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This study explored the efficacy of promoting a beginning chemistry teacher's curriculum development and teaching practices through the use of computers. Using pictorial analogies, historical cases of science, and discrepant events in a web site designed by the researchers as curricular samples, the beginning teacher was asked to develop similar curriculum for his own teaching. After taking the researchers' advice into account and making adjustments, the beginning teacher implemented the curriculum in his classroom teaching and shared his experience with the researchers by e-mail communications. The teacher's teaching practices both before and after the web site treatment were observed and analyzed. It was found that before the treatment the teacher used the textbook as the only resource of his teaching. Extra curriculum was rarely seen, there were not many student-teacher interactions, and analogies or examples used in his explanation of abstract concepts were not preorganized. On the other hand, after the treatment, the teacher was able to develop suitable curricula by himself for the purpose of increasing student involvement. He also explained the applications of chemical concepts in daily lives and his analogies and demonstrations were well organized. Although the beginning teacher was able to develop curricula after the treatment, many aspects of his teaching can be improved, especially in the areas of student-teacher interaction and the implementation of students activities in science teaching. 相似文献
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Nico Rutten Jan T. van der Veen Wouter R. van Joolingen 《International Journal of Science Education》2013,35(8):1225-1245
In this study we investigated the pedagogical context of whole-class teaching with computer simulations. We examined relations between the attitudes and learning goals of teachers and their students regarding the use of simulations in whole-class teaching, and how teachers implement these simulations in their teaching practices. We observed lessons presented by 24 physics teachers in which they used computer simulations. Students completed questionnaires about the lesson, and each teacher was interviewed afterwards. These three data sources captured implementation by the teacher, and the learning goals and attitudes of students and their teachers regarding teaching with computer simulations. For each teacher, we calculated an Inquiry-Cycle-Score (ICS) based on the occurrence and order of the inquiry activities of predicting, observing and explaining during teaching, and a Student-Response-Rate (SRR) reflecting the level of active student participation. Statistical analyses revealed positive correlations between the inquiry-based character of the teaching approach and students’ attitudes regarding its contribution to their motivation and insight, a negative correlation between the SRR and the ICS, and a positive correlation between teachers’ attitudes about inquiry-based teaching with computer simulations and learning goal congruence between the teacher and his/her students. This means that active student participation is likely to be lower when the instruction more closely resembles the inquiry cycle, and that teachers with a positive attitude about inquiry-based teaching with computer simulations realize the importance of learning goal congruence. 相似文献
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This investigation explores the effectiveness of a teacher preparation program aligned with situated learning theory on preservice science teachers' use of technology during their student teaching experiences. Participants included 26 preservice science teachers enrolled in a 2‐year Master of Teaching program. A specific program goal was to prepare teachers to use technology to support reform‐based science instruction. To this end, the program integrated technology instruction across five courses and situated this instruction within the context of learning and teaching science. A variety of data sources were used to characterize the participants' intentions and instructional practices, including classroom observations, lesson plans, interviews, and written reflections. Data analysis followed a constant comparative process with the goal of describing if, how, and why the participants integrated technology into their instruction and the extent to which they applied, adapted, and innovated upon what they learned in the science teacher preparation program. Results indicate that all participants used technology throughout their student teaching for reform‐based science instruction. Additionally, they used digital images, videos, animations, and simulations to teach process skills, support inquiry instruction, and to enhance student engagement in ways that represented application, adaptation, and innovation upon what they learned in the science teaching methods program. Participants cited several features of the science teacher preparation program that helped them to effectively integrate technology into their instruction. These included participating in science lessons in which technology was modeled in the context of specific instructional approaches, collaborating with peers, and opportunities for feedback and reflection after teaching lessons. The findings of this study suggest that situated learning theory may provide an effective structure for preparing preservice teachers to integrate technology in ways that support reform‐based instruction. © 2013 Wiley Periodicals, Inc. J Res Sci Teach 50:348–379, 2013 相似文献
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This interpretive study of the teaching and learning of chemistry in an Australian high school examines the beliefs about the nature of science of a teacher and his class in relation to the enacted curriculum. Although the teacher and students tended to see science as an evolving discipline that was uncertain and changed over time, the manner in which the curriculum was implemented was a direct contrast. In the enacted curriculum science was represented as a catalogue of facts to be memorised and as algorithmic solutions to problems. The beliefs that had greatest impact on shaping the curriculum were the teachers beliefs about the nature of student learning, his beliefs about the distribution of power between himself and the students, and the extent to which restraints were accepted by the teacher as reasons for maintaining a traditional approach to teaching and learning chemistry. 相似文献
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Vicente Mellado María Luisa Bermejo Lorenzo J. Blanco Constantino Ruiz 《International Journal of Science and Mathematics Education》2008,6(1):37-62
We describe research carried out with a prospective secondary biology teacher, whom we shall call Miguel. The teacher’s conceptions
of the nature of science and of learning and teaching science were analyzed and compared with his classroom practice when
teaching science lessons. The data gathering procedures were interviews analyzed by means of cognitive maps and classroom
observations. The results reflected Miguel’s relativist conceptions of the nature of science that were consistent with his
constructivist orientation in learning and teaching. In the classroom, however, he followed a strategy of transmission of
external knowledge based exclusively on teacher explanations, the students being regarded as mere passive receptors of that
knowledge. Miguel’s classroom behavior was completely contrary to his conceptions, which were to reinforce the students’ alternative
ideas through debate, and not by means of teacher explanation. 相似文献
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The nature of science (NOS) has a prominent role among the national science education content standards at all grade levels, K–12. Results from a national survey of collegiate science educators indicate the perception that the greatest contributors to preservice teachers’ understanding of the nature of science were science methods courses, research projects, and science content courses. Implications of findings are discussed, including connections to current research concerning teacher preparation for effective NOS classroom teaching and student learning.The Nature of Science course on the authors’ campus was initiated in the early 1990s, has evolved, and remains in the required core curriculum for preservice chemistry, earth science, and physics teacher candidates. It is the capstone for NOS insights. It adds to and refines impressions garnered implicitly from science content courses, the methods course, and, for some, an undergraduate research experience. 相似文献
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In teaching science, the beliefs of teachers may come into conflict and inhibit the implementation of reformed teaching practice.
An experienced biology teacher, Mr. Hobbs, was found to have two different sets of epistemological beliefs while his classroom
practice was predominantly teacher-centered. A case study was then performed in order to investigate the underlying issues
that contributed to his classroom practice. Data sources included preliminary and follow-up interviews and classroom observations.
Data analysis indicated that factors that prevented the epistemological conflict from reaching a resolution included Mr. Hobbs’
beliefs about learning, contextual teaching factors, personal experiences as a student, and views of the nature of science.
The findings from this case indicate that science teachers possess complex belief systems that are not immediately obvious
to either the teacher or science teacher educators, and science teacher educators need to address teacher beliefs when they
encourage teachers to implement reformed teaching practices. 相似文献
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Pernilla Nilsson 《Teachers and Teaching》2013,19(2):188-201
In the context of teacher education, it could well be suggested that assessment activities that build on formative interactions between student teachers and teacher educators might offer new windows into better understanding teaching and learning. This paper presents findings from a study into a primary science teacher education initiative that seeks to build the foundations on which 24 primary science student teachers, through the use of formative assessment of their science teaching and learning, can begin developing their pedagogical content knowledge (PCK). In the project, formative assessment consists of activities used by teacher educators to stimulate interactions, self- and peer-assessment in order to provide insights into how student teachers develop their PCK during a semester. Content Representations (CoRes), were used as a tool to unpack the student teachers’ approach to teaching a science topic and the reasons for that approach. The results indicate that the use of CoRes, together with subsequent self-assessment and formative interactions with teacher educators and peers, do have the potential for PCK development for student teachers. The results further highlight the need for developing reliable and valid tools for capturing and assessing student teachers’ PCK in pre-service teacher education. 相似文献
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The study presented in this paper integrates data from four combined research studies, which are both qualitative and quantitative in nature. The studies describe freshman science student teachers' beliefs about teaching and learning. These freshmen intend to become teachers in Germany in one of four science teaching domains (secondary biology, chemistry, and physics, respectively, as well as primary school science). The qualitative data from the first study are based on student teachers' drawings of themselves in teaching situations. It was formulated using Grounded Theory to test three scales: Beliefs about Classroom Organisation, Beliefs about Teaching Objectives, and Epistemological Beliefs. Three further quantitative studies give insight into student teachers' curricular beliefs, their beliefs about the nature of science itself, and about the student- and/or teacher-centredness of science teaching. This paper describes a design to integrate all these data within a mixed methods framework. The aim of the current study is to describe a broad, triangulated picture of freshman science student teachers' beliefs about teaching and learning within their respective science teaching domain. The study reveals clear tendencies between the sub-groups. The results suggest that freshman chemistry and—even more pronouncedly—freshman physics student teachers profess quite traditional beliefs about science teaching and learning. Biology and primary school student teachers express beliefs about their subjects which are more in line with modern educational theory. The mixed methods approach towards the student teachers' beliefs is reflected upon and implications for science education and science teacher education are discussed. 相似文献
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Associate Professor Keith Skamp 《Research in Science Education》1997,27(4):515-539
It is problematic whether primary teachers benefit by completing a first degree especially when the teaching of specific subjects,
here science, is the focus of attention. This study reports the comparative results of interviewing thirteen Canadian and
ten Australian student teachers, both about to commence their Bachelor of Education. The Canadian students had completed an
initial degree while nine of the Australian students were school leavers. The interviews, which explored views about teaching
primary science, were analysed with this factor in mind. Student teacher perceptions reported include: how to recognise a
“good” primary science teacher; perceptions of self as a “good” primary science teacher; expectations of how the teacher education
program could assist their science teaching; and whether (for the Canadian students) the initial degree will help in becoming
a primary science teacher. Analysis of the interviews suggests possible influences a first degree (among other factors) may
have on perceptions related to primary science teaching and raises questions about what is the best general approach for preparing
primary teachers to teach science effectivly. 相似文献
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Dr Tim Hardy Ms Margaret Bearlin Dr Valda Kirkwood 《Research in Science Education》1990,20(1):142-151
The aim of the Primary and Early Childhood Science and Technology Education Project (PECSTEP) is to improve teaching and learning
in science and technology of by increasing the number of early childhood and primary teachers who are effective educators.
PECSTEP is based on an interactive model of teaching and systematically links work on gender with the learning and teaching
of science and technology. The project involves: a year-long inservice program which includes the development of a science
curriculum unit by teachers in their schools; linking of the preservice and inservice programs; and the development of support
networks for teachers. Each phase of PECSTEP has been researched by means of surveys, interviews and the use of diaries. Research
questions have focussed particularly on changes in: teachers’ and student teachers’ attitudes to teaching science and technology;
their perceptions of science and technology; their perceptions of their students’ responses and their understandings of how
gender relates to these areas.
Specializations: primary science curriculum, science teacher education, sociology of science, technology and education.
Specializations: gender and science/science teacher education, feminist theory, curriculum theory.
Specializations: Science education research, curriculum development. 相似文献
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We investigated the pedagogical content knowledge (PCK) of nine experienced chemistry teachers. The teachers took part in
a teacher training course on students’ difficulties and the use of models in teaching acid–base chemistry, electrochemistry,
and redox reactions. Two years after the course, the teachers were interviewed about their PCK of (1) students’ difficulties
in understanding acid–base chemistry and (2) models of acids and bases in their teaching practice. In the interviews, the
teachers were asked to comment on authentic student responses collected in a previous study that included student interviews
about their understanding of acids and bases. Further, the teachers drew story-lines representing their level of satisfaction
with their acid–base teaching. The results show that, although all teachers recognised some of the students’ difficulties
as confusion between models, only a few chose to emphasise the different models of acids and bases. Most of the teachers thought
it was sufficient to distinguish clearly between the phenomenological level and the particle level. The ways the teachers
reflected on their teaching, in order to improve it, also differed. Some teachers reflected more on students’ difficulties;
others were more concerned about their own performance. Implications for chemistry (teacher) education are discussed.
Submitted to Research in Science Education 相似文献
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Dr. Keith Skamp 《Research in Science Education》1995,25(4):395-429
Several studies have suggested that preservice teacher education has little impact on student teacher conceptions about various
facets of teaching and learning. Most of these studies refer to generic teaching and learning, and very few have related to
primary science in particular. To explore this area eight primary student teachers were interviewed on six occasions during
the first two years of their Bachelor of Teaching degree. This paper reports the findings from part of these interviews. It
describes the (sometimes changing) conceptions which these eight students held about how they would recognise a “good” teacher
of science and the people and experiences they believed influenced the formation of these views. The differential impact of
past and present teachers and the teacher education program revealed possible implications for practica and science curriculum
units in particular, if teacher education is going to have an influence on preservice teachers' conceptions about teaching
and learning. 相似文献
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Andrea Gay Van Duzor 《Journal of Science Teacher Education》2012,23(5):481-502
In many innovative science content professional development (PD) courses for teachers, science concepts are situated within pedagogical contexts, or in other words, science content is incorporated within contexts relevant to teaching and student learning. Pedagogical contexts are often used because they are believed to be engaging for teachers and to support content transfer to the classroom. However, few studies have investigated how pedagogical contexts serve to impact teacher engagement and science content learning. This qualitative case study examined K-8 in-service teachers?? interactions with pedagogical contexts in a chemistry PD course. Findings indicate that teachers??: (1) contribution of teaching experiences helped create a collegial learning environment, (2) sharing of concerns from classroom teaching directed content discussion and learning objectives, and (3) reflection on teacher and learner roles in the PD classroom led to persistence in chemistry-content learning. Implications for PD instructor use of pedagogical contexts in science content based PD are discussed. 相似文献
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Sungmin Im 《Asia-Pacific Journal of Teacher Education》2015,43(4):355-369
This paper presents findings from a study conducted in an urban elementary school in the United States with an English language learner (ELL) student and two teachers engaged in collaborative teaching in an inclusion science classroom. This study examines the efficacy of utilising cogenerative dialogues between an ELL student and his science teacher and English as second language teacher to improve instructional practices enacted during coteaching. Drawing from field notes, teacher and student interviews, and video captured during cotaught science lessons and during cogenerative dialogues between the student and his coteachers, we examined the ways in which cogenerative dialogue expands teachers’ agency to adapt curriculum and implement instructional strategies that can better meet the needs of their students. At the same time, we examined the ways in which participation in cogenerative dialogues with his teachers expanded this student’s agency as a science learner and a language learner. 相似文献
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Teaching and Learning Physics in a 1:1 Laptop School 总被引:1,自引:1,他引:0
1:1 laptop programs, in which every student is provided with a personal computer to use during the school year, permit increased
and routine use of powerful, user-friendly computer-based tools. Growing numbers of 1:1 programs are reshaping the roles of
teachers and learners in science classrooms. At the Denver School of Science and Technology, a public charter high school
where a large percentage of students come from low-income families, 1:1 laptops are used often by teachers and students. This
article describes the school’s use of laptops, the Internet, and related digital tools, especially for teaching and learning
physics. The data are from teacher and student surveys, interviews, classroom observations, and document analyses. Physics
students and teachers use an interactive digital textbook; Internet-based simulations (some developed by a Nobel Prize winner);
word processors; digital drop boxes; email; formative electronic assessments; computer-based and stand-alone graphing calculators;
probes and associated software; and digital video cameras to explore hypotheses, collaborate, engage in scientific inquiry,
and to identify strengths and weaknesses of students’ understanding of physics. Technology provides students at DSST with
high-quality tools to explore scientific concepts and the experiences of teachers and students illustrate effective uses of
digital technology for high school physics. 相似文献
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Onno De Jong 《欧洲师范教育杂志》1997,20(2):191-201
With respect to European science teacher education, a growing interest can be noticed in the idea that teachers should not be confronted with solutions to teaching problems but be given real teaching problems which are open to different interpretations. This ‘problem posing’ course strategy should pay attention to school students’ conceptions as well as existing and new (student) teachers’ conceptions. The present article deals with classroom protocol analysis as a tool for a problem posing teacher education. Some methodological aspects of the production and interpretation of this type of protocol are described. Experiences with classroom protocol analysis in the context of inservice courses in teaching and learning electrochemistry and in problem solving in chemistry are reported. The impact of the analysis method on chemistry teachers’ thinking is investigated by analysing protocols of teacher meetings. Implications for innovating science teacher education are discussed. 相似文献
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Yavuz Saka Sherry A. Southerland Julie Kittleson Todd Hutner 《Research in Science Education》2013,43(3):1221-1244
The demanding first years of teaching are a time when many teachers leave the teaching profession or discard the reform-minded practice emphasized in teacher preparation. If we are to lessen teacher attrition and more effectively support teachers during their development, a better understanding of what occurs during their induction into the profession is needed. The question that drove this research was what factors influence how a beginning science teacher negotiates entry into teaching? Specifically, we sought to understand how a beginning science teacher’s identities interact with the teaching context; how this interaction shapes his use of reform-minded teaching practice; and how the negotiation of identity, context, and practice influence a novice teacher’s employment decisions. The study involved 2 years of data collection; data included classroom and school observations, questionnaires, interviews, and teaching artifacts (such as lesson plans and assessments). The results demonstrate how conflicts in identities, institutional expectations, and personal dispositions of this novice influenced his transition in becoming a member of his school community. Implications of these interactions for teacher preparation and support are provided. 相似文献