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1.
Learning environment, attitudes and conceptual development associated with innovative strategies in middle-school mathematics 总被引:1,自引:2,他引:1
This study of middle-school students in California focused on the effectiveness of using innovative teaching strategies for
enhancing the classroom environment, students’ attitudes and conceptual development. A sample of 661 students from 22 classrooms
in four inner city schools completed modified forms of the Constructivist Learning Environment Survey (CLES), What Is Happening
In this Class? (WIHIC) questionnaire and Test of Mathematics Related Attitudes (TOMRA). Data analyses supported the factor
structure, internal consistency reliability, discriminant validity and the ability to distinguish between different classes
for these questionnaires when used with middle-school mathematics students in California. The effectiveness of the innovative
instructional strategy was evaluated in terms of classroom environment and attitudes to mathematics for the whole sample,
as well as for mathematics achievement for a subgroup of 101 students. A comparison of an experimental group which experienced
the innovative strategy with a control group supported the efficacy of the innovative teaching methods in terms of learning
environment, attitudes and mathematics concept development. Also associations were found between perceptions of classroom
learning environment and students’ attitudes to mathematics and conceptual development. 相似文献
2.
Validity and Reliability of a Shortened,Revised Version of the Constructivist Learning Environment Survey (CLES) 总被引:1,自引:1,他引:1
The purpose of the study was to investigate the use of an existing instrument, the Constructivist Learning Environment Survey (CLES)(Taylor, Dawson & Fraser, 1995; Taylor, Fraser & Fisher, 1993, 1997), for providing insights into the classroom learning environments of beginning science teachers. In the first year of the study, the CLES was used with 290 upper elementary, middle, and high school science teachers and preservice teachers. As part of a larger study of the classroom environments and teaching practices of beginning science teachers, data also were gathered through classroom observations of and interviews with some of the participating teachers. Exploratory factor analysis and internal consistency reliability analysis, as well as examination of each item and of participants' questions and comments about them, led to a shortened, revised version of the CLES, named the CLES 2(20). The five original scales were retained, but the number of items in each scale was reduced from six to four. The single negatively worded item was eliminated. Some of the original items were rephrased. The revised CLES was then used in the second, third and fourth years of the study. Examples of feedback based on CLES data is provided to researchers to assist them in writing teacher profiles. 相似文献
3.
Relationships between perceived levels of classroom individualization and science-related attitudes were explored for a sample of 712 junior high school science students. Five dimensions of perceived individualization (personalization, participation, independence, investigation, and differentiation) were measured with the Individualized Classroom Environment Questionnaire (ICEQ), while seven distinct attitudes were measured with the Test of Science-Related Attitudes (TOSRA). Hierarchical regression analyses revealed that the set of individualization variables accounted for a significant increment in end-of-year attitude scores, beyond that attributable to corresponding beginning-of-year attitude scores, for four of the seven attitudes considered. Significant associations between an individual individualization variable and an attitudinal dimension were positive in all cases. The study also provided support for the reliability and validity of the ICEQ and TOSRA and for their general usefulness in science education research. 相似文献
4.
At many teacher education institutes around the world, preservice teachers are empowered to use pedagogical tools and strategies that engage their students. We used a modified version of the Constructivist Learning Environment Survey (CLES) to evaluate the effectiveness of a pedagogical model known as the Mixed Mode Delivery (MMD) model in terms of the CLES’s five scales of personal relevance, uncertainty, critical voice, shared control and negotiation. Comparisons were made between 2,216 secondary school students taught by the preservice teachers in an MMD group and 991 students in a control group in terms of the relative magnitudes of the gap between the actual and preferred learning environment in students’ school classrooms. The findings supported the positive impact of using MMD in terms of students’ perceptions of their classroom environments for all CLES scales. 相似文献
5.
ERNEST AFARI JILL M. ALDRIDGE BARRY J. FRASER 《International Journal of Science and Mathematics Education》2012,10(6):1369-1392
The primary focus of this study was to investigate the effectiveness of games when used in tertiary-level mathematics classes in the United Arab Emirates. Our study incorporated a mixed-method approach that involved surveys (to assess students?? perceptions of the learning environment and attitudes towards mathematics), interviews, observations of classes and narrative stories. A sample of 90 students from 3 tertiary-level institutions in Abu Dhabi participated in the study. In-depth qualitative data provided information about the introduction and use of games in mathematics. A narrative, based on classroom observations of students playing Jeopardy!-type mathematics games, provided insights into games in action in the classrooms. The data were analysed to examine students?? interactions during the games and to triangulate, clarify and explain students?? responses to the learning environment and attitude questionnaires. To examine pre?Cpost differences in students perceptions of the learning environment and their attitudes, 2 questionnaires were administered to students before and after the introduction of games. Pre?Cpost differences for 3 of the 6 learning environment scales (Teacher Support, Involvement, Personal Relevance) and both attitude scales (Enjoyment of Mathematics Lessons and Academic Efficacy scales) were statistically significant. Information obtained from interviews with students and teachers were used to explain the pre?Cpost differences. 相似文献
6.
EMILOV ILIYA TAFROVA-GRIGOROVA ADRIANA 《International Journal of Science and Mathematics Education》2014,14(1):107-123
This study is part of a cross-national research entitled In the past and now: Constructivist practices in teaching chemistry—Bulgaria, the Balkans and Europe. The purpose of the research is to explore science secondary classroom environments in terms of the constructivist approach. The study has been carried out at international schools and state schools in Albania, Kosovo, Romania and Turkey. The data collection methods were three surveys: the What Is Happening In This Class? (WIHIC), the Constructivist Learning Environment Survey (CLES) and the Test of Science-Related Attitudes (TOSRA). The questionnaires were given to 747 secondary school students. The results show that in the majority of the surveyed classrooms, a blended traditional-constructivist type of environment is present. The highest scores for all three questionnaires were given by students of the international school in Kosovo. The traditional and test-oriented teaching in the Turkish schools surveyed explains the low degree of satisfaction and enjoyment of science lessons among Turkish students.
相似文献7.
ILIYA EMILOV ADRIANA TAFROVA-GRIGOROVA 《International Journal of Science and Mathematics Education》2016,14(1):107-123
This study is part of a cross-national research entitled In the past and now: Constructivist practices in teaching chemistry—Bulgaria, the Balkans and Europe. The purpose of the research is to explore science secondary classroom environments in terms of the constructivist approach. The study has been carried out at international schools and state schools in Albania, Kosovo, Romania and Turkey. The data collection methods were three surveys: the What Is Happening In This Class? (WIHIC), the Constructivist Learning Environment Survey (CLES) and the Test of Science-Related Attitudes (TOSRA). The questionnaires were given to 747 secondary school students. The results show that in the majority of the surveyed classrooms, a blended traditional-constructivist type of environment is present. The highest scores for all three questionnaires were given by students of the international school in Kosovo. The traditional and test-oriented teaching in the Turkish schools surveyed explains the low degree of satisfaction and enjoyment of science lessons among Turkish students. 相似文献
8.
Tock Keng Lim 《教育心理学》1995,15(2):161-169
Assessment of students’ perceptions of classroom environment and their learning styles provided a framework within which to study factors related to perceptions of students in learning. Two instruments, the Individualized Classroom Environment Questionnaire (ICEQ) and the Learning Style Inventory 1985 (LSI), were administered in Singapore to a stratified random sample of 1733 Secondary 4 students (equivalent to Grade 10) from nine secondary schools (good, average and below average schools). The study showed that school type (the category of schools that the students come from), had the most influence on the students’ perceptions of both actual and preferred classroom environment. Gender had an influence too, but mainly on perceptions of actual classroom environment. Learning styles of students had the least influence. 相似文献
9.
Angela Shaw 《Research in Science & Technological Education》2013,31(2):239-240
This paper describes an investigation in Korea of the extent to which a new general science curriculum, reflecting a constructivist view, has influenced the classroom learning environment in grade 10 science. The Constructivist Learning Environment Survey (CLES) was selected for the investigation and translated into Korean. Other objectives of this study were to determine whether the Korean version of the CLES is valid and reliable, differences between students’ perceptions of their actual and preferred learning environment and associations between students’ perceptions of the constructivist learning environment and their attitude to science. The Korean‐language version of the CLES was found to be valid and reliable and grade 10 students did perceive a more constructivist learning environment than grade 11 students who had not been exposed to the new curriculum. This suggested that efforts of curriculum reform had produced some positive effects. Students tended to prefer a more positive environment than what was perceived to be present and statistically significant relationships were found between classroom environment and student attitudes. These relationships suggest that favourable student attitudes could be promoted in classes where students perceive more personal relevance, share control with their teachers and negotiate their learning. 相似文献
10.
How the use of computers in mathematics classrooms was viewed by students in two middle years mathematics classrooms was the focus of the research described in this paper. The primary data sources consisted of questionnaires, classroom observations supported by videotaping of mathematics lessons, and interviews with two girls and two boys from each class. Thus both qualitative and quantitative methods were used. Girls viewed the computer-based lessons less favourably than did boys. In general, the boys were likely to believe that computers contributed to their experiencing pleasure in these lessons, and to making mathematics more relevant to them. Girls were typically more concerned about whether computers facilitated learning and enabled success in mathematics. The attitudes of students to computer-based mathematics were related to their views of computers. 相似文献
11.
Associations Between Classroom Environment and Academic Efficacy 总被引:1,自引:0,他引:1
Jeffrey P. Dorman 《Learning Environments Research》2001,4(3):243-257
Research was conducted on associations between classroom psychosocial environment and academic efficacy. A sample of 1055 mathematics students from Australian secondary schools responded to an instrument that assessed ten dimensions of mathematics classroom environment (viz. Student Cohesiveness, Teacher Support, Investigation, Task Orientation, Cooperation, Equity, Involvement, Personal Relevance, Shared Control, Student Negotiation). These scales were from two existing instruments, namely, What Is Happening In This Classroom? (WIHIC) and the Constructivist Learning Environment Survey (CLES). A seven-item scale assessed students' academic efficacy at mathematics-related tasks. Simple and multiple correlation analyses revealed statistically significant correlations between these classroom environment dimensions and academic efficacy. Results showed that classroom environment relates positively with academic efficacy. A commonality analysis showed that the three scales from the Constructivist Learning Environment Survey scales did not contribute greatly to explaining variance in academic efficacy beyond that attributed to the seven scales in the What Is Happening In This Classroom? questionnaire. 相似文献
12.
Sharon H. Harwell Shannon Gunter Sandra Montgomery Cheryl Shelton Deborah West 《Learning Environments Research》2001,4(3):259-286
This article describes initial results of a collaborative action research endeavor between a regional university and a local
school (Grade 6 level) using learning environments research to monitor alignment of classroom learning activities with a constructivist
viewpoint while integrating technology into the curriculum. Student perceptions as measured by the Constructivist Learning
Environment Survey (CLES) were explored. Teacher logs, teacher interviews, and fieldnotes from team discussion groups and
classroom observation provided further understanding of interactions in the classroom. A one-way analysis of variance in which
the set of four classroom learning environment variables for the CLES, the set of five variables for each of the CLES-Mathematics
and the CLES-Science and time of administration (prior to technology integration and after technology integration) yielded
no significant changes in student perceptions of the classroom learning environment over the duration of the academic year.
Interpretation of results led teachers to construct a new set of questions and a new plan of action to bring their classroom
learning environment into closer alignment with a constructivist perspective for teaching and learning.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
13.
Zuway‐R. Hong 《International Journal of Science Education》2013,35(15):1971-1988
This study investigated the effects of a collaborative science intervention on high achieving students’ learning anxiety and attitudes toward science. Thirty‐seven eighth‐grade high achieving students (16 boys and 21 girls) were selected as an experimental group who joined a 20‐week collaborative science intervention, which integrated and utilized an innovative teaching strategy. Fifty‐eight eighth‐grade high achieving students were selected as the comparison group. The Secondary School Student Questionnaire was conducted to measure all participants’ learning anxiety and attitudes toward science. In addition, 12 target students from the experimental group (i.e., six active and six passive students) were recruited for weekly classroom observations and follow‐up interviews during the intervention. Both quantitative and qualitative findings revealed that experimental group students experienced significant impact as seen through increased attitudes and decreased anxiety of learning science. Implications for practice and research are provided. 相似文献
14.
Research was conducted to determine if current reforms in calculus education are more inclusive of students of different genders, personalities, attributional beliefs, mathematical abilities, and computer attitudes. Two types of calculus reform are examined: a computer-assisted, student-centred and inductive reform based on the Calculus and Maple (C&M) package; and a teacher-only, teacher-centred and deductive reform. Both methods emphasise student participation in the learning and employ collaborative-learning groups mixed by ability and the assessed sociometric measures, but not mixed by gender. The classroom environments of the reform classes were assessed qualitatively using free-form surveys, interviews and classroom observations, and assessed quantitatively using the College and University Classroom Environment Inventory (CUCEI). The classroom environment of reform classes was compared qualitatively to the normal lecture environment. Students assessed the classroom environment as being significantly less favourable than preferred, confirming general dissatisfaction with socio-emotional aspects of university classes, even when adopting modern educational reforms. Differences in the actual and preferred classroom environments were observed in all class sub-divisions (i.e. gender, personality) and across all environment scales of the CUCEI. The research illustrates the psychosocial diversity of reforms for university classrooms and the desirability of evaluating such reforms using a learning environment inventory as well as conventional qualitative measures. 相似文献
15.
This study examined how instructional challenges presented by gifted students shaped teachers’ instructional strategies. This
study is a qualitative research grounded in a social constructivist framework. The participants were three high school science
teachers who were teaching identified gifted students in both heterogeneously- and homogeneously-grouped classrooms. Major
data sources are classroom observations and interviews. Data analysis indicated that these science teachers developed content-specific
teaching strategies based on their understanding of gifted students, including: (a) instructional differentiation, e.g., thematic
units, (b) variety in instructional mode and/or students’ products, (c) student grouping strategies and peer tutoring, (d)
individualized support, (e) strategies to manage challenging questions, (f) strategies to deal with the perfectionism, and
(g) psychologically safe classroom environments. 相似文献
16.
课堂环境与学习成果的关系一直是西方课堂环境研究的热点。本研究运用《中学英语课堂环境量表》作为测量工具,测量了高中生对英语课堂环境的感知与其英语学习态度和学习成绩之间的关系。研究结果表明:课堂环境是影响二语学习成果的主要因素之一,积极的课堂环境可以改善和提高学生的二语学习成果。课堂环境通过直接效应和中介效应共同影响二语学习成果,其中任务取向对二语学习成果的预测力最大。 相似文献
17.
Quek Choon Lang Angela F. L. Wong Barry J. Fraser 《Research in Science Education》2005,35(2-3):299-321
This study investigated the chemistry laboratory classroom environment, teacher–student interactions and student attitudes
towards chemistry among 497 gifted and non-gifted secondary-school students in Singapore. The data were collected using the
35-item Chemistry Laboratory Environment Inventory (CLEI), the 48-item Questionnaire on Teacher Interaction (QTI) and the
30-item Questionnaire on Chemistry-Related Attitudes (QOCRA). Results supported the validity and reliability of the CLEI and
QTI for this sample. Stream (gifted versus non-gifted) and gender differences were found in actual and preferred chemistry
laboratory classroom environments and teacher–student interactions. Some statistically significant associations of modest
magnitude were found between students' attitudes towards chemistry and both the laboratory classroom environment and the interpersonal
behaviour of chemistry teachers. Suggestions for improving chemistry laboratory classroom environments and the teacher–student
interactions for gifted students are provided. 相似文献
18.
Héctor H. Rivera Hersh C. Waxman 《Journal of Education for Students Placed at Risk》2013,18(3):185-200
This study examines resilient and nonresilient characteristics in mathematics among Hispanic students in a major metropolitan city located in the south central region of the United States. The study examined data from semistructure interviews of 118 resilient and nonresilient English language learners (ELLs) in 4th and 5th grade. The interviews focused on a variety of factors including: (a) individual attributes (e.g., students’ motivation); (b) school and classroom factors (e.g., satisfaction, involvement, and affiliation); (c) family factors (e.g., parent involvement in academics); and (d) students’ use of time (e.g., doing homework). Additional indicators that were examined include help-seeking behaviors and skills that allow students to cope with academic difficulties. Overall, the findings indicate significant differences between resilient and nonresilient students on academic performance and their self-efficacy on perceived mathematical abilities. Significant differences were also found in the home learning environment, indicating that resilient students receive more assistance at home on academic tasks than non-resilient students. 相似文献
19.
An investigation of relationships between students’ attitudes towards chemistry and their perceived laboratory environments was carried out using a sample of 1592 final year secondary school students in 56 chemistry classes in 28 randomly selected co‐educational government schools. This study is distinctive in that it marks the beginning of science classroom environment research in Singapore and because it pioneers the use of the Hierarchical Linear Model (HLM) in learning environment research. The Chemistry Laboratory Environment Inventory (CLEI), a modified version of the Science Laboratory Environment Inventory, was used to assess students’ perceptions of the learning environment in chemistry laboratory classes. Students’ chemistry‐related attitudes were assessed using the Questionnaire on Chemistry‐related Attitudes (QOCRA), which is based on the Test of Science‐related Attitudes. Environment‐attitude relationships were examined using conventional multiple regression analysis and the more rigorous HLM. Positive associations emerged between the nature of the chemistry laboratory classroom environment and the students’ attitudinal outcomes 相似文献
20.
Gillian U. Bayne 《Learning Environments Research》2012,15(2):231-250
This research is distinctive in that a mixed-methods approach, employing both cogenerative dialogues and student responses from the Constructivist Learning Environment Survey (CLES), was used to help to understand 9th grade urban students?? experiences in their biochemistry class in New York City. Factor analyses of student responses demonstrated that empirically there were four robust scales rather than five. Qualitative analyses, using cogenerative dialogues and informal interviewing, demonstrated that more adaptable forms of teaching, learning and assessing could support a variety of students. Shared with students, the contents of the CLES and cogenerative dialogues created opportunities for understanding ontologies and helped to create, access and appropriate resources that assist in bringing about success in the science classroom. 相似文献