Students' Science Perceptions and Enrollment Decisions in Differing Learning Cycle Classrooms.

This investigation examined 10th-grade biology students' decisions to enroll in elective science courses, and explored certain attitudinal perceptions of students that may be related to such decisions. The student science perceptions were focused on student and classroom attitudes in the context of differing learning cycle classrooms (high paradigmatic/high inquiry, and low paradigmatic/low inquiry). The study also examined possible differences in enrollment decisions/intentions and attitudinal perceptions among males and females in these course contexts. The specific purposes were to: (a) explore possible differences in students' decisions, and in male and female students' decisions to enroll in elective science courses in high versus low paradigmatic learning cycle classrooms; (b) describe patterns and examine possible differences in male and female students' attitudinal perceptions of science in the two course contexts; (c) investigate possible differences in students' science perceptions according to their decisions to enroll in elective science courses, participation in high versus low paradigmatic learning cycle classrooms, and the interaction between these two variables; and (d) examine students' explanations of their decisions to enroll or not enroll in elective science courses. Questionnaire and observation data were collected from 119 students in the classrooms of six learning cycle biology teachers. Results indicated that in classrooms where teachers most closely adhered to the ideal learning cycle, students had more positive attitudes than those in classrooms where teachers deviated from the ideal model. Significantly more females in high paradigmatic learning cycle classrooms planned to continue taking science course work compared with females in low paradigmatic learning cycle classrooms. Male students in low paradigmatic learning cycle classrooms had more negative perceptions of science compared with males in high paradigmatic classrooms, and in some cases, with all female students. It appears that using the model as it was originally designed may lead to more positive attitudes and persistence in science among students. Implications include the need for science educators to help teachers gain more thorough understanding of the learning cycle and its theoretical underpinnings so they may better implement this procedure in classroom teaching. © 2001 John Wiley & Sons, Inc. J Res Sci Teach 38: 1029–1062, 2001

[1]  Mary M. Atwater,et al.  A study of urban middle school students with high and low attitudes toward science , 1995 .

[2]  J. Steve Oliver,et al.  A summary of major influences on attitude toward and achievement in science among adolescent students , 1990 .

[3]  David T. Burkam,et al.  Gender differences in middle grade science achievement: Subject domain, ability level, and course emphasis , 1996 .

[4]  M. G. Jones,et al.  Gender differences in teacher‐student interactions in science classrooms , 1990 .

[5]  Jean Piaget,et al.  Part I: Cognitive development in children: Piaget development and learning , 1964 .

[6]  Lawrence F. Lowery,et al.  Full Option Science System(FOSS) , 1998 .

[7]  R. E. Myers,et al.  A cluster analysis of high school science classroom environments and attitude toward science , 1992 .

[8]  J. Steve Oliver,et al.  Attitude toward Science and Achievement Motivation Profiles of Male and Female Science Students in Grades Six through Ten. , 1985 .

[9]  T. Koballa,et al.  The Influence of Attitude on Science Teaching and Learning , 1985 .

[10]  R. O’brien,et al.  A simple test for variance effects in experimental designs. , 1981 .

[11]  J. Shea National Science Education Standards , 1995 .

[12]  Tom Haladyna,et al.  Attitudes toward science: A quantitative synthesis , 1982 .

[13]  Stephen J. Farenga,et al.  Intentions of Young Students to Enroll in Science Courses in the Future: An Examination of Gender Differences. , 1999 .

[14]  F. Crawley,et al.  Determinants of middle school students' intention to enroll in a high school science course: An application of the theory of reasoned action , 1990 .

[15]  Michael P. Freedman Relationship among Laboratory Instruction, Attitude toward Science, and Achievement in Science Knowledge. , 1997 .

[16]  Sophia Catsambis,et al.  Gender, race, ethnicity, and science education in the middle grades , 1995 .

[17]  Dale R. Baker,et al.  If I were the teacher … qualitative study of attitude toward science , 1993 .

[18]  Ronald D. Simpson,et al.  Defining attitude for science educators , 1988 .

[19]  Qualitative Comparison of Students' Constructions of Science. , 1993 .

[20]  Jeffrey T. Fouts,et al.  Classroom Environments and Middle School Students' Views of Science , 1992 .

[21]  Michael R. Abraham,et al.  Secondary school students' beliefs about the physics laboratory , 1985 .

[22]  Alison Kelly,et al.  The Construction of Masculine Science , 1985 .

[23]  Teresa Arámbula Greenfield,et al.  Gender, ethnicity, science achievement, and attitudes , 1996 .

[24]  Jane Butler Kahle,et al.  The myth of equality in science classrooms , 1983 .

[25]  Shelagh A. Gallagher Middle school classroom predictors of science persistence , 1994 .

[26]  Robert Frank Mager,et al.  Developing attitude toward learning , 1984 .

[27]  Anton E. Lawson,et al.  Science Teaching and Development Of Thinking , 1994 .

[28]  Edmund A. Marek,et al.  Teachers' understanding and the use of the learning cycle , 1990 .