Read an Excerpt

Learning to Think

John Wiley & Sons

Chapter One

Physics is all about the way you approach a question. You have to be analytical and not at all intuitive, to break it down into its parts, and not look at the question all at once. PHYSICS STUDENT

There isn't always a right answer. Different theories can account for the same results with the same validity. How to think analytically is important-in other words, don't believe everything you read, try to understand what the writer is saying and does he or she follow through. PSYCHOLOGY STUDENT

The trouble with English is that there are no answers. There are only evaluations and critical judgments backed up with evidence and strong argument. The ability to make a case through reasoned, logical argument, and the ability to marshal evidence and to read widely in supporting literature is crucial. ENGLISH PROFESSOR

The student who describes how she is learning to problem-solve in her introductory physics course understands an important strategy in the discipline-to analyze a problem by breaking it down into its elements and then reconstitute or represent the problem in all its complexity. The ability to judge the strength and consistency of logical structures in physics is central to understanding in this discipline. The student in psychology is faced with a different kind of puzzle. "Analysis" has another meaning here; the student must wrestle with contrasting perspectives or theoretical frameworks in order to approach intellectual closure. In addition, he needs to be skeptical and continually search for consistency to validate findings. Knowledge is yet more elusive in English literature. The professor expresses the dilemma in a field in which, rather than physical proof, the processes of argument and judgment provide the structure.

Imagine the predicament of the entering university student registered in courses in each of these three areas of study. To learn in the physics course, the student would first have to recognize that a learning strategy is necessary, then decipher that it consists of careful and intensive analysis of the knowledge base. In psychology, the student would have to change strategies-go outside the problem to find a variety of theoretical solutions and then determine which one best fits the evidence. In English literature, another tactic would be needed-modeling the process of argument itself. The ways of thinking portrayed here have certain commonalities. The student must be deeply engaged. The student must have the vocabulary and theory of the field or be in the act of acquiring them. But each discipline requires a different mindset, and contrasting strategies need to be employed.

To understand what students experience when they are learning the methods of inquiry of a discipline, we can call on two major areas of research: developmental psychology and epistemology, the theory of knowledge, its methods, and validation. Developmental psychology provides insight into student learning and intellectual development; epistemology deals with the search for knowledge in different disciplines. These two areas have been infrequently associated, and one goal in this book is to bring them together in order to understand how a dynamic learning environment might be created. Links between the areas are most likely to be found in a third domain of research: cognitive science. The aim is therefore to understand the process of intellectual development and to consider the role of the disciplines as the primary nurturing ground for this development. We begin by examining what is known about students' intellectual development in university, and then turn to how the disciplines contribute to this development and the kinds of cognitive processes or higher-order learning skills that will be needed.

Student Learning and Intellectual Development

Student learning at the postsecondary level has become a significant international concern as governments recognize the necessity of lifelong learning, yet struggle to find indices of what students learn in college (Ewell, 2001; Miller, 2001). In an analysis of trends and implications for learning and teaching in the twenty-first century, Baxter Magolda and Terenzini (1999) point out that critical, reflective thinking skills and the ability to make up one's own mind are essential learning outcomes in a world in which multiple perspectives abound and right action is often disputed. Important learning outcomes include not only complex cognitive skills but an ability to apply knowledge to practical problems, an appreciation of human differences, and an integrated identity.

Theories that help us understand student learning-particularly higher-order learning, in which the student seeks to understand or construct meaning and thus to develop intellectually-come from four families of research. The first, research on intellectual development, examines how students interpret their learning experience and how their ways of knowing or thinking evolve during the undergraduate years (Baxter Magolda, 1992; King & Kitchener, 1994; Perry, 1970, 1981). A second theoretical approach, based on phenomenological research on students' experience of the learning process (Marton & Saljo, 1976), focuses on their orientation to learning. In a third family of research, work on intrinsic motivation for learning is linked to students' critical thinking and self-regulation (Donald, 1999; Pintrich, 1995; Pintrich, Marx, & Boyle, 1993). A fourth theoretical approach examines students' learning goals in different disciplinary contexts-for example, Cashin and Downey's (1995) study of disciplinary differences in learning goals and student progress toward them.

Research on Intellectual Development

In the 1960s, groundbreaking work on how students interpret their learning experience was initiated by William Perry (1970, 1981). He found that students entering college tend to display a dualistic view in which knowledge is right or wrong and the professor is the authority, then move through relativistic and multiplistic stages where knowledge is uncertain and opinion rules, and finally reach a stage of commitment where some ideas are held to be more valid than others based on evidence. More recent research on intellectual development has focused on changes in students' construction of meaning or ways of knowing, from absolute knowing, through transitional and independent knowing, to contextual knowing (Baxter Magolda, 1992). In Baxter Magolda's longitudinal study, most students-68 percent-entered university in a stage of absolute knowing, considering knowledge to be certain or absolute and conceiving their role as learners to be limited to obtaining knowledge from the instructor. The remaining 32 percent of entering students were in a stage of transitional knowing, considering knowledge to be partially certain and partially uncertain; their role was to understand knowledge. In both stages, students depict themselves as passive recipients of their professors' wisdom.

During their senior year, some students-16 percent-displayed independent knowing; that is, they considered knowledge to be uncertain. In this stage, everyone has his or her own beliefs, and students are expected to think for themselves, share views with others, and create their own perspective. Independent knowing increased to 57 percent the year following graduation. Only in the year following graduation did a small number of students-12 percent-reach the stage of contextual knowing, where knowledge is judged on the basis of evidence in context, and the student's role is to think through problems and to integrate and apply knowledge. These findings suggest that two-thirds of entering students limit their role as learners to obtaining knowledge, and most will not be actively constructing meaning (independent knowing) until after they have graduated.

How a person solves an ill-structured problem, as well as that person's concept of knowledge and process of justification, are focused on in King and Kitchener's (1994) reflective judgment model. According to the model, some individuals are in a stage of prereflective thinking, in which they do not conceive that knowledge is uncertain and do not use evidence to reason toward a conclusion. In quasi-reflective stages, individuals recognize some uncertainty but do not understand how evidence entails a conclusion and have difficulty in justifying their conclusions. Reflective thinkers argue that knowledge must be actively constructed and that claims of knowledge must be understood in relation to the context in which they were generated. Judgments must be grounded in relevant data and conclusions remain open to reevaluation.

The work of these researchers on intellectual development recapitulates the shift in ethos that occurred in universities during the Enlightenment and the scientific revolution that followed it. Scholars in the Middle Ages assumed a fixed body of knowledge; they defined that knowledge and were the authorities (Johnston, 1998). The scientific revolution challenged the notion of fixed knowledge. It was based on the assumption that knowledge is an expanding and open system. Instead of vesting authority in the church, validity was now found in scientific measurement and dissent was integral to the process of testing hypotheses. The shift in ethos changed the role of the university to that of creator of knowledge-a major transformation in epistemology that, it appears, students must still undergo. Our studies of student intellectual development, however, have shown that, given the choice, students have relativistic rather than dualistic views, in Perry's language (Bateman & Donald, 1987). Students describe themselves as transitional, independent, and contextual knowers rather than absolute knowers, although they may also discriminate between the role and strategies of the ideal student and themselves as students (Donald & McMillan-Davey, 1998; Donald, McMillan-Davey, & Denison, 1999).

The view that knowledge is constructed carries dangers-it could be interpreted to mean that truth is dead and therefore chaos reigns. A more measured perspective is that we each construct our own understanding of the large bodies of organized public knowledge that the disciplines represent. This constructivist view may receive approbation to a greater or lesser degree from members of different disciplines. We must then ask to what extent disciplinary context determines student views and their development.

Research on Student Orientations

In research on student orientations to learning undertaken primarily in the United Kingdom and Australia, the term orientation indicates a combination of an approach to studying, style of learning, and motivation that is relatively stable across different educational tasks (Biggs, 1988; Biggs, 1993; Entwistle & Tait, 1990; Meyer, Parsons, & Dunne, 1990; Ramsden, 1992). Research over a period of fifteen years using two different inventories (Biggs, 1988; Entwistle & Ramsden, 1983) has confirmed two primary orientations: a deep or meaning orientation and a surface or reproducing orientation. A third orientation-achieving, or strategic (competitive and grade-oriented)-has been distinguished but is often associated with a deep or surface orientation. A student with a deep or meaning orientation seeks to relate and reinterpret knowledge. A student with a surface orientation, in contrast, does not seek understanding and tends to use superficial study strategies that rely on memorization and do not lead to increased understanding. An achieving approach includes a desire to excel and achieve top grades, which may or may not increase understanding.

Students may adopt a deep or a surface approach, or both, to varying extents, in response to cues given by the teacher. The cautionary tale to be derived from this research is that students may prefer a deep approach, but when overloaded with course content or evaluated on their knowledge of facts may adopt a surface or achieving approach. We have found that students vary in their orientation to learning depending on their course or program, with students in professional programs being more pragmatic or achievement-oriented and students in pure science more oriented toward meaning (Donald, 1999). Again, the discipline may be providing a distinctive context that aids or inhibits certain kinds of intellectual development.

Research on Intrinsic Motivation

In research on the effect of motivation on learning, students' critical thinking and learning strategies have been related to intrinsic and extrinsic motivation (Pintrich, Brown, & Weinstein, 1994; Pintrich, Marx, & Boyle, 1993; Stage & Williams, 1990). Intrinsic motivation for learning is defined as the desire to understand or to learn for the sake of learning; extrinsic motivation is a desire to attain an external goal. Intrinsic motivation has also been related to student self-regulation. The term self-regulated learning describes students' active control of learning resources (time, study space, peers, and faculty members), motivation (goals and self-efficacy), and strategies (deep processing) (Pintrich, 1995). As students at earlier levels of education learn to self-regulate, or internalize regulation, they have been found to shift from extrinsic to intrinsic motivation (Wigfield, Eccles, & Rodriguez, 1998). The importance of students' motivation, self-regulation, and control over their learning environment for higher-order learning lies in the immediate developmental effect of these processes on learning and learning how to learn. Measures of intrinsic motivation have been shown to be related to a deep approach to learning (Donald, 1999; Entwistle & Tait, 1990; Fransson, 1977; Ramsden, 1992). To what extent are intrinsic motivation and self-regulating behaviors supported and developed in different disciplines?

Research on Students' Learning Goals

Students' learning goals have changed markedly over the last thirty years from intellectual to vocational (Astin, 1998). This presents another kind of contextual problem for student intellectual development because student goals mediate between what instructors intend students to learn and what students actually learn, and vocational goals tend to be negatively related to higher-order learning (Donald & Dubuc, 1999). Learning goals differ substantially across disciplines (Cashin & Downey, 1995).

Continues...

---

Excerpted from Learning to Think by Janet Gail Donald Excerpted by permission.
All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
Excerpts are provided by Dial-A-Book Inc. solely for the personal use of visitors to this web site.

---