• Title/Summary/Keyword: Instruments of classroom

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Role and Characteristics of Digital Inquiry Instruments in Respect of Affordance :Focused on Science Inquiry Activity (어포던스 관점에서 살펴본 디지털 탐구도구의 역할과 특징: 과학탐구 활동 사례를 중심으로)

  • 손미현;조영환;정대홍
    • School Science Journal
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    • v.12 no.2
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    • pp.274-286
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    • 2018
  • The role of instruments in scientific inquiry is very important. As science and technology develop, science inquiry instruments are also changing. IoT-based inquiry tools and output data, which are newly introduced in science inquiry class, can play a role in reaching the goal of scientific inquiry. The aim of this study is to find the appropriateness of digital inquiry instruments based on Kirschner and Kreijns (2004).T he students who participated in this study were 8 middle school students located in Seoul and they investigated the quality of classroom air. During the four months of the inquiry activity, we had participant observation and retrospective interviews. We recorded the data, analyzed it, and coded it in terms of educational affordance. As a result, there are four educational affordance of digital inquiry instruments. First, it stimulates students' interest and motivation to learn basic knowledge for data processing, because digital inquiry instruments deals with real-life data. Second, the digital inquiry instruments as a complex sensor made a big data so it serves as an affordance that leads to hypothetical hypotheses. Third, because of the features and limitations of the digital inquiry instruments itself, it shapes and limits the design of the science inquiry method. Fourth, since the data is measured in real time, the amount of data is enormous. So the digital inquiry instruments serves as an affordance of increasing the information processing competence to analyze data. In order for science inquiry activities based on digital inquiry tools to be activated, various policy and economic supports are needed, such as the science environment, the contents of the software, software training, and guided learning materials.

Planning and Preparing for Portfolio Assessment in Elementary Science Classes (초등 과학 포트폴리오 평가 도구 개발 연구)

  • 김찬종;윤선아;최승희;홍은석;김명수;여원미;김미숙;김순영;이주슬
    • Journal of Korean Elementary Science Education
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    • v.17 no.1
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    • pp.11-21
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    • 1998
  • Portfolio assessment provides many opportunities to foster children's creativity and to increase their responsibility for learning. few research study has been conducted in this area, and this assessment method has scarcely been administered in primary science class, Proper and effective use of portfolio assessment in our primary science class requires basic research on how to design and administer the method. Based on the earlier study on typical structures and components of portfolio assessment, the assessment instrument was developed on various primary science topics, The development team was consisted of one science education specialist and nine pre-service elementary school teachers. It takes ten months to develop instruments for 27 class hours. The development process was reciprocal in that development and revision cycle was repeated more than 7 times. The portfolio assessment instruments consist of instructional objectives, developers' evidence for the objectives, and assessment criteria. Adopting a new way of assessment into science class inevitably causes lots of confusions to teachers and children. The absence of basic research studies must be a critical barrier for successful administration of a new assessment method such as portfolio assessment. further research is required in the preparation and administration of portfolio assessment in our primary science classroom.

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The Influence of the repeated learning of moving picture materials applying 'the development of mathematical power' program on The Self-Directed Learning (수학적 힘의 신장 프로그램을 적용한 교실 수업 동영상 자료 반복 학습이 자기 주도적 학습에 미치는 영향 - 수학 I 을 중심으로 -)

  • Byun Kyung-Hae
    • Communications of Mathematical Education
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    • v.20 no.2 s.26
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    • pp.295-326
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    • 2006
  • Despite the importance of mathematics education, many students in high school have lost their interests and felt difficulties and they don't have 'mathematical' experience with meanings attached because of the entrance examination. This paper attempted to resolve these problems and find the teaching-method with which students can study by themselves with more confidence. Nowadays students' use of Internet is very popular. After develop 'the development of mathematical power' program based on mathematics history, history, science, the application of problems in real world, and self-evaluation, I made students repeat them after making teaching lessons in classroom as moving pictures. Through this processes, I attempted to develop the Self-Directed Learning' ability by making public education substantial. First of all I analyzed the actual conditions on 'Self-Directed Learning' ability in mathematics subject, the conditions of seeing and hearing in Internet learning program, and students' and their parents' interests in Internet education. By analyzing the records, I observed the significance of the introducing mathematics history in mathematics subject in early stager, cooperative-learning, leveled-learning, self-directed learning, and Internet learning. Actually in aspect of applying 'the development of mathematical power' program, at first I made up the educational conditions to fix the program, collected the teaching materials, established the system of teaching-learning model, developed materials for the learning applying Internet mail and instruments of classroom, and carried out instruction to establish and practice mathematics learning plan. Then I applied the teaching-learning model of leveled cooperation and presentation loaming and at the same time constructed and used the leveled learning materials of complementary, average, and advanced process and instructed to watch teaching moving pictures through Internet mail and in the classroom. After that I observed how effective this program was through the interest arid attitude toward mathematics subject, learning accomplishment, and the change of self-directed learning. Finally, I wrote the conclusion and suggestion on the preparation of conditions fur the students' voluntary participation in mathematics learning and the project and application on 'the development of mathematical power' program and repeated learning with the materials of moving pictures in classroom.

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A Study on the Relations Between Mothers' and Teachers' Perception of Temperament and Child's Adjustment to Preschool (어머니와 교사가 지각한 아동의 기질 및 유치원 적응간의 관계연구)

  • Lee, Hee Sun
    • Korean Journal of Child Studies
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    • v.15 no.2
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    • pp.117-128
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    • 1994
  • The purpose of the study was to examine the relations between mothers' and teachers' perceptions of temperament and children's adjustment to preschool. The subjects were 115 4~5 years old children. The instruments were the Parent Temperament Questionnaire and the Preschool Adjustment Questionnaire. The data were analyzed with t-test, Pearson's r and multiple regression. It was found that there were differences between mothers and teachers in perception of child's temperament. Children who were well adjusted in the preschool classroom were perceived by their teachers as being high in adaptability, activity and responsivity and by mothers as being high in adaptability.

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Proposing Evaluation Procedures for Blended Instruction

  • OH, Eunjoo
    • Educational Technology International
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    • v.12 no.2
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    • pp.47-70
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    • 2011
  • The purpose of this paper was to develop evaluation procedures for blended instruction, focusing on the courses that are currently offered in the university. This study analyzed current evaluation procedures and instruments and suggested redesign the evaluation process for blended instruction. The evaluation procedures are designed based on the combination of objective-oriented and consumer-oriented evaluation approaches. It includes three stages: front-end (screening), formative evaluation, and summative evaluation. During the front-end evaluation stage, information regarding students' technology skills and attitudes towards online instruction and classroom instruction are suggested to collect and plan the instructional strategies accordingly. The formative evaluation is conducted during the semester to collect students' opinions about the course and instructors modify their instruction based on the evaluation results. At the end of semester, summative evaluation is to be conducted to collect the data to improve the course. Evaluation questions and components for each stage are developed to collect the data such as students' perceptions of the course, the usefulness of online instructional materials, the effectiveness of blended learning strategies, and students' satisfaction with the course.

The Children's Verses as the Teaching/Learning Strategies in Science Education for Elementary Students and Teachers (초등학생과 예비$cdot$현직 초등교사에 대한 과학 교수학습 전략으로서 과학동시의 활용)

  • Kwon Nan-Joo
    • Journal of Korean Elementary Science Education
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    • v.24 no.5
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    • pp.487-494
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    • 2005
  • The purpose of study was to introduce and propagate the children's verses as the teaching/learning strategies in science education far elementary students and teachers. 238 pre-service teachers, 140 in-service teachers and 602 elementary students wrote the own verses and read colleague's verses with respect to science. In this situation, the writing was considered as creation and the reading was reception and appreciation for the verses. When they wrote the verses, the themes were not restricted except that they were related to science. Mostly, the subjects were something about science concepts, scientific phenomena or experimental instruments, etc. In addition, this study investigated the merits and demerits of the reading/writing activities of children's verses as the teaching/learning strategies in science classroom.

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A study on the classroom application of observation assessment of mathematics assessments (수학 학습 평가에서의 관찰평가 현장 적용에 관한 연구)

  • Lee, Keum Sun;Huh, Nan;Yang, Seong Hyun;Son, Jung Hwa;Jo, Hyun Gong;Lee, Jang Ju;Kim, Hae Yoon;Kang, Ok Ki
    • Journal of the Korean School Mathematics Society
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    • v.16 no.2
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    • pp.289-318
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    • 2013
  • This study was conducted to provide practical ways to apply observation assessments in classrooms. Observation assessments have been asserted to assess elements of mathematical processes which cannot be effectively assessed in traditional paper-and-pencil tests. In order to propose the ways for teachers to actively use observation assessment of mathematics assessments, relevant instruments were developed by analyzing a number of related theories. The observation assessments were applied in classroom settings and the results of this application were analyzed. The findings from this study are expected to suggest beneficial implications for teachers who are interested in practicing observation assessments in classrooms.

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A Study of Valid Measurement in Science Related Attitude(I) (과학 관련 태도의 타당한 측정을 위한 연구(I))

  • Woo, Jong-Ok;Lee, Kyung-Hoon
    • Journal of The Korean Association For Science Education
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    • v.15 no.3
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    • pp.332-348
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    • 1995
  • The use of attitude as a psychological concepts dates back to 1918(Thomas and Znaniecki). Assessment of attitudes has been conducted by a number of researchers since then in a wide range of contexts: religion, government, industry, community interrelations, and education; and sociology and psychology. In science, the number of research summaries and meta-analyses points to the significance of the concept of attitude toward science. However, in spite of the wide spread use of attitude assessment in science, many of the existing instruments have severe limitations. Those limitations serve as the rationale for the construction of a new instrument to assess attitudes toward science The term "attitude" and "science" are somewhat ambiguous, taking on different meanings for different people in different contexts. Very often an assessment includes several dimensions of attitude and, therefore, provides no clear idea of what was really measured. As a result there is no consistency with respect to the construct among attitude instruments. To clarify this issue, Gauld(1982), Munby(1983a, 1983b), Blosser(1984) and Haladyna and Shaughnessy(1982) offer some guiding descriptions. Attitude as it relates to science is divided into two areas-scientific attitude and attitude toward science. Scientific attitude refers to a particular approach a person assumes for solving problems, for assessing ideas and information, and for making decisions. It includes such scientific methods and predispositions as objectivity, suspended judgement, critical evaluation, and skepticism. Munby(1983a, 1983b) characterized scientific attitude as thinking as scientists do, that is, acting on evidence in a disciplined way. Attitude toward science. on the other hand, may address scientific attitudes, scientists, scientific careers, methods of teaching science, scientific interests, parts of curriculum, or the subject of science in the classroom (Blosser,1984). It may refer to belief about processes, theoretical products, technological products, or the science-technology relationship (Munby, 1983).

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The Development of Analysis Instrument on Science Laboratory Instruction (과학 실험 수업 분석 도구 개발)

  • Yang Il-Ho;Jeong Jin-Woo;Hur Myung;Kim Young-Shin;Kim Jin-Soo;Kim Min-Kyung;Choi Hyun-Dong;Oh Chang-Ho
    • Journal of Korean Elementary Science Education
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    • v.24 no.5
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    • pp.504-517
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    • 2005
  • The purpose of this study was to develop an instrument for analysing elementary secondary school, and university science laboratory instructions. The categories of this analysis instrument were instituted through literature overviews and interactions with three researchers in a science classroom analyst team, a doctoral student, and eight master level students, who participated in the process of modification of the analysis instruments on the science laboratory instructions. The contents areas were divided into three categories: aims of laboratory activities, interactions, and scientific inquiry processes. Each category contains $2\~3$ items. So the instrument consisted of 20 subcategories. The validity of the this instrument was achieved through checking with 4 science education specialists.

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Developing an Instrument for Analysing Students' Behavioral Engagement in School Science Classroom (과학수업에서 나타나는 학생들의 행동적 참여 분석을 위한 영상 분석 도구의 개발)

  • Choi, Joonyoung;Na, Jiyeon;Song, Jinwoong
    • Journal of The Korean Association For Science Education
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    • v.35 no.2
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    • pp.247-258
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    • 2015
  • Students are engaged in classroom learning, and classroom learning occurs not only through conversation but also through nonverbal behavior. In science classrooms especially, there are meaningful nonverbal behaviors such as practical activities like observation and measurement. But these behaviors have not been properly investigated by existing instruments that try to measure students' engagement. This study aims to develop a new instrument for analyzing students' behavioral engagement especially in science classrooms. The method of developing the instrument was structured along three steps. First, student behaviors have been classified into fourteen categories through literature review and a series of observation of elementary science classroom. Second, based on these, a framework for analyzing student behavioral engagement has been developed. With the framework, every student moment could be labeled as Participatory Speech or Participatory Silence or Non-Participatory Speech or Non-Participatory Silence. Third, an instrument to which the framework is applied has been developed by using Microsoft Excel. As a trial, two fourth-grade students in elementary science class were analyzed with this instrument. The results of the trial analysis shows that the longest period of a science lesson was occupied by Participatory Silence (63% and 72%). Among the participatory silence, 'listening' was the most common (51% and 42% of the trial lesson) and 'observing' which is a specific behavior to science was the fourth position (17% and 17% of the trial lesson). It is expected that the developed instrument could be used in improving our understanding of the patterns of student engagement in science classrooms.