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1.
New technologies are a large part of the educational landscape in the 21st century. Emergent technologies are implemented in the classroom at an exponential rate. The newest technology to be added to the daily classroom is the tablet computer. Understanding students' and teachers' perceptions about the role of tablet computers is important as this can provide information for future development and implementation of table technologies in the classroom. To gather users' perceptions, observations of eight classrooms and interviews with 23 students and three teachers were performed in a middle school that implemented 1:1 iPad program, toward the end of the first-year implementation. Themes elicited from the interviews included like/dislike of the iPad, iPad as an educational tool, iPad for play, iPad as a distraction and responsibility, and favorite apps and projects. Although most participants did like having the iPads and considered them useful for education, there were a number of concerns, particularly with learning to use the tablet technology and distractions created by having the device. The apps used in the classroom were limited, with the majority having been productivity apps. The need for teacher training for effective classroom applications of mobile devices is discussed. (Keywords: 1:1 iPad program, instructional use of tablets, student perceptions, tablet technology, teacher perceptions)  相似文献   

2.
This study tested an iPad application using a dichotomous key as a scaffolding tool to help students make more detailed observations as they identified various species of birds on display in a museum of natural science. The Mobile Dichotomous Key (MDK) iPad application was used by groups of fifth- and seventh-grade students. Analysis of the findings suggests that the MDK was equally as effective and in some ways more effective than the educator-led intervention at improving students' scientific observation skills. In general, the scaffolding key in both mobile and educator-led form was found to be more effective for fifth-grade students than for seventh-grade students. In addition, it was found to be effective at improving the level of detail students provided and the number of scientific terms they used, but not at improving the number of valid inferences students made.  相似文献   

3.
This study examined 342 teachers' views of professional development (PD) provided by a large school district to support its iPad initiative. We were interested in investigating teachers' perceptions of this district-provided PD, any change in teachers' views, and how they used iPads in their instruction while/after receiving PD. The findings, using a mixed-methods design, showed although teachers held overall positive views regarding PD, their perceptions did not change over the 1-year implementation. Rather, certain teacher characteristics such as teachers' beliefs, technology self-efficacy, and school levels influenced their views. This study also provided an in-depth analysis of teachers' use of iPad to support their instruction. Findings revealed teachers used the iPad for a variety of purposes. From mid-year to end-year, there was a decrease in using iPads for class management and basic uses, but an increase in using the iPad to create instructional materials by the teachers and creating artifacts by their students. Such findings suggested a connection between the PD teachers received and their practices, indicating a shift to more interactive uses during the second half of the year. The findings highlighted the importance of providing situated PD and considering teacher characteristics when designing PD. (Keywords: professional development, mobile teaching and learning, iPad use, K–12 education, large suburban schools, technology integration)  相似文献   

4.
Given the growing popularity of digital games as a form of entertainment, educators are interested in exploring using digital games as a tool to facilitate learning. In this study, we examine game-based learning by describing a learning environment that combines game elements, play, and authenticity in the real world for the purpose of engaging students’ learning of science and enhancing student motivation. We discuss the design of the environment and present research conducted. Our findings demonstrate that the design of an engaging, interactive environment using a game-based approach can help students have fun while learning.  相似文献   

5.
As digital media devices have been increasingly used in early childhood educational settings, this study examined whether the iPad with a Vygotskian social development approach—namely, More Knowledgeable Other—can be integrated into low-income preschool classrooms to improve science learning. An analysis of variance was used to examine the overall improvement and differences in improvement among English language learners, children with special needs, and children without special needs or English language learner status. Results showed that all participants improved their science learning abilities as a consequence of the iPad instruction. Among all groups, English language learner children benefitted more than the other groups, but only with a game that had less verbal directions. There were no significant differences by gender.  相似文献   

6.
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7.
ABSTRACT

A key theme in science education research concerns the decline in young peoples’ interest in science and the need for professionals in hard science. Goal Congruity Theory posits that an important aspect of the decision whether to pursue hard science for study or as a career is the perception that hard science careers do not fulfil social (working with people) and societal (serving or helping others) interests. In this qualitative study, we explore grade 12 students’ perceptions about the social and societal orientation of hard science careers. Furthermore, we investigate the variation in students’ social and societal interests. Six focus groups were conducted with 58 grade 12 students in Flanders. Our results indicate that a number of students hold stereotypical views about hard science careers’ social orientation, while others believe cooperation with others is an important aspect of hard science careers nowadays. Furthermore, our results show that students believe hard science careers can be societally oriented in the sense that they often associate them with innovation or societal progress. Finally, our results indicate that students may differentiate direct versus indirect societal orientation. These findings contribute to literature regarding social and societal interests and students’ perceptions of hard science careers.  相似文献   

8.
Scholars have argued that the history of science should be included in the science curriculum because it provides meaningful perspective about scientific concepts, processes, and context. This article begins with a review of efforts to humanize science education by including the history of science, and a review of the rationale for including the history of science in the science education curriculum. The authors then synthesize a conceptual framework for examining the role of the history of science in science education. The framework is organized around realms in the history of science: a) conceptual understanding, b) procedural understanding, and c) contextual understanding, and includes approximately 3 sub-elements within each realm. The framework has been used previously to study the inclusion of the history of science in high school physics textbooks (Wang 1998). In this study, it is used to examine the perceptions and practices of elementary and secondary school teachers in using the history of science in their classrooms. Thirty-eight teachers completed a questionnaire which used Likert scale items to assess their perception of the value of the history of science, and practice in using it in their classroom. A sub-set of teachers were then interviewed to understand the interconnection of these views in more detail. Teachers believe that the inclusion of the history of science should not be used for elementary school students. Teachers who believe in and practice the inclusion of the history of science identify many benefits for their students. However, they believe that it is difficult to include the procedural realm of understanding. The authors conclude that humanizing science isn't a matter of making it fun so much as making it a human and meaningful endeavor.  相似文献   

9.
This study follows an ethnically and economically diverse sample of 33 high school students to explore why some who were once very interested in science, engineering, or medicine (SEM) majors or careers decided to leave the pipeline in high school while others persisted. Through longitudinal interviews and surveys, students shared narratives about their developing science identities, SEM participation and aspirations. In analysis, three groups emerged (High Achieving Persisters, Low Achieving Persisters, and Lost Potentials), each experiencing different interactions and experiences within science communities of practice in and outside of school and within the extended family. These different microclimates framed students' perceptions of their SEM study, abilities, career options, and expected success, thereby shaping their science identities and consequent SEM trajectories. School science was often hard and discouraging; there were very few science advocates at school or home; and meaningful opportunities to work with real science professionals were scarce, even in schools with science or health academies. Students expressed positive attitudes toward science and non‐science pursuits where they experienced success and received support from important people in their lives. Results underscore the key role communities of practice play in career and identity development and suggest a need for interventions to help socializers better understand the value and purpose of science literacy themselves so as to encourage students to appreciate science, be aware of possible career options in science and enjoy learning and doing science. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47: 564–582, 2010  相似文献   

10.
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11.
Assessing Farmer Innovations in Agroforestry in Eastern Zambia   总被引:1,自引:0,他引:1  
Abstract

An interactive group‐based farm simulation game used in Australia for farming‐systems education is described. The computer‐aided game is the main feature of a facilitated one‐day workshop. The game and the workshop are designed to feature fun and learning for farming systems. Responses of game players are collated to reveal their perceptions and experiences of the game. Player feedback indicates that they find the game challenging, entertaining and effective in conveying a range of farming systems issues. The Australian experience shows that it is possible to design a game package that harnesses the beneficial elements of fun, group activity, facilitation, computer simulation and peer competition; with the outcome of stimulating and facilitating people's learning about fanning systems.  相似文献   

12.
In order to investigate the learning environment of senior high school science laboratory classrooms in Korea, the Science Laboratory Environment Inventory (SLEI) was translated into Korean and administered to 439 students (99 science-independent stream students, 195 science-oriented stream students and 145 humanities stream students). Data analyses attested to the sound factorial validity and internal consistency reliability of the SLEI, as well as its ability to differentiate between the perceptions of students in different classrooms. Students in the science-independent stream generally perceived their science laboratory classroom environment more favourably than did students in either the humanities or science-oriented stream. Associations were found between various measures of students’ attitudes to science and their perceptions on SLEI scales; in particular, as in past research in other countries, integration between theory and practical classes was a statistically significant predictor of all attitude criteria when the other SLEI scales were mutually controlled.  相似文献   

13.
严建斌 《成才之路》2020,(9):116-119
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。  相似文献   

14.
Science and religion are two indisputably profound and durable cultural forces with a complex history of interaction. As ASTE members are aware, these interactions often manifest themselves in classrooms and in the surrounding communities. In this essay, we encourage science teacher educators to broaden their perspectives of science–religion interactions so that they may better assist pre- and in-service science teachers with addressing topics such as the age and origins of the universe and biological evolution in an appropriate manner. We first introduce some foundational scholarship into the historical interactions between science and religion as well as current efforts to maintain healthy dialogue between perspectives that are frequently characterized as innately in conflict with or mutually exclusive of one another. Given that biological evolution is the dominant science–religion issue of our day, in particular in the USA, we next summarize the origins and strategies of anti-evolution movements via the rise and persistence of Christian Fundamentalism. We then summarize survey and qualitative sociological research indicating disparities between academic scientists and the general public with regard to religious beliefs to help us further understand our students’ worldviews and the challenges they often face in campus-to-classroom transitions. We conclude the essay by providing resources and practical suggestions, including legal considerations, to assist science teacher educators with their curriculum and outreach.  相似文献   

15.
During their years of schooling, students develop perceptions about learning and teaching, including the ways in which teachers impact on their learning experiences. This paper presents student perceptions of teacher pedagogy as interpreted from a study focusing on students' experience of Year 7 science. A single science class of 11 to 12 year old students and their teacher were monitored for the whole school year, employing participant observation, and interviews with focus groups of students, their teacher and other key members of the school. Analysis focused on how students perceived the role of the teacher's pedagogy in constructing a learning environment that they considered conducive to engagement with science learning. Two areas of the teacher's pedagogy are explored from the student perspective of how these affect their learning: instructional pedagogy and relational pedagogy. Instructional pedagogy captures the way the instructional dialogue developed by the teacher drew the students into the learning process and enabled them to “understand” science. How the teacher developed a relationship with the students is captured as relational pedagogy, where students said that they learned better when teachers were passionate in their approach to teaching, provided a supportive learning environment and made them feel comfortable. The ways in which the findings support the direction for the middle years and science education are considered.  相似文献   

16.
科学教育是建设创新型国家、科教强国的重要支撑,培育更多优秀青少年学生学习和从事科技领域具有重要意义。“科学资本”由布迪厄的“资本”概念发展而来,被认为是预测青少年学生STEM职业期望的有效变量。为了更好地认识科学资本这一概念的本质及其教育价值,该文在对相关文献进行梳理的基础上,对科学资本的内涵进行了解析,对科学资本的构成维度进行了总结,对科学资本促进学生发展的价值进行了讨论,对如何将科学资本融入教育实践进行了介绍。该文认为具有丰富内涵的科学资本为审视科学教育提供了一个新的视角,为推进科学教育发展提供了新的着力点,即在培养学生科学素养的同时,应重视学生科学资本的发掘和构建;建议创设“学校—家庭—社会”协同育人环境,积极促进学生科学资本构建,增强学生与科学的亲密度,激励更多更优秀的学生在未来进入科技领域。科学资本及以其为导向的科学教学法为我国科学教育和科学教师培训提供了新的启示。  相似文献   

17.
Advances in technology have led to continuous innovation in teaching and learning methods. For instance, the use of tablet PCs (TPCs) in classroom instruction has been shown to be effective in attracting and motivating students' interest and increasing their desire to participate in learning activities. In this paper, we used a TPCs game – an iPad app called Motion Math: Hungry Fish – to help young students learn to theoretically understand and practically implement the mathematical concepts of addition and subtraction. Based on findings from a pilot study, we categorized the game's 18 levels of difficulty into “challenging” (experimental group) and “matching” (control group) games. We aimed to investigate whether challenging games were more able than matching games to improve the students' motivation, flow experience, self-efficacy for technology, self-efficacy for science, feelings about the TPC game, and satisfaction with the learning approach. The findings showed that the students in the experimental group achieved better flow experience, learning performance, and satisfaction.  相似文献   

18.
Most academic science educators encourage teachers to provide their students with access to more authentic science activities. What can and do teachers say to increase students’ interests in participating in opportunities to do real science? What are the discursive resources they draw on to introduce authentic science to students? The purpose of this ethnographic and discourse-analytic study is to investigate the ways in which the activities of scientists are discursively presented to high school students in a biology/career preparation course. Data sources were collected by means of observation, field notes, interviews, and videotaped lessons in an eleventh-grade biology/career preparation course. Drawing on discourse analysis, we investigate the discursive resources—or, more specifically and technically, the interpretative repertoires—teachers used to explain and promote opportunities to engage students in real science activities. Our analysis identifies and characterizes six types of interpretative repertoires: specialized, a-stereotypical, relevant, empirical, emotive, and rare-opportunity. To better understand the “big picture” of how these discursive resources are drawn on in the classroom, we also report on the frequencies of the repertoires in the discourse and the ways in which repertoires changed in the course of teacher-student interactions. The findings of this case study offer teachers and researchers with a better understanding of how specific forms of discourse—i.e., the repertoires—can serve as resources to enhance teacher-introduction of authentic science to students and provide students a bridge between school and authentic science.  相似文献   

19.
This article reports a cross-national study of classroom environments in Australia and Indonesia. A modified version of the What Is Happening In this Class? (WIHIC) questionnaire was used simultaneously in these two countries to: 1) crossvalidate the modified WIHIC; 2) investigate differences between countries and sexes in perceptions of classroom environment; and 3) investigate associations between students’ attitudes to science and their perceptions of classroom environment. The sample consisted of 1,161 students (594 students from 18 classes in Indonesia and 567 students from 18 classes in Australia). Principal components factor analysis with varimax rotation supported the validity of a revised structure for the WIHIC. Two-way MANOVA revealed some differences between countries and between sexes in students’ perceptions of their classroom environments. Simple correlation and multiple regression analyses revealed generally positive associations between the classroom environment and student attitudes to science in both countries.  相似文献   

20.
Korean students have shown relatively little interest and confidence in learning science, despite being ranked in the top percentile in international evaluations of academic achievement in science such as the Trends in International Mathematics and Science Study. Although research indicates a positive relationship between student perceptions of science and their science learning, this area has not been sufficiently explored in Korea. Particularly, even though both students' perceptions of scientific practice and their understanding of the nature of science (NOS) are influenced by their science learning experiences at schools, little research examines how this perception, understanding, and experience are related to one another. This study aimed to uncover Korean students' perceptions of school scientific practice through exploring their drawings, writings, and responses to questionnaires. Participants were 500 Korean students in 3rd, 7th, and 10th grades who were asked to complete an open-ended questionnaire. The results indicated that Korean students typically viewed school scientific practices as experimental activities or listening to lecture; and that most participants held an insufficient understanding of the NOS. Overall, no significant relationship emerged between students' perceptions of school scientific practice and their understanding of the NOS. Our findings highlight the need to help both teachers and students understand the potential breadth of school scientific practices, beyond simple ‘activity mania.’ This study also suggests that teachers must balance implicit and explicit instructional approaches to teaching about the NOS through scientific practices in school science contexts.  相似文献   

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