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1.
This study describes gender differences in achievement in the academic areas of mathematics problem solving and science. Standardized achievement test scores for a sample of 3002 students who were tested in each of ten consecutive years, grades 3 through 12, were used to assess the differences in mathematics while matched data for grades 9 through 12 were available in science. Selected percentiles (90th, 75th, 50th, 25th, 10th) were estimated for both Female and male score distributions for each area. The results indicate fairly consistent patterns of differences. Males generally performed better at the upper percentile levels of the score distributions in mathematics problem solving and science, while females closed the gap and, in some instances, outperformed males at the lower percentile levels.  相似文献   

2.
As student-centered approaches to teaching and learning are more widely applied, researchers must assess the outcomes of these interventions across a range of courses and institutions. As an example of such assessment, this study examined the impact of inquiry-based learning (IBL) in college mathematics on undergraduates’ subsequent grades and course selection at two institutions. Insight is gained upon disaggregating results by course type (IBL vs. non-IBL), by gender, and by prior mathematics achievement level. In particular, the impact of IBL on previously low-achieving students’ grades is sizable and persistent. The authors offer some methodological advice to guide future such studies.  相似文献   

3.
Primary mathematics teachers’ (N = 521) personal goal orientation and instructional practices were examined based on questionnaire responses. The teachers (grades 2 and 3) were oriented towards mastery goals and mastery approaches to instruction, and reported high teaching efficacy. Strong positive relation between performance orientation and performance instructional practices was established, and correspondingly between mastery orientation and mastery instructional practices. Positive relations between students’ (N = 9,980) basic mathematics performance (measured by paper and pencil tests) and both teacher mastery orientation and teaching efficacy were also found. Results indicate that mastery oriented teaching strategies are crucial for fostering basic mathematical competencies in primary students.  相似文献   

4.
This study analyzed gender differences in achievement emotions in the domain of mathematics. Based on Pekrun’s (2000, 2006) controlvalue theory of achievement emotions, we hypothesized that there are gender differences in mathematics emotions due to the students’ different levels of control and value beliefs in mathematics, even when controlling for prior achievement. The structural relationships between prior achievement, control and value beliefs, and emotions were assumed to be invariant across girls and boys in spite of hypothesized mean level differences of beliefs and emotions across genders. The emotions and beliefs of 1,036 male and 1,017 female 5th grade students were assessed by self-report measures, and their prior mathematics achievement was assessed by academic grades. Even though girls and boys had received similar grades in mathematics, girls reported significantly less enjoyment and pride than boys, but more anxiety, hopelessness and shame. Findings suggested that the female emotional pattern was due to the girls’ low competence beliefs and domain value of mathematics, combined with their high subjective values of achievement in mathematics. Multiple-group comparisons confirmed that the structural relationships between variables were largely invariant across the genders.  相似文献   

5.
ABSTRACT

This study investigates, through a cluster randomized trial, the impact of Math in Focus, a core mathematics program modeled after instructional approaches used in Singapore, on third- through fifth-grade students’ achievement in mathematics. The program is currently being used in more than 400 school districts in the United States. The program focuses on coherence of coverage of materials across grades, use of the Concrete to Pictorial to Abstract approach to instruction, and covering fewer topics, but addressing them more thoroughly. Twenty-two grade-level teams across 12 schools were randomized to the program or business as usual. Measures included indicators of fidelity to treatment, and student mathematics learning. Impacts on mathematics achievement ranged from .11 to .15 standard deviation units. No differences in impact were observed depending on level of incoming achievement, minority status, or grade level. Impact of Math in Focus did not vary across the procedures and problem-solving subscales. Discussion of findings includes the nature of the counterfactual, and possible future direction of impact studies that may focus in greater depth on the critical features of inquiry instruction unique to Math in Focus.  相似文献   

6.
This article examines differences in the mathematics and English proficiency of academic-track students in Baden-Württemberg (N?=?3526) and Hamburg (N?=?3734), investigating whether and to what extent these differences are reflected in the Abitur grades the students are awarded. The article also examines the extent to which scores in centrally conducted examinations provide better comparability than do coursework grades. Multilevel analyses predicting coursework grades in mathematics revealed clear between-state differences, with students in Hamburg being awarded higher mathematics grades than comparably able students in Baden-Württemberg. These differences are partly attributable to frame of reference effects and their impact on teachers’ grading practices. No corresponding between-state differences were found for English. Mathematics examination scores provided a much better measure of student achievement than mathematics coursework grades. The findings are discussed in terms of meritocratic access to sought-after university and training places.  相似文献   

7.
The purpose of this study was to investigate gender differences in students’ mathematics achievement and in their attitudes toward mathematics. Another purpose was to examine mathematics teachers’ beliefs and their perceptions of their male and female students’ ability. The sample consisted of 692 students (353 girls, 339 boys) between the ages of 12 and 16 years, enrolled in grades 7–9 at four private schools in Lebanon. Data were collected using the Attitudes Toward Mathematics (ATM) scale (Aiken in Journal for Research in Mathematics Education, 5, 67–71, 1974), school records, and interviews with teachers. Results showed no significant gender differences in either achievement or attitudes toward mathematics, thus dispelling the common belief that female students in traditional cultures do not perform well in mathematics and dislike the field. A main effect for grade level was found with ninth graders significantly outperforming their younger counterparts. Also, teachers viewed mathematics as a male domain and attributed boys’ success to ability and girls’ success to effort. They also interacted with boys more frequently regardless of the nature of the exchange. Implications for future research and for instructional practice are overviewed.  相似文献   

8.
Load reduction instruction (LRI) is a practical instructional framework aimed at managing the cognitive demands experienced by students as they learn. LRI comprises five key instructional principles: (1) difficulty reduction during initial learning, as appropriate to students’ prior learning, (2) support and scaffolding, (3) structured practice, (4) feedback-feedforward, and (5) guided independent application. The present investigation explored student- and teacher-reports of LRI in both mathematics and English. The Load Reduction Instruction Scale – Short was administered to 1773 students and their teachers in 93 mathematics classrooms and 94 English classrooms. Multilevel (Level 1 student; Level 2 classroom) confirmatory factor analysis (MCFA) supported a Level 1 student LRI factor and a Level 2 class-average LRI factor in each of mathematics and English. However, two LRI factors emerged for teachers in each of mathematics and English: one factor related to Principle 1 (difficulty reduction) and one factor related to Principles 2–5 (scaffolding to autonomy). Follow-up multilevel structural equation modeling (MSEM) revealed that teachers adjusted their application of LRI Principle 1 (but not Principles 2–5) as a function of class-average prior learning (lower prior learning was associated with greater application of Principle 1). MCFA also showed that correlations between student- and teacher-reported LRI were low. Follow-up MSEM revealed that student- and teacher-reports of LRI uniquely predicted students’ effort and achievement—suggesting that students and teachers provide distinct insights into instruction (hence the low correlation between them) and highlighting the important role of both informants in capturing a comprehensive perspective on instruction in the classroom.  相似文献   

9.
The authors' purpose in this study was to compare the effectiveness of two instructional approaches on mildly handicapped and nonhandicapped students' science achievement. Students were assigned at random to one of two conditions: (a) direct instruction, and (b) discovery teaching. The content of the lessons remained constant across conditions and focused on such concepts as displacement, flotation, variable, controlled experimentation, and scientific prediction. The results show that students in both groups learned equally well as measured by an immediate posttest. However, students in the discovery teaching condition outperformed their direct instruction counterparts on a retention test administered two weeks after the posttest. Finally, learning-disabled students in the discovery condition performed better than their direct-instruction counterparts on a performance-based measure designed to assess generalization. Implications for research and for practice are discussed.  相似文献   

10.
A case study was conducted of mathematics instruction at five sites in Papua New Guinea. Trial instructional materials were developed, teachers received inservice training and implementation was carefully monitored for a six-week period. English and mathematics achievement instruments and eight measures of cognitive development were administered to a sample of 201 students in grades two, four and six. Mathematics and language achievement varied significantly among the five sites. Students at all grade levels exhibited poor application of problem solving skills while showing computation, measurement and mathematical language abilities superior to results previously reported. English reading and measures of conservation and classification competence were highly correlated with mathematics achievement. Correlations between memory measures and mathematics achievement decreased from grade two to grade six while correlations between measures of language and cognitive development and mathematics achievement tended to increase. The results indicated that the non-consumable student textbooks ameliorated to some extent the problems associated with non-native language instruction for the students involved in the study. It was concluded that locally developed textbooks with an appropriate language load would enhance mathematics learning, particularly in remote-rural areas where current teaching conditions and lack of materials interact with poor English skills to create an imbalance in achievement.  相似文献   

11.
Teachers need more clarity about effective teaching practices as they strive to help their low-achieving students understand mathematics. Our study describes the instructional practices used by two teachers who, by value-added metrics, would be considered “highly effective teachers” in classrooms with a majority of students who were English learners. We used quantitative data to select two fifth-grade classrooms where students, on average, made large gains on a mathematics achievement test, and then examined teaching practices and contextual factors present in each classroom. Participants included two teachers from a mid-Atlantic district and their students who were 67% English learners and 68% economically disadvantaged. We found that the use of multiple representations of mathematics concepts, attention to vocabulary building, individual and group checks for understanding and error analysis were prevalent practices in both high gains classrooms. Also, class sizes ranged from 12–19 students. Discussion focuses on whether observed practices are aligned with recommended teaching practices for English learner students.  相似文献   

12.
This study examined the measurement structure, cross-year stability of achievement goals, and mediating effects of achievement goals between self-efficacy and math grades in a national sample of Taiwan middle school students. The measurement model with factorial structure showed good fit to the data. In the panel data (N?=?343), four achievement goals showed strong measurement invariance, suggesting factor loadings and intercepts of the items remained invariant across a year. Though mean scores of the four latent achievement goals held quite stable, the rank order of students across two time-points changed more profoundly in the two avoidance goals than in the approached goals. In the cross-sectional data (N?=?748), we found approach-based goals were positive mediators between self-efficacy and math grades while avoidance-based goals were negative mediators. This result could be relevant for middle-school students in learning mathematics. Some instructional implications are provided.  相似文献   

13.
Educators are increasingly recognising the importance of improving students’ mathematics achievement. Much of the current research focuses on the impact of instructional variables on mathematics achievement. The goal of this study was to examine the influence of less researched variables – family and student factors. Participants were 747 economically disadvantaged elementary students grades K-8 in Ohio. Predictor variables included: (a) 13 factors from a parent survey on both child and family circumstances and (b) reading achievement, measured by a norm-referenced achievement test. Outcome variables included three mathematics scales from the same achievement test. Regression analyses examined the impact of the predictors on the outcomes. Reading achievement significantly predicted mathematics achievement for all three outcomes. Parent pessimism and parent-perceived school/cognitive competence of children also emerged as significant predictors for two of the three mathematics outcomes. Implications for research, policy and practice will be shared.  相似文献   

14.
The purpose of the study was to use multivariate multilevel techniques to investigate whether it was possible to separate different dimensions in grades that relate to subject-matter achievement and to other factors. Data were derived from The Gothenburg Educational Longitudinal Database (GOLD), and the subjects were 99,070 ninth-grade students born in 1987. The analyses were based on subject grades and scores on national tests in Swedish, English, and mathematics. The results showed that, at both individual and school levels, the greatest part of the variance in grades was due to achievement in the different subject areas. At both levels, it was possible to identify a dimension that cut across the grades in all 3 subjects, which suggests that grading is influenced by factors other than achievement. One of the most interesting results concerns the relation between parental education and the common grade dimension at the school level.  相似文献   

15.
This meta-analysis integrated 143 primary studies on the relationship of attitude toward self and social factors with achievement in mathematics. Attitude was decomposed into self-concept about mathematics, perception of family support, and perception of mathematics as a male domain. Major findings included: (a) self-concept, family support, and mathematics as a male domain were all related to achievement; (b) the three relationships did not show significant gender differences; (c) the three relationships consistently decreased from the junior high grades to the senior high grades; (d) the relationship between self-concept and achievement varied as a function of ethnicity, whereas the relationship between family support and achievement was consistent across ethnic background; (e) the three relationships all varied across sample selection; (f) the relationship between self-concept and achievement varied with sample size, whereas the relationships of family support and mathematics as a male domain with achievement were sample-size invariant; (g) the relationship between self-concept and achievement increased over time, whereas the relationships of family support and mathematics as a male domain with achievement remained almost unchanged over time; and (h) there were no statistically significant interaction effects among gender, grade, and ethnicity for any of the three relationships.  相似文献   

16.
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   

17.
The present study focused on students’ academic enjoyment as predicted by achievement in multiple academic domains. Assumptions were based on Marsh’s internal/external (I/E) frame of reference model and Pekrun’s control-value theory of achievement emotions, and were tested in a sample of 1380 German students from grades 5 to 10. Students’ academic enjoyment, self-concept, and achievement were assessed in relation to mathematics and verbal language classes. In line with assumptions of the I/E model, mathematics performance assessed in the previous academic year positively predicted enjoyment in mathematics classes, and negatively predicted enjoyment in language classes. Language class performance positively predicted enjoyment in language classes, and negatively predicted enjoyment in mathematics classes. Corroborating assumptions derived from Pekrun’s control-value theory, achievement/enjoyment relations were mediated by academic self-concepts. Despite stereotypic gender differences in mean values, linkages between constructs were invariant across genders.  相似文献   

18.
High‐stakes mathematics assessments require students to write about mathematics, although research suggests students exhibit limited proficiency on such assessments. Students with LD may have difficulties with writing, mathematics, or both. Researchers employed an intervention for teaching students how to organize mathematics writing (MW). Researchers randomly assigned participants (n = 61) in grades 3–5 to receive instruction in MW or information writing. Students receiving MW outperformed control students on a researcher‐developed measure of MW (d = 1.05). Component assessment revealed MW students improved in writing organization (d = 1.49) but not in mathematics content (d = 0.11 ns). Results also indicated MW students outperformed control on percentage of correct MW sequences (d = 0.82). Future directions for MW intervention development are discussed.  相似文献   

19.
This study examined the effectiveness and influence on validity of a computer-based pop-up English glossary accommodation for English learners (ELs) in grades 3 and 7. In a randomized controlled trial, we administered pop-up English glossaries with audio to students taking a statewide accountability English language arts (ELA) and mathematics assessments. As is typically found, EL students exhibited lower achievement scores than non-EL students in all portions of the test. The pop-up glossaries provided inconsistent benefit for EL students. There was some evidence that the pop-up English glossaries had a minimal inhibitory effect for 3rd-grade students on both the ELA and mathematics assessment. Furthermore, 7th-grade ELs also showed slightly inhibited performance when using the pop-up glossary on the mathematics assessment. However, 7th-grade EL students had a performance benefit when using the pop-up glossary on the ELA assessment. We discuss how increased cognitive load placed on younger students may play a role in diminishing performance when using pop-up glossaries. We explore potential explanations for the difference outcomes between mathematics and ELA in grade 7.  相似文献   

20.
The present study investigated gender differences in scholastic achievement (school grades in sciences and languages) as mediated by reasoning ability in a large sample with a clustered data structure from an educational context. Whereas girls outperformed boys in languages, boys excelled in sciences and reasoning. Multilevel analyses indicated a small indirect effect of gender on school grades mediated by reasoning ability. Gender differences in sciences, but not in languages were largely explained by reasoning ability, but not by factors such as gender ratio in the classroom or mental speed. The predictive power of reasoning ability for languages, but not sciences was larger in classrooms with higher mean reasoning ability. Further, gender differences in languages, but not sciences varied significantly across classrooms. Reasoning ability appears to be important for predicting scholastic achievement in sciences, whereas languages are more affected by gender-related attributes.  相似文献   

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