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1.
Differential influences of various family processes for students of science talent and students in general education from Grades 4 to 12 and Science Olympians in Korea were examined by administering Korean Inventory of Parental Influence. Korean Science Olympians were additionally interviewed about their family and school experiences. Family processes were perceived more frequently or more strongly by scientifically talented students and younger students than general-education students and older students, respectively. Supportive and conducive family processes were maintained even in the high-school period in the families of scientifically talented students, whereas they decreased as students in general education get older. Father's involvement emerged as the most influential predictor of mathematics and science achievement, whereas press for intellectual development was a significant predictor for grade-point average (GPA). Parents may need to maintain the conducive and supportive family processes even for their high-school children in order to nurture their talents in mathematics and science. 相似文献
2.
The purpose of this research was to examine the antecedents and consequences of epistemic and activity emotions in the context of complex mathematics problem solving. Seventy-nine elementary students from the fifth grade participated. Students self-reported their perceptions of control and value specific to mathematics problem solving, and were given a complex mathematics problem to solve over a period of several days. At specific time intervals during problem solving, students reported their epistemic and activity emotions. To capture self-regulatory processes, students thought out loud as they solved the problem. Path analyses revealed that both perceived control and value served as important antecedents to the epistemic and activity emotions students experienced during problem solving. Epistemic and activity emotions also predicted the types of processing strategies students used across three phases of self-regulated learning during problem solving. Finally, shallow and deep processing cognitive and metacognitive strategies positively predicted problem-solving performance. Theoretical and educational implications are discussed. 相似文献
3.
《International Journal of Educational Research》1996,25(6):523-534
Thirty-six Math Olympians (34 males and 2 females) served as the subjects in a study that asked two questions: (1) What family and school factors contribute to the development of the math talent of the Olympians? (2) What impact did the Olympiad program have on these mathematically talented students? The data were collected by means of questionnaire surveys and in-depth interviews. The major findings were as follows: (1) the Olympians were mostly the first-born child in small families and were “discovered” at an early age; (2) most Olympians ranked high in their class; (3) the SES of the Olympians' families were varied, though the majority were high; (4) the Olympians' family support and learning environment were strong and positive; (5) the Olympiad experiences were, in general, positive for the subjects, especially in learning, forming positive attitudes toward math and science, self-esteem, autonomous learning, and creative problem solving; (6) there were almost no special programs designed for the Olympians during their college years; (7) the degree of computer literacy was varied according to the subject's personal interest and the accessibility to the computer; and (8) most Olympians had not shown special achievement other than math. 相似文献
4.
Christine R. Starr Lisa Hunter Robin Dunkin Susanna Honig Rafael Palomino Campbell Leaper 《科学教学研究杂志》2020,57(7):1093-1118
Our short-term longitudinal study explored undergraduate students' experiences with performing authentic science practices in the classroom in relation to their science achievement and course grades. In addition, classroom experiences (felt recognition as a scientist and perceived classroom climate) and changes over a 10-week academic term in STEM (science, technology, engineering, and mathematics) identity and motivation were tested as mediators. The sample comprised 1,079 undergraduate students from introductory biology classrooms (65.4% women, 37.6% Asian, 30.2% White, 25.1% Latinx). Using structural equation modeling (SEM), our hypothesized model was confirmed while controlling for class size and GPA. Performing science practices (e.g., hypothesizing or explaining results) positively predicted students' felt recognition as a scientist; and felt recognition positively predicted perceived classroom climate. In turn, felt recognition and classroom climate predicted increases over time in students' STEM motivation (expectancy-value beliefs), STEM identity, and STEM career aspirations. Finally, these factors predicted students' course grade. Both recognition as a scientist and positive classroom climate were more strongly related to outcomes among underrepresented minority (URM) students. Findings have implications for why large-format courses that emphasize opportunities for students to learn science practices are related to positive STEM outcomes, as well as why they may prove especially helpful for URM students. Practical implications include the importance of recognition as a scientist from professors, teaching assistants, and classmates in addition to curriculum that engages students in the authentic practices of science. 相似文献
5.
Hae-Deok Song Barbara L. Grabowski 《Educational technology research and development : ETR & D》2006,54(5):445-466
One important factor related to ill-structured problem-solving success is intrinsic motivation, that is, students’ willingness
to persist in solving the problem. Goal orientation, a motivational variable, explains reasons why students engage in the
activity because they want to either learn or perform. This study investigated the relationship between these two types of
goal orientations and their effects on motivation and problem solving by varying three instructional contexts designed to
promote one of the two orientations. Heterogeneous and homogeneous peer grouping based on self-efficacy was also predicted
to affect intrinsic motivation and problem solving. The results indicated that students in the learning-oriented context had
significantly higher intrinsic motivation than those in the performance-oriented context. Students in the heterogeneous peer
group had higher scores on monitoring and evaluating problem-solving subskills than those in the homogeneous peer groups.
Learning-goal orientation and solution development were significantly related when students participated in the learning-oriented,
heterogeneous peer grouping treatment group. 相似文献
6.
This study investigated the effects of intrinsic motivation, perceived competence, classroom engagement and extrinsic motivation on reading development among youth. Using a nationally representative sample of students in the US, the researchers followed students longitudinally from fifth to eighth grade. Reading achievement was measured using composite tests of vocabulary, reading comprehension and sight-word identification. Hierarchical linear regression was used to examine the effect of students’ perceived intrinsic motivation and competence, as well as teacher rated classroom engagement in the 5th grade, on reading achievement in the 8th grade. Important control variables were utilised such as gender, family SES, race/ethnicity and prior reading achievement. The results showed that intrinsic motivation to read, perceived competence and engagement in 5th grade significantly predict reading achievement in 8th grade. The importance students placed upon grades also predicted reading development. Implications for promoting intrinsic motivation and strong engagement in schools are discussed. 相似文献
7.
The aim of this study was trying to predict success in the qualifying round for the International Chemistry Olympiad (IChO) on the basis of the expectancy-value model of achievement motivation by Eccles et al. The investigation with 52 participants, including 14 females, was conducted during the third of four qualifying rounds of the IChO in Germany. The subjects filled in a questionnaire, took an intelligence test, and participated in two theoretical chemistry exams. Male and female Olympians showed large differences in parental support, motivation, and emotion as well as test performance. Ultimately, only one female participant qualified for the fourth round of the IChO. The model of Eccles et al. was well suited for predicting test performance in the competition. The strongest predictor was found to be the participation in a previous IChO. The implications for reducing gender differences and promoting scientifically talented students are discussed. 相似文献
8.
Dimitrios A. Zisimopoulos Evangelia P. Galanaki 《Learning disabilities research & practice》2009,24(1):33-43
The aim of this study was to examine differences in intrinsic motivation and perceived academic competence as well as in their association between 5th‐ and 6th‐grade students with learning disabilities (LD) (n= 40) and their typically achieving peers. Participants were 980 Greek elementary students from the metropolitan area of Athens. As predicted, students with LD showed lower intrinsic motivation and perceived academic competence than students without LD almost across all subscales. Exceptions were noticed in intrinsic motivation concerning curiosity/interest and history subscales as well as perceptions of academic competence in the subjects of history and science. Support was found that among typically achieving students intrinsic motivation was positively and significantly related at a moderate level to perceived academic competence across all subscales, as opposed to students with LD, for whom few correlations were found. 相似文献
9.
Bruce C. Howard Steven McGee Namsoo Shin Regina Shia 《Educational technology research and development : ETR & D》2001,49(4):49-69
Sternberg's (1985) triarchic theory of human intelligence distinguished among three types of intellectual abilities: analytic,
creative, and practical. Our study explored the relationships between student abilities and the cognitive and attitudinal
outcomes that resulted from student immersion in a computer-based inquiry environment. In particular, we examined outcome
variables related to content understanding, problem solving, and science-related attitudes.
Results indicated that more practical abilities predicted greater content understanding and transfer of problem-solving skills.
High analytic abilities were predictive of content understanding but not transfer of problem-solving skills. High creative
abilities predicted problem solving, but were not predictive of performance on content understanding. In terms of science-related
attitudes, students who were dominant in practical abilities had significantly more positive posttest attitudes than those
dominant in analytic abilities. The results from this study were used to make recommendations regarding design principles
used in the subsequent development of computer-based inquiry environments. 相似文献
10.
Although many studies have documented developmental change in mathematics motivation, little is known about how these trends predict math performance. A sample of 288 participants from the United States reported their perceived math ability, math utility value and math interest in 5th, 7th and 9th grades. Latent growth curve models estimated developmental trajectories in each of these constructs. Mathematics interest and utility value decreased across time, but there was no significant change in self-perceived math ability. Slopes and intercepts of all mathematics motivation variables correlated with one another. Even when controlling for prior mathematics performance, students who self-reported high math ability in 5th grade had higher standardised test scores than their peers in high school five years later. Neither math utility value nor math interest intercepts or slopes predicted later performance. Understanding the predictors of math performance is important for supporting students’ success in science, technology, engineering and mathematics careers. 相似文献
11.
Nonmanut Pongsakdi Eero Laakkonen Teija Laine Koen Veermans Minna M. Hannula-Sormunen Erno Lehtinen 《Scandinavian Journal of Educational Research》2019,63(2):179-197
A Word Problem Enrichment programme (WPE) has been found to increase student word problem solving performance when facing non-routine and application problems. However, it is unknown if the WPE has an impact on student beliefs about word problem solving and how the WPE works for students with different motivation in learning mathematics. This study investigated the impact of the WPE on student beliefs about word problem solving by using Latent Profile Analysis and Structural Equation Modelling to analyse relations among the different cognitive, motivation, and belief factors. A total of 170 fourth- and sixth-grade students from elementary schools participated. Results showed that the effects of WPE are various depending on students’ initial motivation level. The impacts of the WPE on student beliefs were found only in students with a low initial motivation level, while its impacts on student problem-solving performance were found only in students with a high initial motivation level. 相似文献
12.
Carlos O. Calderón-Tena Linda C. Caterino 《International Journal of Science and Mathematics Education》2016,14(7):1377-1385
This study assessed the relation between long-term memory retrieval and mathematics calculation and mathematics problem solving achievement among elementary, middle, and high school students in nationally representative sample of US students, when controlling for fluid and crystallized intelligence, short-term memory, and processing speed. As hypothesized, structural equation modeling comparing elementary school students and middle and high school students revealed that long-term retrieval skills became a better predictor of both mathematics calculation and mathematics problem solving as age and grade increased. Future research should focus on the effectiveness of interventions to improve long-term retrieval skills in general, and arithmetic facts retrieval and problem solving procedures in particular, at all grades, including high school. 相似文献
13.
One hundred and thirty-three mathematics teachers of deaf students from grades 6-12 responded to a survey on mathematics word problem-solving practices. Half the respondents were teachers from center schools and the other half from mainstream programs. The latter group represented both integrated and self-contained classes. The findings clearly show that regardless of instructional setting, deaf students are not being sufficiently engaged in cognitively challenging word problem situations. Overall, teachers were found to focus more on practice exercises than on true problem-solving situations. They also emphasize problem features, possibly related to concerns about language and reading skills of their students, rather than analytical and thinking strategies. Consistent with these emphases, teachers gave more instructional attention to concrete visualizing strategies than to analytical strategies. Based on the results of this study, it appears that in two of the three types of educational settings, the majority of instructors teaching mathematics and word problem solving to deaf students lack adequate preparation and certification in mathematics to teach these skills. The responses of the certified mathematics teachers support the notion that preparation and certification in mathematics makes a difference in the kinds of word problem-solving challenges provided to deaf students. 相似文献
14.
The purpose of this article is to provide an illustrative review of recent research on achievement motivation and gifted students from a social cognitive perspective. The review discusses several constructs that have been a focus of motivation research: perceived competence and self-efficacy, attributions, goal orientations, and intrinsic motivation. For each construct, motivational research from the general motivation literature and from the field of gifted and talented studies are critiqued and compared. The review suggests that a general social cognitive perspective is a useful theoretical framework for research on motivational processes involved in the intellectual and personal development of gifted and talented students and that a process-oriented model is superior to a static model for research on both giftedness and achievement motivation. Implications of the review for future research on motivation and talent development are discussed. 相似文献
15.
Sein Shin Arif Rachmatullah Fenny Roshayanti Minsu Ha Jun-Ki Lee 《International Journal for Educational and Vocational Guidance》2018,18(2):203-231
The purpose of this study was to understand the career motivation of secondary students in science, technology, engineering, and mathematics (STEM) by comparing Korean and Indonesian students. Effects of gender and educational level on students’ STEM career motivation were also examined. To test for differences, we used Rasch analysis, 3-way ANOVA, correlation analysis, and multiple group path analysis. STEM career motivation was found to be significantly affected by interactions between country, gender, and educational level. Overall, Indonesian students had more STEM career motivation than Korean students. Korean students showed larger gender differences in STEM career motivation than Indonesian students. 相似文献
16.
Grounded in expectancy-value and stereotype threat theories, this four-year longitudinal study examined associations between changes in stereotype threat and motivation (self-efficacy, task values, and perceived costs) among 425 undergraduates from racial/ethnic groups typically underrepresented in science, technology, engineering, and mathematics (STEM). Growth analyses indicated that students’ stereotype threat and perceived cost of studying science increased during college, whereas science self-efficacy, intrinsic value, and attainment value declined. Parallel growth analyses suggested that higher initial stereotype threat related to a faster decline in attainment value and faster increase in perceived costs throughout college. Higher initial levels and a steeper increase in stereotype threat related to lower STEM GPA. Higher initial levels and a slower decline in motivation variables related to higher STEM GPA and more completed STEM courses. These findings provide empirical evidence for the relations between stereotype threat and motivation among underrepresented minority students during a key developmental period. 相似文献
17.
The goal of the study reported here is to gain a better understanding of the role of belief systems in the approach phase
to mathematical problem solving. Two students of high academic performance were selected based on a previous exploratory study
of 61 students 12–13 years old. In this study we identified different types of approaches to problems that determine the behavior
of students in the problem-solving process. The research found two aspects that explain the students’ approaches to problem
solving: (1) the presence of a dualistic belief system originating in the student’s school experience; and (2) motivation
linked to beliefs regarding the difficulty of the task. Our results indicate that there is a complex relationship between
students’ belief systems and approaches to problem solving, if we consider a wide variety of beliefs about the nature of mathematics
and problem solving and motivational beliefs, but that it is not possible to establish relationships of causality between
specific beliefs and problem-solving activity (or vice versa). 相似文献
18.
Pamela R. Clinkenbeard 《Psychology in the schools》2012,49(7):622-630
An analysis of contemporary motivation theories reveals implications for gifted and talented students. The expectancy‐value framework, intrinsic‐extrinsic motivation theories, goal orientations, self‐efficacy and other self‐perceptions, and attribution theory are described and discussed with respect to implications for the psychology and education of gifted and talented students. Illustrative empirical research on motivation and gifted students is presented, and a model of classroom motivation factors is provided as a practical structure within which to consider instructional practices with this population. © 2012 Wiley Periodicals, Inc. 相似文献
19.
Mathematical problem-solving profiles of students with mathematics disabilities with and without comorbid reading disabilities 总被引:3,自引:0,他引:3
The purpose of this study was to describe the mathematical problem-solving profiles of students with mathematics disabilities (MD) with and without comorbid reading disabilities (RD). The disability status of fourth-grade students was verified through testing (n = 18 MD; n = 22 MD + RD). Then a hierarchy of mathematics problem-solving tasks was administered. The results demonstrated large deficits for both groups; however, the differences between students with MD and those with MD + RD were mediated by the level of problem solving (arithmetic story problems vs. complex story problems vs. real-world problem solving) and by performance dimension (operations vs. problem solving). On arithmetic story problems, the differences between the disability subtypes were similar for operations and problem solving. By contrast, on complex story problems and real-world problem solving, the differences between the subtypes were larger for problem solving than for operations. 相似文献
20.
We adopted a trans-contextual model of motivation to examine the processes by which school students' perceived autonomy support (defined as students' perceptions that their teachers' support their autonomous or self-determined motivation) and autonomous forms of motivation (defined as motivation to act out of a sense of choice, ownership, and personal agency) toward mathematics activities in an educational context predict autonomous motivation and intentions toward mathematics homework, and actual mathematics homework behavior and attainment, as measured by homework grades, in an out-of-school context. A three-wave prospective study design was adopted. High-school students (N = 216) completed self-report measures of perceived autonomy support and autonomous forms of motivation toward mathematics activities in school in the first wave of data collection. One-week later, participants completed measures of autonomous forms of motivation, attitudes, subjective norms, perceived behavioral control, and intentions with respect to mathematics homework outside school. Students' self-reported homework behavior and homework grades from students' class teachers were collected 5-weeks later. A structural equation model supported model hypotheses. Perceived autonomy support and autonomous forms of motivation toward mathematics activities in school were related to autonomous forms of motivation toward mathematics homework outside of school. Autonomous forms of motivation toward mathematics homework predicted intentions to do mathematics homework mediated by attitudes, subjective norms and perceived behavioral control. Intentions predicted self-reported mathematics homework behavior and mathematics homework grades. Perceived autonomy support and autonomous forms of motivation toward mathematics in school had statistically significant indirect effects on mathematics homework intentions mediated by the motivational sequence of the model. Results provide preliminary support for the model and evidence that autonomous motivation toward mathematics activities in the classroom is linked with autonomous motivation, intention, behavior and actual attainment in mathematics homework outside of school. 相似文献