Gender-related differences in reasoning skills and learning interests of junior high school students

The purpose of this study was to investigate gender-related differences in the relationship between the development of formal reasoning skills and learning interests during the early adolescent stage. For this purpose, 249 students, from seventh to ninth grade, were assessed for their level of mastery of formal reasoning skills by a test based on videotaped simple experiments. Learning interests were assessed by a written response to an open question. Results showed that adolescent boys develop patterns of formal reasoning before their girl classmates. In addition, boys tend to prefer science and technology subjects, while girls tend to prefer language, social studies, and humanities. Analysis of interactions showed that boys' tendency toward science and technology is positively correlated to their age and development of formal reasoning, while girls' tendency to the above subjects is positively related to their development of formal reasoning capacity, but inversely related to their age. Possible explanations to the above-described findings and suggestions for instructional modes that may increase girls' interest in science and technology are discussed.     

Pathways to reading,mathematics, and science: Examining domain-general correlates in young Chinese children

Early competencies in reading, mathematics, and science are associated with later school achievement and adulthood socioeconomic status. This cross-sectional study examined how fundamental domain-general capacities, including language, spatial, and self-regulatory skills, together relate to competencies in reading, mathematics, and science in young Chinese children. A total of 584 Chinese children aged approximately six years were tested individually on their language (receptive vocabulary), spatial (spatial perception, spatial visualization, and mental rotation), and self-regulation (behavioral regulation and working memory) skills, as well as their academic competencies in reading, mathematics, and science. The results showed that vocabulary, spatial, and self-regulatory skills were all associated with Chinese reading, mathematics, and life sciences, whereas only vocabulary was related to earth and physical sciences. The relation between vocabulary and formal mathematics and that between mental rotation and life sciences were found to be stronger in boys than in girls. The findings suggest that foundational domain-general skills may provide the building blocks for children’s academic competencies.     

From authoritative discourse to internally persuasive discourse: discursive evolution in teaching and learning the language of science

Learning science interpreted in existing theoretical frameworks often means that students are assimilated, accommodated or enculturated from the entity of the vernacular world to the entity of the scientific world. However, there are some unsolved questions as to how students can best learn purely a new language or new knowledge of science. The purpose of this study is to conduct microanalysis of moment-to-moment interactions in order to understand how science language is taught and learned in details. Informed by Bakhtin’s dialogism, the analysis indicates that learning science is a process of appropriating authoritative discourse into internally persuasive discourse. Based on our analysis and findings, we propose the framework of discursive evolution to describe the process of teaching and learning the language of science. Four different stages of discursive evolution are identified to demonstrate the discursive changes during the course of science teaching and learning discourse: (a) using deictic references to connect scientific terminologies, (b) understanding science terminologies through its derivatives, (c) communicating science practices conventionally through science terminologies, and (d) communicating science practices innovatively through mutated science terminologies. The findings suggest that science teaching and learning comprise a heterogeneous process which draws on both science and non-science language and is a constantly evolving process. Understanding teaching and learning as a heterogeneous and constantly evolving process allows us to reunite the roles of teachers and students as mutually responsible collaborators rather than science knowledge givers and consumers.     

Confidence in the Knowledge Base of English Language Learners Studying Science: Using Agency to Compensate for the Lack of Adequate Linguistic Identity

Changes in the cultural and linguistic environments of learners are often associated with identity shifts. The aim of this study was to explore what identity shifts occur when science students from Bahraini national schools transition to an international university. The role of two aspects of learner identity—that is, English proficiency and science background knowledge, was examined in this study. Focus groups and semi-structured interviews were conducted with students and with university lecturers. The analysis suggested three conceptual themes of (1) reliance on science knowledge, (2) the auxiliary role of professional language and (3) adequacy of student learning strategies, demonstrating what subjective meanings the participants ascribe to the interplay between science knowledge and linguistic ability. The findings suggest that despite the lack of adequate linguistic attributes, the students are still able to successfully learn science in the context of language change. It is also implied that through strategically utilising their academic background in science, students preserve their identity as successful learners from school through to university. We conclude that agency plays a separate role in transition and is not a sole function of identity. We also contest the idea of language as a necessary attribute of one’s identity as it was perceived by our participants to be an advantage and an auxiliary tool rather than a requirement.     

Is it dichotomy or tension: I am a scientist. No, wait! I am a teacher!

This study explores through a naturalistic inquiry the tensions between a science professor’s two enacted identities. More specifically, this study looks at how a biology professor’s identity-in-practice shifts and evolves over time through collaborations with a science education professor. These shifts were marked by an emphasis on teaching, rather than solely a focus on science. Data were collected through formal interviews and notes taken during planning sessions that took place between the biology professor and the science educator. Findings reveal that although the biology professor is able to reconcile both his science and teacher identity, structural elements of his workplace do not encourage him to enact his teacher identity. Recommendations for college science teaching are discussed.     

Model construction as a learning activity: a design space and review

Modeling is becoming increasingly important both as a way to learn science and mathematics, and as a useful cognitive skill. Although many learning activities qualify as “modeling”, this article focuses on activities where (1) students construct a model rather than explore a given model, (2) the model is expressed in a formal language rather than drawings, physical objects or natural language texts and (3) the model's predictions are generated by executing it on a computer. Most research on such learning activities has focused on getting students to successfully construct models, which they find very difficult to do. In the hope that new research can find ways to remove this bottleneck, this article attempts to list all the major ideas that have appeared in the literature and might be useful to those developing new learning activities involving model construction. The ideas are organized into a design space with five dimensions: (1) modeling language types, (2) ways for describing the systems that students should model, (3) instructional objectives and their corresponding assessments, (4) common student difficulties and (5) types of scaffolding.     

Applying critical thinking to college EFL teaching

In college EFL teaching, critical thinking has long been regarded as an advanced stage and skill of thinking. However,most Chinese EFL instructors stress language skills rather than critical thinking in class. this article mainly explores the strategies of applying critical thinking in college EFL teaching.     

Logical language,natural strategies and the teaching of science

The role of formal logic in the development and investigation of science education is analysed. Firstly, the way in which teachers use language, logical and otherwise, is described and the necessary use of logical relations in the learning of abstract concepts and ideas is investigated. The conclusions drawn from the literature indicate that learners have great difficulty in comprehending the normal logic implied in ordinary words such as ‘because’ and ‘therefore’, and that the more difficult the context, the more likely it is that even the most common logical argument will be misunderstood. Less common logical words may be misunderstood by a majority of typical pupils in science lessons.

Secondly, the development of efficient cognitive processes in the context of science curricula is investigated. The conclusion drawn from literature describing experiments (rather than suggestions based more in philosophy) suggests strongly that formal logics probably have little to offer science educators. It is argued that until science teaching starts to base itself more on ‘natural strategies’, in much the same way as it is now looking seriously at ‘alternative frameworks’ as the basis for concept development, process development in science teaching will not seriously affect the ability of most pupils to solve either scientific or everyday problems more efficiently.     

The Man – Environment System Approach

ABSTRACT:

This paper synthesizes what the empirical literature reports regarding what can best be learned outdoors. The review suggests that the outdoors may be effective in stimulating critical thinking, increasing problem-solving skills, and developing concepts rather than rote memory. Little evidence was found to support claims for the superiority of teaching language development in the outdoors. The empirical literature offers qualified support to those who advocate the value of outdoor education in facilitating cognitive development in the areas of environmental education and general science, but the evidence must be regarded as tenuous and uncertain. Much of the research which has been reported falls short of the scientific standards necessary for it to make meaningful contributions to this debate.     

Purposes and Procedures for Assessing Science Process Skills

Science process skills are inseparable in practice from the conceptual understanding that is involved in learning and applying science. Nevertheless, it is useful to identify and discuss the skills which can apply to different subject-matter because of their central role in learning with understanding, whether in formal education or throughout life. That role is also the reason for the importance of assessing the development of science process skills. This paper argues that it is a content-dominated view of science education rather than the technical difficulties that has inhibited the development of effective procedures for assessing process skills to date. The discussion focuses on approaches to process skill assessment for three purposes, formative, summative and national and international monitoring. In all cases the assessment of skills is influenced not only by the ability to use the skill but also by knowledge of and familiarity with the subject-matter with which the skills are used. Thus what is assessed in any particular situation is a combination of skills and knowledge and various steps have to be taken if these are to be separated.     

The Missing Curriculum in Physics Problem-Solving Education

Physics is often seen as an excellent introduction to science because it allows students to learn not only the laws governing the world around them, but also, through the problems students solve, a way of thinking which is conducive to solving problems outside of physics and even outside of science. In this article, we contest this latter idea and argue that in physics classes, students do not learn widely applicable problem-solving skills because physics education almost exclusively requires students to solve well-defined problems rather than the less-defined problems which better model problem solving outside of a formal class. Using personal, constructed, and the historical accounts of Schrödinger’s development of the wave equation and Feynman’s development of path integrals, we argue that what is missing in problem-solving education is practice in identifying gaps in knowledge and in framing these knowledge gaps as questions of the kind answerable using techniques students have learned. We discuss why these elements are typically not taught as part of the problem-solving curriculum and end with suggestions on how to incorporate these missing elements into physics classes.     

Community leaders' views of the purposes of science in the compulsory years of schooling

Accepting that scientific literacy is the primary purpose of science in the compulsory years of schooling leads to the question ‘What does scientific literacy mean in a particular community?’ This paper reports a study designed to provide some insight into that question. Data were gathered through interviews with a sample of community leaders, in the state of Victoria, Australia, about their views of the purposes of school science.

The data reveal that, although most of those interviewed had no formal post‐school science education, their life experiences provided them with useful insights into the question raised. The wisdom of such people could make an important contribution during the initial stages of curriculum development in science.

As people successful in their own fields, the study participants were lifelong learners. Consequently, their responses suggest that a primary focus of school science must be to provide students with a framework that will enable them to continue learning beyond schooling. This is not just a matter of knowledge or skills, but of feeling comfortable with science.

The methods used provide a useful example of how views about education can be gathered from thoughtful, non‐expert community members. In this instance, they allowed a reconceptualization of the purposes of school science. These community leaders argued for an education for ‘science in life’ rather than an education about science.     

Early Child Language Mediates the Relation Between Home Environment and School Readiness

Home environment quality is a well-known predictor of school readiness (SR), although the underlying processes are little known. This study tested two hypotheses: (a) child language mediates the association between home characteristics (socioeconomic status and exposure to reading) and SR, and (b) genetic factors partly explain the association between language and SR. Data were collected between 6 and 63 months in a large sample of twins. Results showed that home characteristics had direct effects on SR and indirect effects through child language. No genetic correlation was found between language and SR. These results suggest that home characteristics affect SR in part through their effect on early language skills, and show that this process is mainly environmental rather than genetic in nature.     

Teaching Refugee Learners with Interrupted Education in Science: Vocabulary,literacy and pedagogy

With the globalisation of education, large numbers of students with interrupted schooling and low English literacy levels represent both a quantitative and qualitative shift in the kinds of students faced by teachers in classrooms. In Australia, after a year in an intensive English language programme, immigrant and refugee students are placed in the mainstream, where they face enormous challenges in content areas such as science. The complexity and specificity of science terminology pose a serious barrier for students. This article reports on a research project to support vocabulary learning in mainstream science for Year 8 refugee students (n = 23) in one high school. Data sources included teacher interviews, student journal writing, and the science text itself. The author demonstrates why science content language is inaccessible to many students through an extensive review of the literature, and then juxtaposes the views of students and teachers with the actual demands of one chapter from the Year 8 Science textbook on states of matter. The final section presents the response of the researchers to help scaffold vocabulary learning for this topic and a trial of the materials. The study highlights the links between conceptual and linguistic understanding. Given that students identified vocabulary as a major barrier to learning, and that the science teacher tended to assume rather than to explain new terminology, the language‐focused approach outlined to support vocabulary was seen as one way to address an urgent problem. Implications for professional development and teacher education are also addressed.     

Bidirectionality in Self‐Regulation and Expressive Vocabulary: Comparisons Between Monolingual and Dual Language Learners in Preschool

Significant differences in language and self‐regulation skills exist among children when they enter formal schooling. Contributing to these language differences is a growing population of dual language learners (DLLs) in the United States. Given evidence linking self‐regulatory processes and language development, this study explored bidirectional associations between English expressive vocabulary and self‐regulation skills for monolingual English and DLL preschool children (N = 250) from mixed‐income families in Los Angeles. Across three time points, findings provide initial support for bidirectionality between these developing skills for both monolinguals and DLLs. Results provide strong empirical support for vocabulary serving as a leading indicator of self‐regulation skills in preschool. Findings also suggest that early self‐regulation skills play a particularly important role for vocabulary development.     

The treatment of culture in the foreign language curriculum: an analysis of national curriculum documents

Teaching culture in the foreign language classroom has been widely debated ever since its importance was recognized. Current research suggests that centralized ‘top down’ curricular policies can become potential constraints to teaching culture and points to the need for adapting curricula for culture-integrated language learning. This study analysed official curriculum documents published in 14 different countries to identify how the sociocultural component to Teaching English as a Foreign Language is reflected in the document. To date, there is scarce research on the place of culture in English as a Foreign Language curricula; hence, the present study aims at filling in a gap in this area. The study points to the following findings: curricula state the importance of culture in language learning and promote an integrative view of teaching language and culture; cultural objectives focus on appreciating cultural diversity, raising cultural awareness and reinforcing students’ positive cultural identity; teachers are portrayed as facilitators (rather than transmitters) of cultural knowledge yet, learners are described as acquiring (rather than discovering) cultural knowledge; curriculum documents focus on cultural knowledge and attitudes towards foreign cultures, rather than on the skills needed for successful interaction. These findings are elaborated and discussed, with potential implications for practice.     

Using ‘HOCS-Centered Learning’ as a Pathway to Promote Science Teachers' Metacognitive Development

An element of current reform in science education worldwide is the shift from the dominant traditional algorithmic lower-order cognitive skills (LOCS) teaching, to the higher-order cognitive skills (HOCS)-promoting learning; that is, the development of students' capabilities including those of question asking (QA), critical/system thinking (CST), decision making (DM), problem solving (PS), conceptualisation of fundamental concepts (CFC) and the transfer of these within both the science disciplines and real life interdisciplinary situations. Accordingly, an innovative metacognition-promoting science teacher professional development course, integrating formal and informal science education, was developed and implemented within a traditional model, focusing on the HOCS skills of QA, PS, and CFC. The HOCS promoting teaching and assessment strategies of this course not only enabled participants to reflect on their own learning, but also facilitated their self-reflective assessment, utilising a pre–post designed research-based methodology. The results suggest that such, or similarly appropriate, metacognition-oriented courses can contribute positively to the development of science teachers' HOCS capability.     

Teachers' Understanding of the Role of Executive Functions in Mathematics Learning

Cognitive psychology research has suggested an important role for executive functions, the set of skills that monitor and control thought and action, in learning mathematics. However, there is currently little evidence about whether teachers are aware of the importance of these skills and, if so, how they come by this information. We conducted an online survey of teachers' views on the importance of a range of skills for mathematics learning. Teachers rated executive function skills, and in particular inhibition and shifting, to be important for mathematics. The value placed on executive function skills increased with increasing teaching experience. Most teachers reported that they were aware of these skills, although few knew the term “executive functions.” This awareness had come about through their teaching experience rather than from formal instruction. Researchers and teacher educators could do more to highlight the importance of these skills to trainee or new teachers.