Student’s social interaction in inquiry-based science education: how experiences of flow can increase motivation and achievement

This research investigated how student social interactions within two approaches to an inquiry-based science curriculum could be related to student motivation and achievement outcomes. This qualitative case study consisted of two cases, Off-Campus and On-Campus, and used ethnographic techniques of participant observation. Research participants included eight eighth grade girls, aged 13–14 years old. Data sources included formal and informal participant interviews, participant journal reflections, curriculum artifacts including quizzes, worksheets, and student-generated research posters, digital video and audio recordings, photographs, and researcher field notes. Data were transcribed verbatim and coded, then collapsed into emergent themes using NVIVO 9. The results of this research illustrate how setting conditions that promote focused concentration and communicative interactions can be positively related to student motivation and achievement outcomes in inquiry-based science. Participants in the Off-Campus case experienced more frequent states of focused concentration and out performed their peers in the On-Campus case on 46 % of classroom assignments. Off-Campus participants also designed and implemented a more cognitively complex research project, provided more in-depth analyses of their research results, and expanded their perceptions of what it means to act like a scientist to a greater extent than participants in the On-Campus case. These results can be understood in relation to Flow Theory. Student interactions that promoted the criteria necessary for initiating flow, which included having clearly defined goals, receiving immediate feedback, and maintaining a balance between challenges and skills, fostered enhanced student motivation and achievement outcomes. Implications for science teaching and future research include shifting the current focus in inquiry-based science from a continuum that progresses from teacher-directed to open inquiry experiences to a continuum that also deliberately includes and promotes the necessary criteria for establishing flow. Attending to Flow Theory and incorporating student experiences with flow into inquiry-based science lessons will enhance student motivation and achievement outcomes in science and bolster the success of inquiry-based science.     

Impact of rapid reading skills training on reading rate and reading achievement among primary school students in China

Abstract

The current study examined the effects of a silent rapid reading skills training intervention on the reading rate and reading achievement of primary school students in China in order to determine the efficacy of the intervention and explore potential gender differences. A total of 108 Chinese primary school students were randomly assigned by the classroom to either an experimental (n = 54) or control (n = 54) condition. Students in the experimental group completed 12 sessions of rapid reading skills training designed to increase their ability to rapidly read Chinese text in silence. Students in the control group engaged in regular Chinese language curriculum for the same time period. After the three-week intervention period, students in the experimental group displayed significantly greater silent reading speed of Chinese characters (M?=?1331.26 characters per minute) compared to students in the control group (M?=?617.48 characters per minute; p?<?.001). Children in the intervention group also displayed a significantly greater effective reading rate (F = 87.11, p?<?.001, partial η²?=?0.46) at post-test compared to the control. Male students displayed greater increases in reading speed than female students. Neither intervention effect nor gender difference was evident for reading comprehension. Implications for educational interventions designed to increase silent reading speed among Chinese students are discussed.     

Comparing Two Inquiry Professional Development Interventions in Science on Primary Students’ Questioning and Other Inquiry Behaviours

Developing students’ skills to pose and respond to questions and actively engage in inquiry behaviours enables students to problem solve and critically engage with learning and society. The aim of this study was to analyse the impact of providing teachers with an intervention in inquiry pedagogy alongside inquiry science curriculum in comparison to an intervention in non-inquiry pedagogy alongside inquiry science curriculum on student questioning and other inquiry behaviours. Teacher participants in the comparison condition received training in four inquiry-based science units and in collaborative strategic reading. The experimental group, the community of inquiry (COI) condition, received training in facilitating a COI in addition to training in the same four inquiry-based science units. This study involved 227 students and 18 teachers in 9 primary schools across Brisbane, Australia. The teachers were randomly allocated by school to one of the two conditions. The study followed the students across years 6 and 7 and students’ discourse during small group activities was recorded, transcribed and coded for verbal inquiry behaviours. In the second year of the study, students in the COI condition demonstrated a significantly higher frequency of procedural and substantive higher-order thinking questions and other inquiry behaviours than those in the comparison condition. Implementing a COI within an inquiry science curriculum develops students’ questioning and science inquiry behaviours and allows teachers to foster inquiry skills predicated by the Australian Science Curriculum. Provision of inquiry science curriculum resources alone is not sufficient to promote the questioning and other verbal inquiry behaviours predicated by the Australian Science Curriculum.     

Teacher Evaluation in an Era of Educational Change

Teachers can help minority children close the academic achievement gap in intermediate and middle school by combining literacy instruction and content-area material. This connection improves reading achievement and increases curriculum knowledge, even if students have previously experienced difficulty with primary school reading. Fortunately, upper-elementary and middle-level learners are still naturally curious, are developing cognitively, and have acquired some basic reading skills. Teachers can therefore extend students' previous learning by using a spiral curriculum, in which curricular concepts are introduced at an appropriate level and then revisited at more challenging levels. Teachers can also increase the academic complexity for students by using strategies that include picture books, word recognition skills, intensive subject matter, vocabulary in a meaningful context, Readers Theater, and after-school activities.     

Kindergarten children's growth trajectories in reading and mathematics: who falls increasingly behind?

The authors used a large sample of children (N ≈ 7,400) participating in the Early Childhood Longitudinal Study--Kindergarten Cohort (ECLS-K) to estimate kindergarten children's academic achievement growth trajectories in reading and mathematics. The authors were particularly interested in whether the growth trajectories of children with learning disabilities (LD) or speech language impairments (SLI)--as well as those of other groups of children--were consistent with a cumulative or compensatory developmental cycle. Both LD and SLI children displayed significantly lower levels of kindergarten reading achievement than nondisabled children. However, and over the subsequent 5 years of elementary school, only children with SLI lagged increasingly behind nondisabled peers in their reading skills growth. The authors observed a different pattern for mathematics achievement. Children with LD, but not SLI, lagged increasingly behind nondisabled children in their mathematics skills growth. The authors also observed some consistency in "poor-get-poorer" effects across reading and mathematic achievement for additional population subgroups. Those kindergarten children who were from lower socioeconomic status families, who were African American, and who more frequently displayed learning-related behavior problems initially had lower levels of reading and mathematics achievement and also lagged increasingly behind in their acquisition of these skills over time. Some groups of children, including those with SLI, experience a cumulative rather than a compensatory cycle of achievement growth.     

Implications of a Cognitive Science Model Integrating Literacy in Science on Achievement in Science and Reading: Direct Effects in Grades 3–5 with Transfer to Grades 6–7

Reported are the results of a multiyear study in which reading comprehension and writing were integrated within an in-depth science instructional model (Science IDEAS) in daily 1.5 to 2 h daily lessons on a schoolwide basis in grades 3–4–5. Multilevel (HLM7) achievement findings showed the experimental intervention resulted in significant and consistent direct effects in grades 3–4–5 and complementary transfer effects in grades 6–7 on both ITBS Science (+1.08 Grade Equivalent Units [GE]) and ITBS Reading (+.57 GE). Discussed are implications of the findings and related research for changing grade K-5 curriculum policy to allocate increased instructional time for integrated science instruction.     

基于核心素养的中学英语文学阅读课程实践与思考

《中国学生发展核心素养》提出"全面发展的人"的培养目标,学科教师要在课程实施中落实学生核心素养的发展。基于核心素养的中学英语文学阅读教学实践从语言学习、认知发展、社会生活三方面促进学生的发展。在语言学习目标层面,学生在准确理解故事文本基础上,通过准确拼读、流利朗读、正确复述、互动讨论、创新表演、创意写作等系列活动,提高语言理解、赏析和创意表达能力;在认知发展层面,学生在语言交流活动中培养思维的逻辑性、批判性和创新性,掌握语言知识学习策略,提升分析和解决问题能力、元认知能力;在社会生活层面,学生通过一系列阅读、思考和创作分享活动,形成正确的人生观、价值观,培养自尊、自信、自强的良好品格,学会做人、做事,提高文明素养和社会责任感。     

Developing Seventh Grade Students’ Understanding of Complex Environmental Problems with Systems Tools and Representations: a Quasi-experimental Study

A systems-based classroom intervention on environmental education was designed for seventh grade students; the results were evaluated to see its impact on the development of systems thinking skills and standard science achievement and whether the systems approach is a more effective way to teach environmental issues that are dynamic and complex. A quasi-experimental methodology was used to compare performances of the participants in various dimensions, including systems thinking skills, competence in dynamic environmental problem solving and success in science achievement tests. The same pre-, post- and delayed tests were used with both the comparison and experimental groups in the same public middle school in Istanbul. Classroom activities designed for the comparison group (N = 20) followed the directives of the Science and Technology Curriculum, while the experimental group (N = 22) covered the same subject matter through activities benefiting from systems tools and representations such as behaviour over time graphs, causal loop diagrams, stock-flow structures and hands-on dynamic modelling. After a one-month systems-based instruction, the experimental group demonstrated significantly better systems thinking and dynamic environmental problem solving skills. Achievement in dynamic problem solving was found to be relatively stable over time. However, standard science achievement did not improve at all. This paper focuses on the quantitative analysis of the results, the weaknesses of the curriculum and educational implications.     

Science Process Skills and Cognitive Preference Styles

The study examined the differences in cognitive styles between two comparable groups of students at the Grade 9 (Secondary 3) level, namely the LSS (Lower Secondary Science) group who had been exposed to the practical-based, inquiry-oriented type of science and the non-LSS group of students who had studied the more traditional type of science in the “old” science curriculum. Their differences in science achievement are measured by the common IEA Science Paper-Pencil, Multiple Choice Criterion Test and also, by the Science Process or Practical Test (which measured three levels of process skills, such as the observation/manipulation, reasoning and investigation skills). Variance in science achievement thus measured is examined against the 4 cognitive preference styles of the students, (measured by the Combined Cognitive Preference Inventory) namely the “recall”, “principles”, “applications” and “questioning” modes of thinking. The findings indicated that (a) the attainment of the science process or practical skills was characterised by the type of science curriculum (LSS or non-LSS) and it was significantly associated with the achievement level of students, (b) the cognitive preference pattern covaried according to the students' level of science achievement and the type of curriculum and (c) the weak but significant relationship between performance in the science practical skills and the students' modes of cognitive style have important implications for teachers who are concerned about the intended effects of changes in the science curriculum on the consequent learning behaviour or cognitive outcome of their students.     

The relationship between reading achievement and morphological word analysis in deaf and hearing students matched for reading level

This study extends the findings of Gaustad, Kelly, Payne, and Lylak (2002), which showed that deaf college students and hearing middle school students appeared to have approximately the same morphological knowledge and word segmentation skills. Because the average grade level reading abilities for the two groups of students were also similar, those research findings suggested that deaf students' morphological development was progressing as might be expected relative to reading level. This study further examined the specific relationship between morphologically based word identification skills and reading achievement levels, as well as differences in the error patterns of deaf and hearing readers. Comparison of performance between pairs of deaf college students and hearing middle school students matched for reading achievement level shows significant superiority of younger hearing participants for skills relating especially to the meaning of derivational morphemes and roots, and the segmentation of words containing multiple types of morphemes. Group subtest comparisons and item analysis comparisons of specific morpheme knowledge and word segmentation show clear differences in the morphographic skills of hearing middle school readers over deaf college students, even though they were matched and appear to read at the same grade levels, as measured by standardized tests.     

Using Formal Embedded Formative Assessments Aligned with a Short-Term Learning Progression to Promote Conceptual Change and Achievement in Science

This study examined the effect of learning progression-aligned formal embedded formative assessment on conceptual change and achievement in middle-school science. Fifty-two sixth graders were randomly assigned to either an experimental group or a control group. Both groups were taught about sinking and floating by the same teacher with identical curriculum materials and activities. The experimental group received, in addition, three sets of formal embedded formative assessments with qualitative feedback as to how to improve their understandings aligned with an expected learning progression during instruction. The control group spent the corresponding time between new curriculum activities conducting curriculum-specific extension activities. Overall, the experimental group experienced on average greater conceptual change than the control group. The experimental group also scored higher on average than the control group on general achievement tests, especially the performance assessment. This study supported the contention, then, that embedding formal formative assessments within a curricular sequence built around an expected learning progression is a useful way to promote conceptual change along that learning progression in science classrooms.     

A review of teacher development reforms in Indonesian secondary science: The effectiveness of practical work in biology

Science teaching in Indonesia has undergone major reforms since independence. This paper examines the role of practical activities in secondary science from an international perspective and contrasts this with a developing country perspective. In examining major curriculum and teacher training reforms in Indonesia, continuing influences on science education from industrialised countries are acknowledged; however, nlike many other developing countries, Indonesia has essentially implemented curriculum and teacher training reforms using a pool of overseas trained senior teachers and locally trained personnel. A number of research studies on biology practical work in Indonesia suggest that practical activities in biology are more effective in enhancing student cognitive achievement, science process skills and problem solving abilities than traditional didactic classroom approaches.     

The effect of an instructional intervention on middle school english learners' science and english reading achievement

This study examined the effect of a quasi‐experimental project on fifth grade English learners' achievement in state‐mandated standards‐based science and English reading assessment. A total of 166 treatment students and 80 comparison students from four randomized intermediate schools participated in the current project. The intervention consisted of on‐going professional development and specific instructional science lessons with inquiry‐based learning, direct and explicit vocabulary instruction, integration of reading and writing, and enrichment components including integration of technology, take‐home science activities, and university scientists mentoring. Results suggested a significant and positive intervention effect in favor of the treatment students as reflected in higher performance in district‐wide curriculum‐based tests of science and reading and standardized tests of oral reading fluency. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 987–1011, 2012     

Enhancing student access to science curricula through a reading intervention

The current study explored whether a reading intervention combining flexibly applied multisyllabic word‐decoding strategies with evidence‐based fluency strategies was effective in improving the science text reading skills of upper‐elementary struggling readers. Four students, three in fourth and one in fifth grade, participated in the study. A delayed multiple baseline design was utilized, with a staggered 3‐week baseline followed by 8 weeks of reading intervention. Three students demonstrated small to moderate gains in reading fluency on science instructional passages, but no generalized gains in reading fluency on standardized passages. All students demonstrated direct gains in multisyllabic word‐decoding accuracy on science instructional passages, but no generalized gains in decoding accuracy on standardized passages. Participating students rated the intervention favorably and perceived gains in their reading skills. These findings support the use of science curricular passages when implementing reading interventions to enhance students’ ability to access the curriculum.     

Curriculum bias and reading achievement test performance

The overlap of words specifically taught in reading textbooks with the contents of standardized reading achievement tests may be a source of bias that is frequently overlooked in psychoeducational assessments. This study compares the standardized achievement test performance of 62 second graders receiving instruction in two different reading curricula (Open Court and Houghton-Mifflin) to determine whether either curriculum generates different quantitative estimates of reading achievement. Reading subtest scores derived from the Kaufman Test of Educational Achievement-Brief Form (K-TEA), the Wide Range Achievement Test-Revised (WRAT-R), and the Reading Recognition and Reading Comprehension subtests from the Peabody Individual Achievement Test (PIAT) were examined. Grade level equivalents and scaled scores from the California Achievement Test (CAT) were also examined. Three Curriculum × Test repeated measures ANOVAs were conducted using grade level scores (2×7), standard scores (2×4), and CAT scaled scores (2 × 5) as dependent measures. A significant Curriculum × Test interaction was identified, suggesting differences among tests in estimates of reading ability as a function of the reading program.     

Equalization of the Burden of Capital Outlay in a State’s Minimum Educational Program

ABSTRACT

The author aimed to investigate the variability in science achievement as a function of student-, school- and country-level factors. Achievement scores of 134,123 eighth-grade students from 4,511 schools of 29 countries who participated in the 2007 Trends in International Mathematics and Science Study were analyzed. Multilevel modeling results showed that science achievement was driven largely by student-level factors. Students scored higher when they had more self-confidence in learning science, came from home with a higher level of family background, were boys, spent less time on nonacademic activities, and did job at home. Schools averaged higher when they had positive school climate, were located in urban areas, and there was no problem with attendance at school and shortages in resources for science instruction.     

An analysis of frequency of hands-on experience and science achievement

A variance analysis of the relation between the amount of time students spent experiencing hands-on science and science achievement was performed. Data collected by the National Education Longitudinal Study of 1988 on a nationally representative sample of eighth-grade students were analyzed. Student achievement in science was measured by a cognitive test battery developed by the Educational Testing Service. Information regarding the frequency of hands-on experience was collected through a self-administered teacher questionnaire, which included a series of questions specific to the science curriculum. From the analysis it was concluded that significant differences existed across the hands-on frequency variable with respect to science achievement. Specifically, students who engaged in hands-on activities every day or once a week scored significantly higher on a standardized test of science achievement than students who engaged in hands-on activities once a month, less than once a month, or never. © 1996 John Wiley & Sons, Inc.     

Curriculum strategy framework: investigating patterns in teachers’ use of a reform‐based elementary mathematics curriculum

The goal of this paper is to introduce the curriculum strategy framework as a way to characterize teachers’ interactions with curriculum materials. The framework focuses on three key interpretive activities: reading, evaluating, and adapting curriculum materials. Describing an individual teacher’s curriculum strategy involves identifying the manner in which a teacher engages with each of these activities before, during, and after instruction. This paper presents the results of a study in which the framework was used to identify patterns in the curriculum strategies of 10 elementary‐school teachers who were using a reform‐based mathematics curriculum for the first time. It concludes with directions for further research using the curriculum strategy framework, and implications of this work for curriculum designers.     

Computerised formative assessment of reading comprehension: field trials in the UK

Increased curriculum time allocated to reading might not be effective in raising achievement. Teachers need to closely monitor and manage both the quality and quantity of individualised reading of all their pupils for optimal effectiveness. ‘Learning information systems’ (LIS) for reading such as the ‘Accelerated Reader’ (AR) enable this through individualised computerised assessment of pupil comprehension of ‘real books’, with feedback to both pupil and teacher. This study explored the impact of AR on reading achievement in 13 schools of different types spread across the UK, the majority socio‐economically disadvantaged. Participating pupils were aged 7–14 years. Pre‐post norm‐referenced gains in reading achievement were measured by group paper‐reading tests and a computer‐based adaptive reading test. The implementation integrity of AR was assessed by direct observation by researchers and through data generated by the programme itself. On both paper and computer‐based reading tests, on aggregate pupils in the 13 schools gained in reading at abnormally high and statistically significant rates. Boys tended to show larger gains than girls on the paper test. However, implementation integrity was very variable. In particular, some teachers failed to intervene in response to AR data indicating that pupils were reading ineffectively. AR appears to have potential for raising reading achievement, but only if implemented appropriately.     

Teacher Qualifications and School District Quality

Abstract

The WISC subtest patterns of 87 fourth-grade males were analyzed to determine the relationship between the patterns and reading achievement and social-class. All social-class effects and interactions involving social-class were nonsignificant, Scores on three Verbal Scale subtests (Arithmetic, Similarities, and Digit Span) and one Performance Scale subtest (Picture Completion) were found to be significantly related to reading achievement.