefs about what counts as knowing and learning – their personal epistemologies – can be aspects of their identities, or sense of self as knowers and learners. Purpose/Hypothesis Combining personal epistemology and identity theories suggests epistemological aspects of students' identities can influence whether they feel they belong in their engineering program. We have two research questions: Can a high-achieving engineering student be in danger of leaving a program because of a mismatch between epistemological aspects of his identity and his perceptions of the intellectual climate of their program? How does such a mismatch affect the student's day-to-day academic experiences? Design/Method For three years, we followed Michael, an electrical engineering student, through interviews and in-class observations. From more than 12 hours of semistructured clinical interviews, more than 10 hours of videotaped discussion sections, and two in-class observations in lectures, we produced a case study to characterize epistemological aspects of Michael's identity and how they influenced his perception of his program. Results Michael expressed and enacted a sense-making epistemology that is a fundamental aspect of his identity as a learner. Due to this sense-making aspect of Michael's identity, he often felt alienated from the intellectual climate of his program, and he considered leaving engineering. Conclusion Researchers focused on student retention should attend to epistemological aspects of student identities. Instructors and administrators focused on retention should attend to the epistemological messages students hear from their programs.

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

[2]  Cheryl Lynn Moller-Wong,et al.  An Engineering Student Retention Study , 1997 .

[3]  Bruce L Sherin,et al.  How Students Understand Physics Equations , 2001 .

[4]  Marlene Schommer Effects of beliefs about the nature of knowledge on comprehension. , 1990 .

[5]  R. Stevens,et al.  Talking Mathematics in School: Disciplined Perception: Learning to See in Technoscience , 1998 .

[6]  Karen L. Tonso,et al.  Student Engineers and Engineer Identity: Campus Engineer Identities as Figured World , 2006 .

[7]  Staffan Strömblad,et al.  RETRACTED: Tracheobronchial transplantation with a stem-cell-seeded bioartificial nanocomposite: a proof-of-concept study , 2011, The Lancet.

[8]  Sarah Michaels,et al.  Aligning Academic Task and Participation Status through Revoicing: Analysis of a Classroom Discourse Strategy , 1993 .

[9]  G. Seiler,et al.  Reversing the standard direction: Science emerging from the lives of African American students , 2001 .

[10]  Michael Jackson Representing structure in a software system design , 2010 .

[11]  Rose M. Marra,et al.  College student epistemological perspectives across knowledge domains: A proposed grounded theory , 2004 .

[12]  R. Layton,et al.  Persistence, Engagement, and Migration in Engineering Programs , 2008 .

[13]  James Paul Gee,et al.  Chapter 3 : Identity as an Analytic Lens for Research in Education , 2000 .

[14]  J. Boaler Open and Closed Mathematics: Student Experiences and Understandings , 1998 .

[15]  Florian C. Feucht Personal Epistemology in the Classroom: Epistemic climate in elementary classrooms , 2010 .

[16]  Victoria Hand,et al.  From the Court to the Classroom: Opportunities for Engagement, Learning, and Identity in Basketball and Classroom Mathematics , 2008 .

[17]  D. Cohen A Revolution in One Classroom: The Case of Mrs. Oublier , 1990 .

[18]  Ann S. Rosebery,et al.  Appropriating Scientific Discourse: Findings from Language Minority Classrooms. , 1992 .

[19]  M. Lumsdaine,et al.  Thinking Preferences of Engineering Students: Implications for Curriculum Restructuring , 1995 .

[20]  B. Olds,et al.  The Effect of a First‐Year Integrated Engineering Curriculum on Graduation Rates and Student Satisfaction: A Longitudinal Study , 2004 .

[21]  P. Pintrich,et al.  The Development of Epistemological Theories: Beliefs About Knowledge and Knowing and Their Relation to Learning , 1997 .

[22]  Richard M. Felder,et al.  A Longitudinal Study of Engineering Student Performance and Retention. V. Comparisons with Traditionally‐Taught Students , 1998 .

[23]  R. Felder,et al.  The Intellectual Development of Science and Engineering Students. Part 2: Teaching to Promote Growth , 2004 .

[24]  Richard M. Felder,et al.  A Longitudinal Study of Engineering Student Performance and Retention. IV. Instructional Methods , 1995 .

[25]  Reed Stevens,et al.  Becoming an Engineer: Toward a Three Dimensional View of Engineering Learning , 2008 .

[26]  Susan E. Walden,et al.  “What's to keep you from dropping out?” Student Immigration into and within Engineering , 2008 .

[27]  Hans van Vliet,et al.  What makes software design effective , 2010 .

[28]  Richard M. Felder,et al.  A Longitudinal Study of Engineering Student Performance and Retention: I. Success and Failure in the Introductory Course , 1993 .

[29]  W. Sandoval,et al.  Explanation-Driven Inquiry: Integrating Conceptual and Epistemic Scaffolds for Scientific Inquiry , 2004 .

[30]  Krista R. Muis Personal Epistemology and Mathematics: A Critical Review and Synthesis of Research , 2004 .

[31]  Learning as a Members’ Phenomenon: Toward an Ethnographically Adequate Science of Learning , 2010 .

[32]  P. Alexander,et al.  Beliefs About Academic Knowledge , 2001 .

[33]  Andrew Elby,et al.  Tapping Epistemological Resources for Learning Physics , 2003 .

[34]  David Hammer,et al.  Students' beliefs about conceptual knowledge in introductory physics , 1994 .

[35]  R. Stevens,et al.  Disrupting Representational Infrastructure in Conversations Across Disciplines , 2002 .

[36]  Christie K. Ferreira,et al.  Effect of epidural stimulation of the lumbosacral spinal cord on voluntary movement, standing, and assisted stepping after motor complete paraplegia: a case study , 2011, The Lancet.

[37]  M. Gertrude Hennessey,et al.  Sixth-Grade Students' Epistemologies of Science: The Impact of School Science Experiences on Epistemological Development , 2000 .

[38]  Lisa D. Bendixen,et al.  Domain-Generality and Domain-Specificity in Personal Epistemology Research: Philosophical and Empirical Reflections in the Development of a Theoretical Framework , 2006 .

[39]  E. Schegloff,et al.  A simplest systematics for the organization of turn-taking for conversation , 1974 .

[40]  Alan H. Schoenfeld,et al.  When Good Teaching Leads to Bad Results: The Disasters of 'Well-Taught' Mathematics Courses , 1988 .

[41]  Reed Stevens,et al.  Students' changing images of engineering and engineers , 2008 .

[42]  David Hammer,et al.  Two approaches to learning physics , 1989 .

[43]  A. diSessa An Interactional Analysis of Clinical Interviewing , 2007 .

[44]  Mary Besterfield-Sacre,et al.  Achieving Parity of the Sexes at the Undergraduate Level: A Study of Success , 2007 .

[45]  Laura M. Desimone,et al.  Effects of Professional Development on Teachers’ Instruction: Results from a Three-year Longitudinal Study , 2002 .

[46]  Jennifer I. Berne,et al.  Chapter 6 : Teacher Learning and the Acquisition of Professional Knowledge: An Examination of Research on Contemporary Professlonal Development , 1999 .

[47]  K. Smith,et al.  Looking Beyond Content: Skill Development for Engineers , 2008, 0802.2950.

[48]  Cindy E. Foor,et al.  “I Wish that I Belonged More in this Whole Engineering Group:” Achieving Individual Diversity , 2007 .

[49]  Thomas A. Litzinger,et al.  The Effects of a First‐Year Engineering Design Course on Student Intellectual Development as Measured by the Perry Scheme , 2000 .

[50]  Marlene Schommer,et al.  The development of epistemological beliefs among secondary students : A longitudinal study , 1997 .

[51]  Susan Carey,et al.  On understanding the nature of scientific knowledge , 1993 .

[52]  Jeffery M. Saul,et al.  Student expectations in introductory physics , 1998 .

[53]  Karl A. Smith,et al.  Factors relating to engineering identity , 2012 .

[54]  Leonhard E. Bernold,et al.  Understanding Our Students: A Longitudinal‐Study of Success and Failure in Engineering With Implications for Increased Retention , 2007 .

[55]  Rose M. Marra,et al.  Leaving Engineering: A Multi‐Year Single Institution Study , 2012 .

[56]  Jeff Evans,et al.  Discursive Positioning and Emotion in School Mathematics Practices , 2006 .

[57]  J. Froyd,et al.  Integrated Engineering Curricula , 2005 .

[58]  Lisa D. Bendixen,et al.  An Integrative Approach to Personal Epistemology: A Guiding Model , 2004 .

[59]  Indigo Esmonde,et al.  Social Identities and Opportunities to Learn: Student Perspectives on Group Work in an Urban Mathematics Classroom , 2009, Journal of Urban Mathematics Education.

[60]  M. Loui Ethics and the Development of Professional Identities of Engineering Students , 2005 .

[61]  Vanessa Lynn Svihla,et al.  How differences in interactions affect learning and development of design expertise: in the context of biomedical engineering design , 2009 .

[62]  Karen L. Tonso,et al.  Teams that Work: Campus Culture, Engineer Identity, and Social Interactions , 2006 .

[63]  Andrew Elby,et al.  On the Substance of a Sophisticated Epistemology. , 2001 .

[64]  Austin Henderson,et al.  Interaction Analysis: Foundations and Practice , 1995 .

[65]  Julie Gainsburg The Mathematical Modeling of Structural Engineers , 2006 .

[66]  Paul J. Feltovich,et al.  Categorization and Representation of Physics Problems by Experts and Novices , 1981, Cogn. Sci..

[67]  Linden J. Ball,et al.  Design requirements, epistemic uncertainty and solution development strategies in software design , 2010 .

[68]  Lisa D. Bendixen,et al.  Personal Epistemology in Elementary Classrooms: A Conceptual Comparison of Germany and the United States and a Guide for Future Cross-Cultural Research , 2008 .

[69]  J. Boaler Mathematics from Another World: Traditional Communities and the Alienation of Learners☆ , 2000 .

[70]  Ann Rosebery,et al.  Rethinking diversity in learning science: The logic of everyday sense‐making , 2001 .

[71]  Matthew W. Ohland,et al.  Nonparametric Survival Analysis of the Loss Rate of Undergraduate Engineering Students , 2011 .

[72]  David Hammer,et al.  Epistemological Beliefs in Introductory Physics , 1994 .

[73]  Jennifer Turns,et al.  Constructing Professional Portfolios: Sense‐Making and Professional Identity Development for Engineering Undergraduates , 2011 .

[74]  David Hammer,et al.  Making classroom assessment more accountable to scientific reasoning: A case for attending to mechanistic thinking , 2009 .