• Title/Summary/Keyword: 과학 교사 교육

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An Use of Dilemma Episodes in Science Teacher Education (딜레마 일화를 활용한 과학 교사 교육)

  • Yoon, Hye-Gyoung
    • Journal of The Korean Association For Science Education
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    • v.25 no.2
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    • pp.98-110
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    • 2005
  • This study aims to explore the usefulness and the way of practical use of dilemma episodes in science teacher education by the responses of teachers on the given dilemma episodes and connected discussions. The research based on the idea of constructivist teacher education, the assumption that dilemmas can provide teachers with an open investigation context, an understanding of nature of science education. The dilemmas episodes in Wallace and Louden(2002) were introduced and discussed in order during graduate course to 11 elementary teachers. Perception on the reality and importance of given dilemmas differed by topics, but many of them were very similar to their experiences, brought active discussion on the issues. Some could not arouse sympathy because of cultural differences. The teachers recognized the dilemma episodes provided thoughtful reflection on their own teaching, opportunity of sharing experience and knowledge with peers, overall view for science education. Most of them gave positive opinion on the use of dilemma episodes in teacher education. Upon these teachers' responses and exploratory research experiences, some practical suggestion were made for science teacher educators.

What is Most Important in Science Class: Various Perspectives on Teaching Abilities (과학 수업에서 무엇이 가장 중요한가: 학습지도 능력에 대한 다양한 관점)

  • Han, JaeYoung
    • Journal of Science Education
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    • v.35 no.2
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    • pp.138-148
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    • 2011
  • Science class is the starting point of science education where science teacher and students meet together to teach and learn science. Therefore successful science class is the main concern of various educational partakers, such as teachers, students, parents, school administrators, and science education researchers. In order to find what is important among the teaching abilities of science teachers, a survey was conducted to the various educational partakers. As the result of survey, students chose 'progressing a lesson' and 'teacher's attitude' are important, and in-service teachers chose 'analyzing learner characteristics and curriculum' and 'teacher-student interaction' are important, while the pre-service teachers and parents chose 'teacher-student interaction' and 'progressing a lesson' are important. In addition, the school administrators chose 'setting up teaching-learning strategy' and science education researchers chose 'understanding curriculum and developing teaching-learning method' is important along with 'analyzing learner characteristics and curriculum.' In the communication on science education among different educational partakers, these result can be used as the basic information to understand the different perspectives on a science class.

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Comparison between Mentor Scientists and Teachers' Perceptions of Research Ethics Education and of Creation of an Ethical Research Environment in the Mentoring Program for the Science-Gifted Students in High School (고등학교급 과학영재를 위한 사사교육에서 수행되는 연구윤리교육과 연구환경 조성에 대한 멘토 과학자와 교사의 인식비교)

  • Lee, Jiwon;Yi, Bumjin
    • Journal of The Korean Association For Science Education
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    • v.39 no.3
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    • pp.427-439
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    • 2019
  • In this study, we investigated how scientists and teachers engaged in mentoring program are conducting research ethics education and how they are creating an ethical educational environment. A questionnaire survey was given to 32 scientists and 44 teachers conducting mentoring programs for gifted high school students. In the content of research ethics education, most of the respondents opined that they should teach against falsification, plagiarism, and fabrication. Teachers were most likely to teach ethical decision-making in each step of the research process. Most of the scientists said that they should teach how to write research note. For the difficulties, the teachers pointed out the challenging system that focuses only on college entrance exams while the scientists answered that it was difficult to recognize research ethics as the problem of the students themselves. For the teachers, the most affective factor in creating an ethical research environment is the amount of time to teach research ethics while for the scientists, it is the ethics of the mentors. For creating an ethical research environment, the teachers responded with making an atmosphere wherein failure is tolerated, and the scientists responded with increasing the degrees of freedom in results. For the difficulties of creating an ethical research environment, the teachers were constrained by research time while the scientists were pressured about the results. These results provide implications for ways to teach research ethics and for ways to create an ethical research environment in the mentoring program for science-gifted students.

The Influence of Educare Teachers' Science Education Knowledge and Attitudes Towards Science on Science Teaching Anxiety (보육교사의 과학교육지식 및 과학에 대한 태도가 과학교수 불안에 미치는 영향)

  • Kim, Hera;Chae, Jin Young
    • Korean Journal of Childcare and Education
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    • v.10 no.3
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    • pp.69-84
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    • 2014
  • The purpose of this study was to examine the influence of educare teachers' science education knowledge and attitudes towards science on science teaching anxiety. 259 teachers of young children were recruited from 19 daycare centers and the data were analyzed through frequency, percentage, Pearson's correlations using PASW 18.0 and structure equation modeling using AMOS 7.0. The findings are as follows. First, educare teachers showed more than median scores in all science education knowledge, attitude towards science and science teaching anxiety. Second, in total 57% of the variance in teachers' science teaching anxiety was accounted for by teachers' science education knowledge and attitude towards science. This result implied that teachers' science education knowledge and attitude towards science should be improved in order to reduce teachers' science teaching anxiety.

Enhancing Preservice Teachers' Science Self-Efficacy Beliefs and Pedagogical Content Knowledge (PCK) through Scientific Investigations (미국 초등교사교육 과정 과학교육방법론 수업(Science Methods Course)의 과학적 탐구 활동을 통한 예비교사들의 과학교수학습에 대한 자기 효능감 및 PCK 이해의 향상)

  • Choi, Sanghee;Lee, Young Hee
    • Journal of Korean Elementary Science Education
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    • v.34 no.4
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    • pp.406-418
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    • 2015
  • This study was designed to enhance preservice teachers' self-efficacy beliefs and pedagogical content knowledge (PCK) through scientific investigations based on current science education reforms. To do so, a science methods course was revised to include modeling effective scientific inquiry practices as well as designing and teaching scientific investigations in the K-5 practicum classrooms (Revised Science Methods Course). This study assessed the following research questions: (1) What level of PCK do preservice teachers have before and after the completion of RSMC; (2) To what extent do participants change their self-efficacy in science teaching after completing RSMC; and (3) Is there any correlation between participants' changes in self-efficacy and the level of PCK. Participants were 76 preservice teachers enrolled in a science methods course offered at a medium-sized university in the midwestern United States. This study employed the STEBI-B survey and the PCK rubric. There result of the study indicated that there was significant increase in Personal Science Teaching Efficacy (PSTE) of the participant preservice teachers after the completion of the course. Based on the PCK rubric analysis, there was a significant increase in mean scores of the post-RSMC lesson compared to those of the pre-RSMC lesson. The correlational analysis of participants showed a positive correlation between changes in self-efficacy and the level of PCK. Thus, it may be concluded that the reform-based science methods course had a positive impact on participants' self-efficacy in science teaching through correcting misconceptions, developing higher level of PCK, and modeling scientific investigation in their practicum schools.

Comparison of Perception on the Korean Gifted Education in Science among the Science Teachers of Formal Schools for the Gifted in Science, District Institutes for the Gifted Education, and General Secondary Schools (정규 과학영재학교, 교육청 영재교육원, 일반 중.고등학교 과학교사의 과학영재교육에 대한 인식 비교 연구)

  • Hwang, Jung-Hoon;Kim, Young-Min
    • Journal of Gifted/Talented Education
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    • v.19 no.3
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    • pp.697-727
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    • 2009
  • The purposes of this study are to investigate Korean science teachers' perception on the science gifted education in Korea, and to investigate if there are differences on their perception among the science teachers whose institutes are different. Their institutes are divided into three groups, which are the formal schools for the gifted in science such as Science High-School, gifted education centers attached to district education authority, and general secondary schools. For the study, 266 science teachers were sampled from the schools in Busan Metro-city, Ulsan Metro-city, and Kyoungnam Province, and then questionnaire developed by the authors were administered to them. The research results are as follows. Firstly, teachers who were going to participate in special education for the gifted in science answered affirmatively, and they thought it seemed worthwhile. On the other hand teachers who were not going to participate in it, answered negatively, mentioning shortage in specialty or extra work overload. Secondly, only the Korean Educational Development Institute was too much preferred by science teachers for teacher training institute for the gifted education in science. Therefore, it is needed to extend the teacher training institutes for the gifted education in science throughout the country. Thirdly, the perception of science teachers on the constitution of a class for the gifted in science is very different among the teachers of formal schools for the gifted in science and the teachers who teach science part time when it is needed in the district institutes for the gifted education. Finally, the perception on the aims of special education for the gifted in science is very different between the teachers who teach the gifted in science and the teachers who do not teach them.

Investigation of Teaching Practices using Smart Technologies and Science Teachers' Opinion on Their Application in Science Education (스마트기기를 활용한 과학 교사의 교수 실행과 과학교육에서 스마트교육 적용 방안에 대한 의견 조사)

  • Yang, Chanho;Jo, Minjin;Noh, Taehee
    • Journal of The Korean Association For Science Education
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    • v.35 no.5
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    • pp.829-840
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    • 2015
  • In this study, we analyzed the teaching practices of science teachers using smart technologies and investigated their difficulties in implementing smart education and their educational needs. We also studied their opinions on the application of smart technologies in science education. The participants were seven science teachers who participated in the smart education study group of a science teacher association in Seoul. We elaborated on the characteristics of smart education in science education during comprehensive analyses of instructional materials used in science classes and the initial interviews. We then analyzed the second interviews by categorizing their responses inductively. All the science teachers used the 'instant access as needed', but their interactions, simply answering students' questions, were found to be at a low level. They did not effectively use the 'collaborative interaction with SNS or wiki-based service' for the support for interactive learning. While most collected learning results of their students and provided feedback in the aspect of 'individualization according to leaner level', they were not aware of 'context, situation, and location of learners' in smart education. While all the teachers extended learning opportunities by using learning resources widely in smart education, most were not aware of 'support for self-directed learning'. Most teachers believed that smart education should be developed to help students learn interactively and in a self-directed manner. They also provided many opinions on teacher training programs and environmental support for smart education. Based on the results, some considerations for implementing smart education in science instructions effectively are discussed.

Current Status of Teacher Education Curriculum and Recruitment of General Science Teachers and Ways to Improve Them as Suggested by Professors from the Department of Science Education (공통과학 교사양성 교육과정 운영과 임용의 실태 및 과학교육계열 교수들이 제안한 개선 방안)

  • Yang, Chanho;Kwak, Youngsun;Han, Jaeyoung;Noh, Taehee
    • Journal of The Korean Association For Science Education
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    • v.33 no.2
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    • pp.345-358
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    • 2013
  • In this study, we investigated the current status of the teacher education curriculum and the recruitment of general science teachers, and the ways to improve them as suggested by Professors from the Department of Science Education. Most science education departments have not required double majors in general science, and there are wide differences in the number of students who take the general science programs. There is not any department that requires science courses other than its own science major courses when students get only their own in-depth science major certificate. A few departments provide integrated science courses such as history of science, scientific creativity, integrated science, and so forth. Most professors revealed negative perceptions toward 'a compulsory requirement of double majors in general science' with other in-depth science majors such as physics, chemistry, biology, and earth sciences. The majority of professors also suggested providing elective courses in integrated science-related subjects. Regarding general science majored teacher employment, most professors did not agree with separate employment for the general science teacher, although they agreed with the necessity of the general science teaching certificate. They also suggested that preservice teachers need to take science courses other than their own specialized science majors for the in-depth science teaching certificate. Based on the results, we suggested ways to improve the teacher education curriculum and the recruitment of general science teachers.

The perceptions on the professionalism of teaching profession and science teaching of pre-service and inservice elementary teachers (초등 예비교사와 교사의 교직 전문성과 과학교수 전문성에 대한 인식)

  • Lim, Heejun
    • Journal of Science Education
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    • v.37 no.3
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    • pp.538-549
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    • 2013
  • This study investigated the preservice and inservice elementary teachers' perceptions on professionalism of teaching profession, professionalism of science teaching, and their self-efficacy on science teaching. For this study, 64 sophomore, 53 senior preservice teachers and 23 elementary teachers who were also graduate students were participated. The questionnaires consisted of 5 Likert scaled and descriptive items about the professionalism of teaching profession, professionalism of science teaching, and self-efficacy on science teaching. The results showed that some areas of the professionalism of teaching profession had significant differences between the grades in preservice teachers and/or inservice teachers. Most preservice teachers and teachers thought that they need to have professional ability, but not a few teachers thought it was not necessary to have professionalism of science teaching as a elementary teacher, even though their major was science education. The teachers who had higher perceptions on the needs of the professionalism of science teaching showed high self-efficacy on science teaching.

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