Influence of resequencing general science content on the science achievement,attitudes toward science,and interest in science of sixth grade students

This study was designed to determine the influence of resequencing general science content on sixth grade students' science achievement, attitudes toward science, and interest in science. Resequencing content was accomplished for experimental group students through revising the order of textbook chapters in a general science course, in order to clarify content structure and establish interrelationships among major concepts. The subjects were 203 sixth grade learners randomly assigned to the two treatment groups of resequenced content and nonresequenced content. The findings revealed that students for whom content structure was clarified through resequencing general science chapters exhibited significantly higher science achievement, significantly more positive attitudes toward science, and significantly greater interest in science than students for whom general science content was not resequenced.     

The relative responsiveness of concrete operational seventh grade and college students to science instruction

Numerous persons have suggested that instruction should match the developmental level of the learner. Are “concrete operational” college students developmentally the same as “concrete operational” seventh grade students thus in need of identical instruction? Matched concrete operational seventh grade and college students were given identical classroom instruction in probabilistic and correlational reasoning. The college students performed significantly better on posttest measures which appeared to require greater processing of information while significant differences did not exist on less difficult items. Level of cognitive development, field independence, and fluid intelligence correlated moderately with posttest performance for the seventh grade students. Field independence and fluid intelligence correlated moderately with posttest performance for the college students but not pretest knowledge of specific biological concepts and cognitive level. It was concluded that college students are more responsive to instruction due either to (1) greater amount of experience or (2) greater information processing capacity. Implications for science teaching are discussed.     

Exploring relationships among four science teaching-learning affective attributes of sixth grade students

The intent of this study was to investigate possible relationships among the constructs of attitudes toward science, interest in science, science curiosity, and self-concept of science ability. Data were collected from 228 sixth-grade students by way of four Likert-type instruments, each of which measured a given attribute. Statistical procedures included univariate and multivariate analysis of variance, product-moment correlations, canonical correlations, multiple regression analysis, and factor analysis. The results indicated that attitudes toward science, interest in science, and science curiosity are highly related. Implications for classroom science teaching and suggestions for future research have also been discussed.     

A review of research on formal reasoning and science teaching

A central purpose of education is to improve students' reasoning abilities. The present review examines research in developmental psychology and science education that has attempted to assess the validity of Piaget's theory of formal thought and its relation to educational practice. Should a central objective of schools be to help students become formal thinkers? To answer this question research has focused on the following subordinate questions: (1) What role does biological maturation play in the development of formal reasoning? (2) Are Piaget's formal tasks reliable and valid? (3) Does formal reasoning constitute a unified and general mode of intellectual functioning? (4) How does the presence or absence of formal reasoning affect school achievement? (5) Can formal reasoning be taught? (6) What is the structural or functional nature of advanced reasoning? The general conclusion drawn is that although Piaget's work and that which has sprung from it leaves a number of unresolved theoretical and methodological problems, it provides an important background from which to make substantial progress toward a most significant educational objective. All our dignity lies in thought. By thought we must elevate ourselves, not by space and time which we can not fill. Let us endeavor then to think well; therein lies the principle of morality. Blaise Pascal 1623-1662.     

Relationships between formal reasoning ability,locus of control,academic engagement and integrated process skill achievement

Twelve pupils from each of thirteen middle school science classes participated in the study. Measures were obtained for each pupil on nine engagement modes. Two engagement measures, attending and generalizing, together with formal reasoning ability, were related to process skill achievement and retention. Formal reasoning ability was the strongest predictor of process skill achievement and retention, accounting for approximately 36% of the variance in each case. Formal reasoning ability and locus of control were each correlated with specific engagement modes. Formal reasoning ability was positively related with rates of generalizing and comprehending. Locus of control was significantly related with rates of attending and total engagement.     

Cultural diversity and differences in formal reasoning ability

To test the hypothesis that cultural diversity contributes to the development of formal reasoning, samples of adolescents from three predominately white middle-class communities located in areas that varied in the extent to which they offered cultural diversity (i.e., rural, suburan homogeneous, suburban heterogeneous) were administered a test of formal reasoning and a test of analytical intelligence. Results showed significant differences in formal reasoning in favor of the suburban heterogeneous sample on complex reasoning items. The suburban groups showed equal performance (but superior to the rural Ss) on the test of analytical intelligence. On the less complex reasoning items and on one item embedded in a rural farming context, the rural Ss showed relatively better performance. Implications for using science instruction to promote formal reasoning are discussed.     

The nature of advanced reasoning and science instruction

Although the development of reasoning is recognized as an important goal of science instruction, its nature remains somewhat of a mystery. This article discusses two key questions: Does formal thought constitute a structured whole? And what role does propositional logic play in advanced reasoning? Aspects of a model of advanced reasoning are presented in which hypothesis generation and testing are viewed as central processes in intellectual development. It is argued that a number of important advanced reasoning schemata are linked by these processes and should be made a part of science instruction designed to improve students' reasoning abilities. Concerning students' development and use of formal reasoning, Linn (1982) calls for research into practical issues such as the roles of task-specific knowledge and individual differences in performance, roles not emphasized by Piaget in his theory and research. From a science teacher's point of view, this is good advice. Accordingly, this article will expand upon some of the issues raised by Linn in a discussion of the nature of advanced reasoning which attempts to reconcile the apparent contradiction between students' differential use of advanced reasoning schemata in varying contexts with the notion of a general stage of formal thought. Two key questions will be discussed: Does formal thought constitute a structured whole? And what role does propositional logic play in advanced reasoning? The underlying assumption of the present discussion is that, among other things, science instruction should concern itself with the improvement of students' reasoning abilities (cf. Arons, 1976; Arons & Karplus, 1976; Bady, 1979; Bauman, 1976; Educational Policies Commission, 1966; Herron, 1978; Karplus, 1979; Kohlberg & Mayer, 1972; Moshman & Thompson, 1981; Lawson, 1979; Levine & linn, 1977; Pallrand, 1977; Renner & Lawson, 1973; Sayre & Ball, 1975; Schneider & Renner, 1980; Wollman, 1978). The questions are of interest because to date they lack clear answers, yet clear answers are necessary if we hope to design effective instruction in reasoning.     

A multiplicative reasoning assessment for fourth and fifth grade students

Multiplicative reasoning is critical for the development of more advanced mathematical concepts such as fractions and algebra, and therefore is a critical process for teachers and researchers to assess in an effective and efficient manner. Unfortunately, the vast majority of available assessments examine students’ skill with algorithms or memorized facts, with no necessary connection to students’ conceptual understanding of the content. This study reports on the continued development and validation of the Multiplicative Reasoning Assessment (MRA) for elementary grades. Data from 196 fourth and fifth grade students was examined using a Rasch modeling approach. Supplemental data from follow-up clinical interviews was also collected and analyzed. Results provide evidence for the reliability and validity of the MRA. Specifically, findings suggest the assessment adequately assesses students’ multiplicative reasoning, as an alternative to assessments of fact memorization or procedural fluency.     

Undergraduate physics instruction and critical thinking ability. The effects of instruction in physics upon the critical thinking ability of undergraduate students

Do PSSC materials used with undergraduates lead to better scores on a critical thinking appraisal test? Is the increment greater than conventional instruction yields?     

Science achievement as it relates to science curricula and programs at the sixth grade level in montana public schools

This study deals primarily with the relationship between pupil achievement in science and factors in the science program. An inventory of science attitudes, interests, and appreciations was constructed and administered in connection with an advanced science test to a large sample of sixth graders. Their teachers completed science teaching questionnaires. The results of the study are significant and are a contribution to the field.     

Attitudes and achievement of Bruneian science students

The aim of this study was to evaluate attitudes towards and achievement in science of Form 3 students studying in single-sex and coeducational schools in Brunei. The results demonstrated significant differences in attitudes towards and achievement in science of male and female students in single-sex schools and students in coeducational schools. These differences were at moderate level. In single-sex schools, the girls achieved moderately better in science than the boys despite their attitudes were only marginally better than the boys. However, there were no gender differences in attitudes towards and achievement in science of students in coeducational schools. The attitudes towards and achievement in science of girls in single-sex schools were moderately better than those of girls in coeducational schools. Whereas the attitudes towards and achievement in science of boys in single-sex schools were only marginally better than the boys in coeducational schools. However, further research to investigate (a) if these differences are repeated at other levels as well as in other subjects, and (b) the extent to which school type contributed towards these differences is recommended.     

六届师范生心理健康档案研究

本文分析研究了六届师范生SCL－90心理健康档案,通过总体水平的比较,反映出师范生心理健康水平略高于国内青年组常模;通过笥别比较,反映出师范男生心理健康水平略低于女生;通过测验内容的比较,反映出师范生所存在的心理健康问题依次为：强迫、人际敏感、偏执、敌对、焦虑、忧郁、恐怖、躯体化、精神病性、其他;通过曾后测的发展比较,反映出一定的教育影响可以提高师范生的心理健康水平。