The Development of an Instrument for a Technology-integrated Science Learning Environment

This study developed, validated, and utilized the Technology Integrated Classroom Inventory (TICI) to examine technology-integrated science learning environments as perceived by secondary school students and teachers. Using technology-oriented classroom climate instruments and considering the science classroom’s characteristics, TICI was developed. More than 1,100 seventh through ninth grade science students validated the instrument, revealing eight scales: technological enrichment, inquiry learning, equity and friendliness, student cohesiveness, understanding and encouragement, competition and efficacy, audiovisual environment, and order, with alpha reliabilities ranging between 0.69 and 0.91 (0.93 for the entire questionnaire). In measuring actual and preferred learning environments, TICI results indicated that both students and teachers ranked equity and friendliness highest. The largest actual–preferred discrepancy was order (students) and inquiry learning (teachers). TICI offers additional utilities for technology-enriched science leaning environments.     

Coordinating scaffolds for collaborative inquiry in a game-based learning environment

Collaborative inquiry learning affords educators a context within which to support understanding of scientific practices, disciplinary core ideas, and crosscutting concepts. One approach to supporting collaborative science inquiry is through problem-based learning (PBL). However, there are two key challenges in scaffolding collaborative inquiry learning in technology rich environments. First, it is unclear how we might understand the impact of scaffolds that address multiple functions (e.g., to support inquiry and argumentation). Second, scaffolds take different forms, further complicating how to coordinate the forms and functions of scaffolds to support effective collaborative inquiry. To address these issues, we identify two functions that needed to be scaffolded, the PBL inquiry cycle and accountable talk. We then designed predefined hard scaffolds and just-in-time soft scaffolds that target the regulation of collaborative inquiry processes and accountable talk. Drawing on a mixed method approach, we examine how middle school students from a rural school engaged with Crystal Island: EcoJourneys for two weeks (N=45). Findings indicate that hard scaffolds targeting the PBL inquiry process and soft scaffolds that targeted accountable talk fostered engagement in these processes. Although the one-to-one mapping between form and function generated positive results, additional soft scaffolds were also needed for effective engagement in collaborative inquiry and that these soft scaffolds were often contingent on hard scaffolds. Our findings have implications for how we might design the form of scaffolds across multiple functions in game-based learning environments.     

Striking a Balance Between Innovation and Standards: A Study of Teachers Implementing Project-Based Approaches to Teaching Science

This research reports on the efforts of six middle school and high school science teachers in a public school district in New York City to balance innovative teaching methods and strategies with the New York State Learning Standards and Regents requirements. More specifically, this research examines the factors that influenced the implementation of project-based approaches to teaching and learning science. Observations of meetings and classrooms, and collection of artifacts such as curricula, project planners, demographic profiles, student work, and test results served as the primary data sources that were triangulated and related to current theory on project-based learning in science. Four teachers embraced aspects of project-based learning in science and two rejected most aspects of teaching project-based learning in science. Implications for science professional development are discussed.     

Design principles for support in developing students’ transformative inquiry skills in Web-based learning environments

The aim of this explorative study was to find the factors limiting sixth-grade learners’ outcomes in acquiring skills related to the transformative inquiry learning processes as well as to analyse the interrelations between inquiry skills in order to develop an optimal support system for designing Web-based inquiry learning environments. A Web-based learning environment ‘Young Scientist’ was developed and applied to the domain of integrated science. The skill of identifying the correct research questions appeared to be a prerequisite for formulating research questions. When students understand how to identify the research questions correctly, there is no need for supporting formulation of research questions or hypotheses. We have found that at the stages of analysing data and inferring, students have to be provided with the tools to activate their prior knowledge, assignments help to organize their work into manageable sections, and reflective support or adaptive feedback to relate the results achieved with the process of inquiry. Our findings demonstrate that the effectiveness of inquiry learning can be strongly influenced by regulative support; however, a particular level of initial inquiry knowledge in theoretical context is also needed in order to develop inquiry skills in a situational context.     

开放学习环境的设计

开放学习环境指利用教育技术手段和资源来支持不同的学习目的和知识建构的环境。在开放学习环境中，有三个重要的成分：能够促进学生对复杂现象进行观察和实验的可视化和可操作工具；能够促进学生进行普遍原理与日常经验整合的科学性上下文；能够支持以学生为中心进行信息查询的基于资源的环境，对这三个成分的设计是开放学习环境设计的关键。     

Seeking construct validity grounded in constructivist epistemology: development of the survey of contemporary learning environments

This study focused on the development of a new classroom environment instrument for late-elementary students. The development of the survey of contemporary learning environments (SoCLE) followed a content analysis of three similar instruments on constructivist learning environments and the literature on characteristics of contemporary learning environments. Through a bottom-up development process, grounded in the epistemological foundations of constructivism, we note the difficulty in operationalizing student perceptions of contemporary learning environments and point to challenges in developing well-grounded construct validity. In a field study of 453 fifth–sixth grade students, the SoCLE was defined with three subscales: Reflective Processes (α?=?0.68), Ownership (α?=?0.65), and Multiple Perspectives (α?=?0.53). The Ownership and Multiple Perspectives subscales indicated relationships with overall academic achievement assessed by a nation-wide testing program, the Iowa Tests of Basic Skills. In a multiple linear regression model, ownership predicted the overall composite achievement score, as well as reading comprehension, social studies, and science subscores. Multiple perspectives predicted the language subscore. These findings highlight that characteristics of contemporary learning environments that are epistemologically based may support achievement in late-elementary students.     

The use of augmented reality games in education: a review of the literature

This paper provides a review of the literature about the use of augmented reality in education and specifically in the context of formal and informal environments. It examines the research that has been conducted up to date on the use of those games through mobile technology devices such as mobile phones and tablets, both in primary and secondary education. The review of the relative literature was carried out in the period 2000 to early 2014 in ScienceDirect and ERIC. The outcomes of this review illustrated a set of studies that provide evidence of positive outcomes regarding student learning. These studies, which focused mainly on the natural sciences and took place within informal learning environments, used both qualitative and quantitative data collection methods. The earliest study that was conducted about this topic used personal digital assistants, while the more recent one used smart (mobile) phones and tablets. The services of augmented reality focused on markers/quick response codes, virtual items, global positioning system services as well as on platforms for game creation. The findings of the literature review are discussed in relation to research approaches that are needed for augmented reality games to be played either in formal or informal learning environments.     

Conceptualisation,Development and Validation of an Instrument for Investigating the Metacognitive Orientation of Science Classroom Learning Environments: The Metacognitive Orientation Learning Environment Scale – Science (MOLES-S)

Metacognition refers to an individual's knowledge, control and awareness of his/her learning processes. An important goal of education is to develop students as metacognitive, life-long learners. However, developing students' metacognition and evaluating whether classrooms are oriented to the development of students' metacognition are difficult and often time-consuming tasks. Further, no instruments that measure key dimensions related to classroom factors that specifically influence the development of students' metacognition have been available. This article describes the conceptualisation, design, and validation of an instrument for evaluating the metacognitive orientation of science classroom learning environments. The metacognitive orientation of a learning environment is the extent to which that environment supports the development and enhancement of students' metacognition. Social constructivism was the guiding referent informing the instrument's orientation and development. This instrument measures students' perceptions of the extent to which certain psychosocial dimensions, evident in learning environments where interventions have resulted in enhanced student metacognition, are evident in their science classrooms. Findings from the use of this instrument complement what is already known from research studies to be generally the case in relation to science classrooms' metacognitive orientation. This revised version was published online in July 2006 with corrections to the Cover Date.     

Problem-Based Learning Meets Case-Based Reasoning in the Middle-School Science Classroom: Putting Learning by Design(tm) Into Practice

This article tells the story of the design of Learning by Design(tm) (LBD), a project-based inquiry approach to science learning with roots in case-based reasoning and problem-based learning, pointing out the theoretical contributions of both, classroom issues that arose upon piloting a first attempt, ways we addressed those challenges, lessons learned about promoting learning taking a project-based inquiry approach, and lessons learned about taking a theory-based approach to designing learning environments. LBD uses what we know about cognition to fashion a learning environment appropriate to deeply learning science concepts and skills and their applicability, in parallel with learning cognitive, social, learning, and communication skills. Our goal, in designing LBD, was to lay the foundation in middle school for students to be successful thinkers, learners, and decisionmakers throughout their lives and especially to help them begin to learn the science they need to know to thrive in the modern world. LBD has students learn science in the context of achieving design-and-build challenges. Included in LBD's framework is a set of ritualized and sequenced activities that help teachers and students acclimate to the culture of a highly collaborative, learner-centered, inquiry-oriented, and design-based classroom. Those ritualized activities help teachers and students learn the practices of scientists, engineers, and group members in ways that they can use outside the classroom. LBD is carefully crafted to promote deep and lasting learning, but we have learned that careful crafting is not enough for success in putting a collaborative inquiry approach into practice. Also essential are fostering a collaborative classroom culture in which students want to be engaged in deep learning and where the teacher sees herself as both a learner and a facilitator of learning, trusts that with her help the students can learn, and enthusiastically assumes the roles she needs to take on.     

A systematic review of trends and findings in research employing drawing assessment in science education

ABSTRACT

In this study, we reviewed 76 journal articles on employing drawing assessment as a research tool in science education. Findings from the systematic review suggest four justifications for using drawing as a type of research tool, including assessment via drawing as (a) an alternative method considering young participants’ verbal or writing abilities, and affective or economic reasons, (b) a unique method that can reveal aspects not easily measured by other methods, (c) a major method that reflects characteristics of science subjects, and (d) a formative assessment to diagnose students’ ideas to benefit their learning. Furthermore, five research trends of studies using drawing as assessment tools are identified, including: (a) students’ conceptions of scientists from the Draw-a-Scientist-Test (DAST) and evolving studies, (b) students’ understanding or mental models of science concepts, (c) participants’ conceptions of science learning or teaching, (d) students’ inquiry abilities and modelling skills via drawing, and (e) technology to support drawing. For each trend, we synthesised and commented on the current findings. A framework conceptualising phases and issues when designing research and instruments employing drawing assessments is proposed. The review provides insights into the design and future direction of research employing drawing assessments in science education.     

Investigating the Effectiveness of Inquiry Instruction on the Motivation of Different Learning Styles Students

The purpose of this study was to investigate 8th graders with different learning styles their motivation outcomes after implementing 10 weeks (40 hours) inquiry-based teaching. Two hundreds and fifty four 8th graders were involved in experimental group, this group of students experienced inquiry instruction. Two hundreds and thirty two 8th graders were involved in control group, they were taught by traditional science teaching. Students' motivation toward science learning questionnaire (SMTSL) (Tuan, Chin & Shieh, 2005) were implemented in both groups in the beginning and at the end of the study. Students in the experimental group filled out learning preference questionnaire (Lumsdaine & Lumsdaine, 1995) in the beginning of the study. Forty students which represent different learning styles were chosen from five experimental classes to conduct post-test interview. Paired t-test, MANOVA, analytic inductive methods were used for analyzing both qualitative and quantitative data. Findings indicated that after inquiry instruction students' motivation increased significantly (p<.001) than students who enrolled in traditional teaching. Four different learning styles of students increased significantly (p<.005) in SMTSL scales: self-efficacy, active learning strategies, science learning value, performance goal and achievement goal. No significant difference was found among four learning styles of students' motivation after inquiry teaching. Interview data supported that most of students with different learning styles were willing to participate in the inquiry learning activities, while they hold different reasons for their engagement. Findings confirm inquiry-based science teaching can motivate students with different learning styles in science learning. An erratum to this article is available at .     

Perceptions of Science and Technology: A Comparison of Criminal Justice and Traditional Science and Technology Majors

Due to the increased demands for science and technology (S&T) in criminal justice (CJ) occupational preparation and in response to the growing interest of students in forensics, this study explores the attitudes of CJ majors towards S&T. Despite the acknowledgment that S&T skills are helpful in gaining employment, CJ majors reported less favorable attitudes than S&T majors, reporting: less interest in gaining S&T knowledge, fewer social benefits of S&T, and greater concerns that S&T are dangerous to society than traditional forensic science majors. While these findings raise some fundamental questions about the suitability of increased representation of S&T courses within CJ curriculum, authors argue that CJ curricular goals must continue to evolve to foster innovative students who are academically prepared to meet the twenty-first century challenges of their future careers.     

Teaching aspects of the interrelationship between science and technology: a research report on the design,enactment and evaluation of a teaching proposal

Background: Helping upper elementary and lower secondary school students develop an awareness of various aspects of the nature of science (NOS) and nature of technology (NOT) is a widely recognized goal of science teaching. In this study, we focus on the connections between science and technology (S&T).

Purpose: We report on the design, development, enactment and evaluation of a teaching-learning sequence (TLS) that combines hands-on activities in geometrical optics with explicit epistemological discourse for reflection purposes. The design of the TLS draws on perspectives from the inquiry-oriented and design-based teaching and learning frameworks.

Sample: The enactment of the TLS involved a class of 17 sixth-grade students, aged 10–11 years old, of a public elementary school in Cyprus.

Design and methods: We present findings from written responses to both closed and open-ended tasks as well as follow-up semi-structured interviews that probed students’ understanding of the difference between the main goals of S&T.

Results: The results illustrate elementary students’ readiness to engage with epistemic issues and demonstrate the potential of prompting young learners’ ability to develop informed awareness of the NOS and NOT. The results also provided feedback for the revision of the TLS so as to further enhance its effectiveness in achieving the stated learning objectives.

Conclusion: We discuss the implications of our findings for the teaching of the NOS and NOT and for the design and validation of TLSs. It is possible for students of this age group to develop an awareness of issues related to the NOS and NOT. TLSs can be improved through design-based research approaches to serve as productive tools to this end.     

Promoting Self-Regulation in Science Education: Metacognition as Part of a Broader Perspective on Learning

The purpose of this article is to review recent research on self-regulated learning and discuss the implications of this research for science education. We draw on examples of self-regulated learning from the science education literature to summarise and illustrate effective instructional methods and the development of metacognitive understanding (Gunstone; 1999a; Rickey & Stacy, 2000; White & Mitchell, 1994). We also focus on the crucial role that metacognition plays in self-regulation (Baird & White, 1996; Nichols, Tippins, & Wieseman, 1997; White, 1998). We divide our discussion into two main parts. The first focuses on three components of self-regulated learning, including cognition, metacognition, and motivation. We relate these aspects of self-regulation to current practices in science education. The second section focuses on six general instructional strategies for improving self-regulation in the science classroom. We focus on the use of inquiry based learning, the role of collaborative support, strategy and problem solving instruction, the construction of mental models, the use of technology to support learning, and the role of personal beliefs such as self-efficacy and epistemological world views. These instructional strategies are selected because they reflect extensive research agendas over the last decade within the science education literature and are essential to metacognition and self-regulation (Butler & Winne, 1995; Gunstone, 1999b).     

高职口译课项目教学法调研

为了就高职口译课项目教学改革成效进行实证研究,从口译学习过程、口译学习效果、口译教学评价方面设计调查问卷,对117名高职院校口译学习者进行了问卷调查。结果显示:采用项目教学法后,学生参与课堂的程度提高,学习收获更大,喜欢小组学习的形式,乐于参加有挑战性的实战口译。因此,高职口译课教师应培养学生的自主学习能力,应善于利用各种材料和方法将口译课上得生动,应结合听力、口语等专业课将传授知识与能力、素质的培养融为一体。     

Understanding the complexity of teacher interaction in a teacher professional learning community

In this study, we examine a professional learning community of primary school teachers developing a joint school-based curriculum for science and technology (S&T) education. Team meetings were observed over the course of one school year and the participating teachers and school head were interviewed. An essential factor in the team’s collaboration was its ability to achieve synthesis, that is, the extent to which the teachers were able to abstract from concrete experiences in S&T education in order to formulate and develop a shared vision and curriculum. They exchanged many examples and were able to create a shared idea highlighting critical elements in their approach to teaching this school subject. However, the teachers experienced difficulties in determining the level at which a school-based curriculum should be defined. The outcomes of this team’s collaboration are discussed in terms of leadership and the aims of the S&T innovation.     

The effect of using augmented reality and sensing technology to teach magnetism in high school physics

ABSTRACT

The purpose of this study is to investigate the effect of MagAR, an instructional material for teaching magnetism using augmented reality and sensing technology, on students’ academic achievement and learning process, and to identify students’ views about augmented reality. An embedded mixed-method approach was employed in this study. The study’s results suggest that AR learning environments are effective in teaching physics, and facilitate learning by adding visual and textual components to the learning process. In learning activities integrated with AR, the students were observed to participate more, appeared more comfortable, were able to answer questions related to the subject more easily, had increased self-confidence and exhibited higher academic achievement levels in physics. The results suggest that AR should not be considered as an independent learning environment for the teaching of physics, but would be more effective as supplementary to the laboratory environment.     

网络环境下项目式学习支持平台的设计

根据项目学习的一般过程及其学习特点,网络环境应该为项目式学习提供资源支持、工具支持、共同体支持、协同支持、策略支持、管理支持、成果支持等。在网络环境下有效开展项目式学习的关键是网络学习支持系统的结构设计和功能实现,它直接影响着网络环境下项目学习的质量。     

科学探究教学中iPad的应用刍议

iPad作为一种信息技术高速发展的产物,以其特有的优势迅速被运用到教育教学领域,受到了众多教师和学生的青睐。文章结合教科版小学科学四年级"不一样的电路连接"的教学,探讨iPad的应用,提出iPad应用于科学教学的做法:营造互动的探究课堂,提升学生探究学习能力,使科学学习更有效率,更有广度和深度。