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Student Questionnaires (student + questionnaire)

Distribution by Scientific Domains
Education75%

Selected Abstracts

PISA 2006: An assessment of scientific literacy

JOURNAL OF RESEARCH IN SCIENCE TEACHING, Issue 8 2009
Rodger Bybee
Abstract This article introduces the essential features of the science component of 2006 Program for International Student Assessment (PISA). Administered every 3 years, PISA alternates emphasis on Reading, Mathematics, and Science Literacy. In 2006, PISA emphasized science. This article discusses PISA's definition of scientific literacy, the three competencies that constitute scientific literacy, the contexts used for assessment units and items, the role of scientific knowledge, and the importance placed on attitude toward science. PISA 2006 included a student test, a student questionnaire, and a questionnaire for school administrators. The student test employed a balanced incomplete block design involving thirteen 30-minute clusters of items, including nine science clusters. The 13 clusters were arranged into thirteen 2-hour booklets and each sampled student was assigned one booklet at random. Mean literacy scores are presented for all participating countries, and the percentages of OECD students at the six levels of proficiency are given for the combined scale and for the competency scales. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 46: 865,883, 2009 [source]

Teachers respond functionally to student gender differences in a technology course

JOURNAL OF RESEARCH IN SCIENCE TEACHING, Issue 3 2008
Martha M. Voyles
Abstract This study examines teacher,student interactions and selected student gender differences with volunteer boys and recruited girls in a technology class. The participants were teachers and triads of girls and boys in single-gender sections of a technology course where the students built, designed features for, and programmed Lego robots. We analyzed transcripts of videotapes of instruction; teacher, parent, and student interviews; student questionnaires; and final programs. Girls and boys differed in a number of ways, and teachers explained their differing interactions with boys and girls as functional responses to those differences. At the end of the course, volunteer boys and recruited girls did not differ in achievement or interest in the course. © 2008 Wiley Periodicals, Inc. J Res Sci Teach 45: 322,345, 2008 [source]

Development of Mathematics Interest in Adolescence: Influences of Gender, Family, and School Context

JOURNAL OF RESEARCH ON ADOLESCENCE, Issue 2 2010
Anne C. Frenzel
This study investigated adolescents' developmental trajectories of mathematics interest and explored related effects of gender, family, and school context. Latent growth curve modeling was used to analyze longitudinal data of N=3,193 students (51% female) from grades 5 to 9 from all 3 ability tracks of the German state school system. Annual assessments involved student questionnaires on interest in mathematics, perceptions of classroom characteristics (classroom values for mathematics, mathematics teacher enthusiasm), as well as parent questionnaires regarding family values for mathematics. Results indicated a downward trend of students' mathematics interest that plateaued in later years, with high variability in mean levels, but little variability in the shape of the growth trajectories. Boys reported higher mathematics interest than girls, but similar downward growth trajectories. Students from the lowest ability track showed more favorable interest trajectories than students from the middle and highest tracks. Family values and classroom characteristics were positively related to within-person levels of interest over time and to average individual levels of interest, but not to growth parameters. Theoretical and practical implications are discussed. [source]

Aligning learning, teaching and assessment using the web: an evaluation of pedagogic approaches

BRITISH JOURNAL OF EDUCATIONAL TECHNOLOGY, Issue 2 2002
Richard Hall
Biggs has argued that teaching is most effective when it supports those activities appropriate to understanding the curriculum objectives. This paper uses Biggs' argument to analyse how a UK higher education initiative, the Chic project, has promoted learning and teaching innovation that supports collaborative, inclusive learning by integrating on-line and face-to-face delivery. Methods by which assessments, teaching processes and learning objectives can be aligned are discussed. The author identifies two project approaches to the utilisation of on-line materials within curriculum design. Staff and student questionnaires and interviews are evaluated in order to assess whether these processes promote a reflexive approach to learning. Such reflexivity depends upon stimulating the learner's emotional involvement and active engagement in undertaking achievable tasks. The paper argues that an integrated approach to on-line learning and teaching can be used to promote students' critical use, understanding and application of materials. Moreover, it is argued that this can be liberating for staff and students as long as there is a shared vision and experience upon which to act. Promoting motivation within a supportive and meaningful context is fundamental. [source]