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1.
The reasoning patterns used by a sample of Western Australian secondary school students aged 13‐16 were investigated with regard to the following reasoning modes: proportional reasoning, controlling variables, probabilistic reasoning, correlational reasoning, and combinatorial reasoning. There was a wide range in students’ reasoning abilities at all year levels. Large percentages of students did not use formal operational reasoning patterns when they attempted to solve problems assessing their ability to use each of the five reasoning modes. Commonly used, but incorrect reasoning patterns were identified for each reasoning mode. The students’ ability to use formal reasoning patterns was found to be an important factor in determining student achievement in lower secondary science, in their selection of year 11 science subjects, and their achievement in these subjects. The results of the study indicate that it is important for teachers to be aware of the reasoning patterns of their students and the cognitive demands of course content, so that they can optimally match the content and their teaching strategies with the abilities of their students. Further research is needed to establish the nature of instruction which might best facilitate cognitive growth. 相似文献
2.
This study investigated students' achievement regarding photosynthesis and respiration in plants in relation to reasoning ability, prior knowledge and gender. A total of 117 eighth‐grade students participated in the study. Test of logical thinking and the two‐tier multiple choice tests were administered to determine students' reasoning ability and achievement, respectively. An analysis of covariance (ANCOVA) was conducted to assess the effect of reasoning ability on students' achievement. The independent variable was the reasoning ability (low, medium, high), the dependent variable was the scores on the two‐tier test. Students' grades in science in previous year were used as a covariate. Analysis revealed a statistically significant mean difference between students at high and low formal levels with respect to achievement. Stepwise multiple regression analysis revealed that reasoning ability, prior knowledge and gender were significant predictors of students' achievement in photosynthesis and respiration in plants, explaining 42% of the variance. 相似文献
3.
This study validated the Watson Glaser Critical Thinking Appraisal (WGCTA) on a sample of 273 private university students
in Lebanon. For that purpose, evidence for construct validation was investigated through identifying the test’s factor structure
and subscale total correlations, in addition to differences in scores by gender, different levels, and streams using a series
of ANOVA tests. Evidence for the test’s reliability and concurrent validity was also collected. Moreover, students in five
courses that emphasize critical thinking were pre–post tested using the WGCTA. Exploratory factor analysis revealed a unidimensional
factor while results showed no significant differences in scores on the WGCTA between males and females or between students
at different levels except for graduate students in the Business stream. Furthermore, results revealed significant differences
for the senior students between different streams. Finally, results showed no statistically significant changes in the mean
scores of students who were pre- and post-tested except for nursing students. The test’s significant correlations with various
criterion measures provided evidence of its convergent and divergent validities. The results were discussed in terms of the
nature of the construct itself, and the effects of training and effective instructional strategies on growth of critical thinking.
Recommendations for future research were proposed. 相似文献
4.
Nancy C. Jordan Joseph Glutting Chaitanya Ramineni 《Learning and individual differences》2010,20(2):82-88
Children's symbolic number sense was examined at the beginning of first grade with a short screen of competencies related to counting, number knowledge, and arithmetic operations. Conventional mathematics achievement was then assessed at the end of both first and third grades. Controlling for age and cognitive abilities (i.e., language, spatial, and memory), number sense made a unique and meaningful contribution to the variance in mathematics achievement at both first and third grades. Furthermore, the strength of the predictions did not weaken over time. Number sense was most strongly related to the ability to solve applied mathematics problems presented in various contexts. The number sense screen taps important intermediate skills that should be considered in the development of early mathematics assessments and interventions. 相似文献
5.
Mourat A. Tchoshanov 《Educational Studies in Mathematics》2011,76(2):141-164
The mixed method sequential nested study examines whether and how the cognitive type of teachers’ content knowledge is associated
with student achievement, and correlated with teaching practice. In the context of this study, the cognitive type refers to the kind of teacher content knowledge and thinking processes required to accomplish a task successfully, in terms
of knowledge of facts and procedures (Type 1), knowledge of concepts and connections (Type 2), and/or knowledge of models
and generalizations (Type 3). A sample of 102 middle school mathematics teachers (grades 6–8) was assigned to the study from
a number of school districts in an urban area in the Southwestern US. Teachers were tested using the Teacher Content Knowledge
Survey. Student level data of about 2,400 middle grades students’ standardized test passing rates including percentage of
students meeting the state standards by objectives were collected. The type of teachers’ content knowledge was assessed and
tested for association with student achievement on the state-mandated standardized test using multivariate methods including
tests for variance and independence. The nested research consisted of three phases. Substudy-1 focused on quantitative analysis
of the association between cognitive type of teacher content knowledge and student achievement. Substudy-2 aimed at the correlation
between cognitive type of teacher content knowledge and teaching practice. Finally, substudy-3 was a case study on examining
middle grades mathematics teachers’ knowledge and understanding of fraction division. 相似文献
6.
Stefan Krumm Matthias Ziegler Markus Buehner 《Learning and individual differences》2008,18(2):248-257
The present paper contributes to individual difference research in the field of working memory (WM) and reasoning and their contribution to the prediction of real-life criteria. Therefore, a broad WM test battery, a well-established measure of reasoning, and school grades were applied. It is argued that abilities as assessed with the WM component coordination are relevant for good performances at school, especially for science courses. The verbal task of the WM component storage in the context of processing was assumed to be relevant for the prediction of performance in language courses. As expected, reasoning turned out to be the best predictor of school grades. However, it was also confirmed that variance shared by coordination and reasoning can explain school performance, especially as concerns science courses. The verbal storage in the context of processing task significantly accounted for variance in language courses above and beyond reasoning. Thus, the present study provided further insights into the differential validity of different WM components. 相似文献
7.
Nicolaos Valanides 《Educational Research and Evaluation》2013,19(2):160-186
The study investigated the differences related to formal reasoning abilities among students attending different sections of the upper cycle of secondary schools in Cyprus. The subjects of the study were twelfth‐grade students from 21 intact classes (227 boys and 242 girls). These classes were randomly selected among the 36 twelfth‐grade classes of four schools in a town of Cyprus. The sample of students represented the science section, the economic section and the “unified” section consisting of sections following common curricula in science and mathematics. Students’ performance on a standardized Test of Logical Thinking (TOLT) was used as a measure of their cognitive abilities related to control of variables, proportional, probabilistic, correlational and combinatorial reasoning. The students of the “unified” section had lower performance than the students of both the science and the economic section on all cognitive measures, and female students had lower performance than male students on cognitive measures related to control of variables and probabilistic reasoning. Multiple regression analysis between performance on TOLT and gender, section of study, and measures of school achievement showed that gender, section of study, achievement in mathematics, and grade point average, but not achievement in science and Greek language, contributed significantly to predicting performance on TOLT. Observed differences related to measures of school achievement either among the subjects of the three sections or between male and female students did not correspond to differences related to cognitive measures. Factor analysis of performance on the ten TOLT items (two items from each reasoning mode) produced a two‐factor solution. There were also significant differences in students’ performance between items related to the same or different reasoning mode. The results of the study cast doubt on the appropriateness of the existing curricula or their implementation and indicate that different theoretical perspectives should be considered when evaluating cognitive development. 相似文献
8.
In an experimental study to explain the effect of structured Building Block Play with LEGO? bricks on 6-year-old student mathematics achievement and in the areas of logical thinking, divergent thinking, nonverbal reasoning, and mental imagery, students in the experimental group scored significantly higher (p ≤ .05) in mathematics achievement and in the areas of divergent thinking, nonverbal reasoning abilities, and mental imagery. 相似文献
9.
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. 相似文献
10.
Researchers have reported that student authoritarianism, dogmatism, intelligence, convergent-divergent abilities, conceptual level, anxiety, compulsivity, achievement motivation, achievement orientation, locus of control, independence-dependence, and extraversion-introversion interact with teacher directiveness in relation to grades and satisfaction. Evidence that the student variables are moderately intercorrelated suggested that some of the interactions may not be independent. The present study was initiated to simplify the multivariate nature of these interactive patterns by carrying out a modified stepwise regression analysis of the twelve interactions which could result in a lesser number of nonredundant interactions emerging, weighted according to how much unique variance they could account for in grades and satisfaction. Data were collected from 445 students in the classes of 26 Grade 11 and 12 English teachers at five schools in regard to English grades, satisfaction with the teacher and the course, the 12 student variables, and perceived teacher directiveness. Only achievement motivation produced significant interactions. Consequently, the planned regression models could not be constructed. 相似文献
11.
Robert M. Bernard Dai Zhang Philip C. Abrami Fiore Sicoly Evgueni Borokhovski Michael A. Surkes 《Thinking Skills and Creativity》2008,3(1):15-22
Critical thinking (CT) has been of longstanding interest among scholars, educators, and others who are concerned with thinking skills. The Watson–Glaser Critical Thinking Appraisal (WGCTA) is the oldest and among the most widely used and studied CT measure. It was constructed around five subscales (or CT skills): inference, recognition of assumptions, deduction, interpretation, and evaluation of arguments. This paper describes a two part analysis of the psychometric properties of the WGCTA, based on 13 sets of subscale inter-correlations and 60 sets of subscale means retrieved from published studies. We performed a meta-analysis on the inter-correlations of the10 combinations of subscales and found that all of the average correlations that resulted were significant, but that all but one was significantly heterogeneous. Subsequently, we conducted principal components analysis on 60 subscale means of two different versions of the WGCTA. Each produced a one-factor solution, accounting for 82.69% and 79.55% of the total variance, respectively. Together these two parts of this study suggest that the WGCTA should be viewed as a measure of general competency, and that the subscales should not be interpreted individually. 相似文献
12.
We present a multiple-choice test, the Montana State University Formal Reasoning Test (FORT), to assess college students' scientific reasoning ability. The test defines scientific reasoning to be equivalent to formal operational reasoning. It contains 20 questions divided evenly among five types of problems: control of variables, hypothesis testing, correlational reasoning, proportional reasoning, and probability. The test development process included the drafting and psychometric analysis of 23 instruments related to formal operational reasoning. These instruments were administered to almost 10,000 students enrolled in introductory science courses at American universities. Questions with high discrimination were identified and assembled into an instrument that was intended to measure the reasoning ability of students across the entire spectrum of abilities in college science courses. We present four types of validity evidence for the FORT. (a) The test has a one-dimensional psychometric structure consistent with its design. (b) Test scores in an introductory biology course had an empirical reliability of 0.82. (c) Student interviews confirmed responses to the FORT were accurate indications of student thinking. (d) A regression analysis of student learning in an introductory biology course showed that scores on the FORT predicted how well students learned one of the most challenging concepts in biology, natural selection. 相似文献
13.
Creating an educational program that results in positive science, technology, engineering, and mathematics or STEM-oriented outcomes for all students is an important education objective and federal policy directive in the United States. In addition to developing strong mathematics foundations in Grades K–8 that are closely associated with successful STEM outcomes, intrapersonal skill development is also critical to academic and postsecondary success. Using nationally representative data from the Early Childhood Longitudinal Study, Kindergarten Class of 1998–99 the current study applied structural equation growth modeling to examine relationships among mathematics achievement in Grades K–1 and Grades 3–8, and mathematics self-concept development across Grades 3–8. Study results revealed that students reported declining levels of mathematics self-concept across the middle grades. Importantly, third grade reports of self-concept were associated with both mathematics achievement at kindergarten entry and third grade mathematics achievement; however, mathematics achievement at kindergarten entry was also associated with the development of mathematics self-concept in third through eighth grade. In addition, after accounting for mathematics achievement in Grades K–1, mathematics achievement growth in Grades 3–8 was directly associated with mathematics self-concept development across the same time period. Implications for future research, mathematics instruction, and curriculum development are discussed. 相似文献
14.
Three years after the end of a two-year intervention program intended to promote formal operational thinking, the achievement of students initially 11 years of age was tested by their results in British National examinations, taken at age 16. Although the intervention was set within the context of science learning, the effects were found in science, mathematics, and English. In contrast to results reported earlier for the older cohort aged 12 years initially, where the boys showed greater achievement than girls in science and mathematics, here the effect was limited to girls. In comparison with control classes the effect sizes were science, 0.67σ mathematics, 0.72σ, and English, 0.69σ. Although half of the students showed increased achievement in science, which was consistent with the Piagetian model used in the intervention, the achievement of some in science, mathematics, and English was not associated with gains on Piagetian tests above those of control students. These results were attributed to aspects of the intervention methodology intended to enhance metacognition. The distinction between intervention and instruction was discussed in relation to normative data on Piagetian development in adolescents. 相似文献
15.
A review of the literature suggests a relationship between life-long development of formal reasoning schema and performance in professional education careers. The study investigated implications of cognitive development of preservice teachers as it relates to their classroom teaching performance. Ninety-one seniors involved in a field-oriented teacher education program were given classroom responsibilities which included teaching a science unit. Formal thinking abilities were assessed using two types of developmental level tasks, performance on traditional type Piagetian tasks and recognition of formal thought approaches in solving educational tasks. Professional behaviors were assessed using observational ratings of classroom instructional and planning activities. Subjects assessed as formal operational, 30% of sample, using Piagetian performance tasks, had significantly higher facility in performing model classroom teaching behaviors than transitional or concrete subjects. Higher recognition ability of formal thought approaches to teaching was not related to facility in performing classroom teaching when compared to performance on Piagetian tasks. The relationship held up in seven of eight broad teaching behavior categories observed in classroom instruction. The results supported a general portrait of teaching behavior specifically related to teachers of differing cognitive functional levels. Implications for professional training programs are discussed. 相似文献
16.
17.
Fannie Mae Crowe 《Journal of Experimental Education》2013,81(1):48-53
Principal components factor analysis and Kaiser Varimax rotation was conducted on a correlation matrix of twenty-two subtests of a scholastic achievement test, a scholastic aptitude test, two critical thinking tests, a logical reasoning test, and a problem solving test. The subjects were “disadvantaged” Negroes, “disadvantaged” integrated Negroes and whites, and “non-disadvantaged” whites. Four factors were rotated. The largest rotated factor accounting for 50 percent of the variance was a scholastic achievement test and aptitude test factor. The second factor accounting for 21 percent of the variance was a Watson-Glaser Critical Thinking Appraisal factor. The third factor accounting for 20 percent of the variance was primarily a Cornell Critical Thinking Test factor. 相似文献
18.
Li‐fang Zhang 《教育心理学》2006,26(3):395-409
This study concerns the contingent nature of the relationships of student–teacher style match (or mismatch) to students’ academic achievement. Participants were 135 (59 male and 76 female) students (average age of 21.5 years) from three academic disciplines (mathematics, physics, and public administration) who responded to the Thinking Styles Inventory and rated their own abilities (analytical, creative, and practical). The academic achievement scores in two subject matters for each student were also used. The students’ subject matter teachers responded to the Thinking Styles in Teaching Inventory. Three major findings were obtained. First, the effects of style match/mismatch upon students’ achievement vary as a function of academic discipline and subject matter. Second, the statistical procedures used to analyse the data play an important role in the relationships under investigation. Third, students’ self‐rated abilities make a difference in the tested relationships. Findings have implications for both researchers and teachers. 相似文献
19.
Nicos Valanides 《European Journal of Psychology of Education - EJPE》1999,14(1):109-127
The study investigated the structure and development of formal thought among tenth-, eleventh-, and twelfth-grade students. The subjects of the study were the total numbers of students attending the science, the economic, and the other sections of two higher secondary schools. Students' performance on a standardized Test of Logical Thinking (TOLT) was used as a measure of their cognitive abilities related to control of variables, proportional, probabilistic, correlational, and combinatorial reasoning. Students attending the different sections of study had significantly different TOLT performance, older students exhibited significantly better TOLT performance than younger ones, and boys performed significantly better on TOLT than girls did. The “rate” of development was, however, different for different reasoning modes and differences in school achievement between boys and girls did not tap differences in TOLT performance. Regression analysis showed that section of study, gender, grade level, and measures of school achievement contributed significantly to the prediction of TOLT performance. Factor analysis of performance on the ten TOLT items (two items from each reasoning mode) produced a two- and three-factor solution for the sample of boys and the sample of girls, respectively. The results indicate that different theoretical perspectives should be considered when evaluating cognitive development and that learning environments conducive to cognitive growth need to be designed and implemented. 相似文献
20.
Two years after the end of a two-year intervention program intended to promote formal operational thinking, the achievement of students initially 12 years of age was tested by their results in British National examinations, taken at age 16. The intervention methodology was set within the context of science learning, so the difference between experimental and control classes was examined first in terms of their science results. The boys achieved an average of 40% more grades of C or above than the controls. This grade is the minimum criterion for higher education in Britain. The achievement was not found equally in all students: About 40% of the boys and 25% of the girls showed effect sizes of two standard deviations in relation to comparable controls, whereas the others did not differ from the controls. Both boys and girls showed significantly higher achievement in English than comparable controls, with an effect size about half that for science. The boys—but not the girls—also showed higher achievement in mathematics. It is argued that this evidence supports the interpretation that the students' increased science achievement was caused by increased general intellectual capacity, and not just by improved domain-specific skills. 相似文献