Problem-based learning: Using students' questions to drive knowledge construction

This study employed problem-based learning for project work in a year 9 biology class. The purpose of the study was to investigate (a) students' inspirations for their self-generated problems and questions, (b) the kinds of questions that students asked individually and collaboratively, and (c) how students' questions guided them in knowledge construction. Data sources included observation and field notes, students' written documents, audiotapes and videotapes of students working in groups, and student interviews. Sources of inspiration for students' problems and questions included cultural beliefs and folklore; wonderment about information propagated by advertisements and the media; curiosity arising from personal encounters, family members' concerns, or observations of others; and issues arising from previous lessons in the school curriculum. Questions asked individually pertained to validation of common beliefs and misconceptions, basic information, explanations, and imagined scenarios. The findings regarding questions asked collaboratively are presented as two assertions. Assertion 1 maintained that students' course of learning were driven by their questions. Assertion 2 was that the ability to ask the “right'' questions and the extent to which these could be answered, were important in sustaining students' interest in the project. Implications of the findings for instructional practice are discussed. © 2004 Wiley Periodicals, Inc. Sci Ed88:707–727, 2004

[1]  S. Engel,et al.  Thought and Language , 1964, Dialogue.

[2]  R. Bogdan Qualitative research for education , 1981 .

[3]  L. Vygotsky Mind in Society: The Development of Higher Psychological Processes: Harvard University Press , 1978 .

[4]  R. Maskill,et al.  Pupils’ questions, alternative frameworks and the design of science teaching , 1997 .

[5]  David W. Johnson,et al.  Cooperative Versus Competitive Efforts and Problem Solving , 1995 .

[6]  J. T. Dillon The remedial status of student questioning , 1988 .

[7]  E. Cohen Restructuring the Classroom: Conditions for Productive Small Groups , 1994 .

[8]  M. Runco,et al.  Problem discovery, divergent thinking, and the creative process , 1988, Journal of youth and adolescence.

[9]  Annemarie S. Palincsar,et al.  Pursuing Scientific Literacy in the Middle Grades Through Collaborative Problem Solving , 1993, The Elementary School Journal.

[10]  P. Scott,et al.  Constructing Scientific Knowledge in the Classroom , 1994 .

[11]  M. Gick Problem-solving strategies , 1986 .

[12]  Shelagh A. Gallagher,et al.  Implementing Problem‐Based Learning in Science Classrooms , 1995 .

[13]  A. Stinner,et al.  Contextual settings, science stories, and large context problems: Toward a more humanistic science education , 1995 .

[14]  Sara Hennessy,et al.  Situated Cognition and Cognitive Apprenticeship: Implications for Classroom Learning , 1993 .

[15]  Carl Bereiter,et al.  Constructivism, Socioculturalism, and Popper's World 3 , 1994 .

[16]  Thomas M. Duffy,et al.  Problem Based Learning: An instructional model and its constructivist framework , 1995 .

[17]  M. Csíkszentmihályi Flow: The Psychology of Optimal Experience , 1990 .

[18]  Shlomo Sharan,et al.  Group Investigation Expands Cooperative Learning , 1990 .

[19]  Teresa Arambula-Greenfield Implementing Problem-Based Learning in a College Science Class. , 1996 .

[20]  Thomas M. Hughes,et al.  Field Experiences As Meaningful Contexts for Learning about Learning , 1981 .

[21]  A. Strauss,et al.  The discovery of grounded theory: strategies for qualitative research aldine de gruyter , 1968 .

[22]  Carolyn W. Keys A study of grade six students generating questions and plans for open-ended science investigations , 1998 .

[23]  Michael Shodell,et al.  The Question-Driven Classroom: Student Questions as Course Curriculum in Biology. , 1995 .

[24]  Ken Appleton,et al.  Problem solving in science lessons: How students explore the problem space , 1995 .

[25]  Jim Garrison,et al.  Realism, Deweyan Pragmatism, and Educational Research , 1994 .

[26]  E. Soloway,et al.  Enacting Project-Based Science , 1997, The Elementary School Journal.

[27]  A. Graesser,et al.  Question Asking During Tutoring , 1994 .

[28]  Robert E. Yager,et al.  Assessing teaching/learning successes in multiple domains of science and science education , 1989 .

[29]  Sharan B. Merriam,et al.  Qualitative research and case study applications in education , 1998 .

[30]  H. Schmidt Problem‐based learning: rationale and description , 1983, Medical education.

[31]  M. Watts,et al.  Questions of Understanding: Categorising Pupils' Questions in Science. , 1997 .

[32]  Daniel P. Shepardson,et al.  A rationale for and the development of a problem solving model of instruction in science education , 1989 .

[33]  Christine Chin,et al.  Student-generated questions: A meaningful aspect of learning in science , 2002 .

[34]  R. Yager A Rationale for Using Personal Relevance as a Science Curriculum Focus in Schools , 1989 .

[35]  R. Linn,et al.  Qualitative methods in research on teaching , 1985 .

[36]  A. Collins,et al.  Situated Cognition and the Culture of Learning , 1989 .

[37]  John Edwards,et al.  What Are Students Really Thinking , 1984 .

[38]  David Boud,et al.  The Challenge of Problem Based Learning , 1991 .

[39]  Ray R. Buss,et al.  Students' aptitudes and their reports of cognitive processes during direct instruction , 1981 .

[40]  John T. Wilson Processes of Scientific Inquiry: A Model for Teaching and Learning Science. , 1974 .