• 한국과학교육학회지
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• 제37권6호
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• pp.1051-1061
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• 2017

이미지는 대상에 대해 자신이 경험한 종합적인 결과이며 의식의 표면에 갖고 있는 심상을 의미한다. 교과에 대한 이미지는 그 교과를 학습하는 데 중요한 영향을 미친다. 학습자들이 갖고 있는 교과에 대한 이미지 분석은 교수 학습의 방향성을 결정하는 좋은 자료가 될 것이다. 이 연구의 목적은 물리 이미지 측정도구를 개발하고 적용하여 교육적 시사점을 논의하는 데 있다. 연구 방법은 의미분석법에 의해 물리 이미지 측정도구를 개발하고, 중등 예비 물리교사에게 적용한다. 연구 대상은 사범대학교 물리교육 전공 1학년 39명, 2학년 31명, 3학년 37명, 4학년 38명이고, 전체 남학생은 82명, 여학생은 63명 총 145명이다. 연구결과 물리 이미지 측정도구는 '관심', '느낌', '범위', '평가', '관점'의 5개 요소, 25문항으로 구성되었다. 개발한 물리 이미지 측정도구를 중등 예비교사들에게 적용한 결과 성별, 학년별에 따라 요소별로 통계적인 유의미한 차이가 나타났다. 물리 이미지의 '관심', '느낌' 요소에서 남학생이 여학생 보다 통계적으로 유의미하게 높게 나타났다. 학년별에서는 물리 이미지의 '범위' 요소에서 2학년이 4학년보다 통계적으로 높은 것으로 나타났다. 끝으로 물리 이미지 측정도구 활용의 유용성 및 물리 이미지 분석에 대한 교육적 시사점을 논의하였다.

• 한국가정과교육학회지
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• 제4권1호
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• pp.87-95
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• 1992

The purpose of this study is to suggest how we can get over the difficulties of practical drill under experimentation concerning the units of making clothes in the curriculum of home economics. The import of this study was based on the results of the preceding studies the field of the making Korean clothes, from the standpoint of the teaching tools and teaching materials by the use of VTR, is one of the most insufficient. On the one hand, the teaching procedure here a VTR, running 34 minutes or so, was made up with the process of making Korean men’s slacks, and was led by the researcher’s own. The contents of the lesson are as follows： the shape of Korean clothes, the name of each part, the process of drawing, cutting and sewing, and the items of evaluation and arrangement. On the other hand, the two comparative groups were made to compare one with the other： One group was taught by help of VTR media, and the other by the model performance and explanation of the instructor’s own. All of the statistical data were analyzed in terms of SPSS/PC, and t-verification was made, to make difference between the two, after standard deviation was calculated according to the classified domains. The consequences of the test research are shown as below： 1. The difference of understanding was obviously made in considering that the group made a better score than the comparative one in understanding to process of making Korean clothes. 2. The difference of skill was highly made in considering that the group made a better score than the comparative one in the practical drill of making Korean clothes. 3. The difference of interests was evidentally made in considering that the group made a better score than the comparative one in the stage of making Koran clothes. Such means that the motivation and attitude of the learners was made stimulate by the Audio-Visual material than by the traditional cramming method. 4. The difference of frequency was fairly made in considering that the experimeatal group made a better score than the comparative one in the frequency of individual teaching. 5. The difference of the efficiency of time-consumption was clearly made in considering that the experimental group made a better score than the comparative one. As the results of the research above, the medium of VTR proved to more effective to the achievement of schoolwork and the strategies of teaching. Therefore, more use of VTR media will help the instructors with the difficulties of practical drill in the whole process of making Korean clothes； Widely use of VTR media in teaching will be surely more fruitfull to the unit of making Korean clothes than teaching by explanation.

• International Journal of Internet, Broadcasting and Communication
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• 제12권4호
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• pp.232-237
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• 2020

Given the recent pace of development and expansion of Artificial Intelligence (AI) technology, the influence and ripple effects of AI technology on the whole of our lives will be very large and spread rapidly. The National Artificial Intelligence R&D Strategy, published in 2019, emphasizes the importance of artificial intelligence education for K-12 students. It also mentions STEM education, AI convergence curriculum, and budget for supporting the development of teaching materials and tools. However, it is necessary to create a new type of curriculum at a time when artificial intelligence curriculum has never existed before. With many attempts and discussions going very fast in all countries on almost the same starting line. Also, there is no suitable professor for K-12 students, and it is difficult to make K-12 students understand the concept of AI. In particular, it is difficult to teach elementary school students through professional programming in AI education. It is also difficult to learn tools that can teach AI concepts. In this paper, we propose an educational model for elementary school students to improve their understanding of AI through play or experience. This an experiential education model that combineds exploratory learning and discovery learning using multi-intelligence and the PLAY teaching-learning model to undertand the importance of data training or data required for AI education. This educational model is designed to learn how a computer that knows only binary numbers through UA recognizes images. Through code.org, students were trained to learn AI robots and configured to understand data bias like play. In addition, by learning images directly on a computer through TeachableMachine, a tool capable of supervised learning, to understand the concept of dataset, learning process, and accuracy, and proposed the process of AI inference.

• 정보교육학회논문지
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• 제16권4호
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• pp.439-450
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• 2012

본 연구는 정보통신기술의 발달에 따른 초등교사에 대한 사회적 요구를 반영하고 대학 강의의 질을 개선하기 위하여 컴퓨터 교과교육에서 웹 2.0 기반의 문제중심학습을 통합 적용하고 그 효과를 확인하고자 하였다. 학습자들은 4회에 걸쳐 문제중심학습을 수행하였다. 그 학습 과정은 클라우드 환경의 구글 오피스를 이용하여 작성하였으며, PBL 과정 및 결과에 관한 경험을 반성 저널에 작성하였다. 학습자들의 문제 해결 과정과 반성저널은 질적 분석 방법을 통하여 분석하였으며 그 결과는 다음과 같다. 웹 2.0 기반의 문제중심학습은 컴퓨터교과교육에 대한 이해의 증진, ICT 활용 능력의 향상, 웹 2.0 기반의 교수 학습 전략의 습득, 그리고 수행평가로서 e-포트폴리오를 경험하는 등 21세기 교사에게 필요한 역량을 향상시킬 수 있었다.

• 한국수학교육학회지시리즈A:수학교육
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• 제37권1호
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• pp.87-99
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• 1998

Mathematics education is very important in future because mathematics is the basis of every study, for example, natural and social science, etc. Our nation wide curriculum has been revised six times since 1948. In 1992, the sixth revision was enforced and we are using the revised textbook now. This study aims at helping of continuous investigation for educational curriculum and textbook, and aims at efficient teaching by preventing unnecessary repetition and excessive gap in real field by analyzing the articulation of Analytics part in school textbook from elementary to high school. This thesis consists of the followings. 1.Investigation of the principles and natures of articulation along with curriculum course and notice the articulation based on the analysing tools. 2.Importance of learning functions. 3.To get the propriety, formation of 8 judging group and classification of content materials in function chapters by the judges based on the analyzing tools. 4.Analysis of presentation method and terminologies in the first concepts, suggestion teaching method to reduce gap and help of understanding on first concepts in the study of function. As a result 'development' consists of 55.8% of the total and it is higher than 'duplication' and 'gap'. To be specific in periods, between elementary school and middle school 'development' takes 64.5% and this shows an acceptable articulation in the period. While 39.4% of 'gap' in articulation between middle school and high school looks high compared with 'gap' between the previous periods. The item suggested with the 'gap' is the 'definition of function', 'value of function', 'parallel translation', 'exponential and logarithmic function'. It is observed that these materials is suddenly appeared in high school.

• Korean Journal of Mathematics
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• 제21권4호
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• pp.503-521
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• 2013

지난 20여 년간 선형대수학 교수학습과정에서 공학적 도구의 필요성이 지속적으로 제기되어 왔으며 실제 선형대수학 교재를 통하여 관련된 다양한 도구가 소개되었다. 그러나 한국 대학의 선형대수학 교육에서는 다양한 현실적인 이유로 도구 활용이 미진하였다. 따라서 오랜 기간 선형대수학의 이론 교육에만 치중한 경향이 있다. 본 논문에서는 한국의 대학수학교육 부분 중 공학적 도구 도입에서 제기되는 문제점과 어려움을 모두 해결할 수 있는 대안을 구체적으로 제시한다. 그리고 실제 대학수학교육에서 공학적 도구의 활용이 이루어진 모델의 하나로 Sage를 이용하여 개발한 선형대수학 웹 콘텐츠와 행렬계산기를 소개한다. 이를 활용하면 교육현장에서 선형대수학의 대부분의 개념을 언제, 어디서나 사용가능한 무료 도구와 함께 직관적으로 이해하고, 시각화 및 대용량 계산을 수시로 편리하게 수행하며 학습할 수 있다. 더구나 다루는 행렬의 크기를 자연스럽게 변형 및 확대할 수 있다. (http://sage.skku.edu/static/mc.html)

• 한국학교수학회논문집
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• 제25권4호
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• pp.333-352
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• 2022

본고는 초등수학을 기반으로 첨단기술및 ICT교구를활용한 초등융합교육자료의 개발에 대한 사례 연구이다. 본 연구에서는 초등현장 교육전문가 6인이 준비-개발-개선의 PDI 모형에 따라 융합교육 자료를 개발하였고, 개발된 자료는 수학, 과학, 미술, 공학 과목의 교과교육전문가 4인에 의해서 수정·보완하였다. 개발된 융합교육 자료는 초등 3~4학년군에서 활용 가능한 『그래프! 과거, 현재, 미래를 이어주는 다리』 의 1종이고, 5~6학년군은『알쏭달쏭, 같은 듯 다른 너!』 , 『함께 만드는 가상현실 입체 공간』의 2종이며, 초등 3~4학년군과 5~6학년군에서 학년군별로 재구성해 사용 가능한 『그리고 만드는 재미있는 도형 나라』 , 『거북선 지붕을 빈틈없이 덮어라!』 의 2종이었다. 본 개발 연구의 결과를 기반으로 한 제언은 다음과 같다. 초등교육 현장에서 원활한 융합교육을 수행할 수 있도록 다양한 융합교육 자료가 개발 공유되어야 하며, 나아가 앞으로 융합교육의 확산과 정착을 위해서는 현장 초등 교사나 예비 초등 교사들의 융합교육 역량의 함양 및 신장이 절대적인 선결 조건일 것이다.

• 정보교육학회논문지
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• 제15권1호
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• pp.101-109
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• 2011

대부분의 로봇 학습도구가 성적 및 사교육능력이 우수한 집단 학생들의 창의성교구로 사용되고 있으며 아직, 재량활동시간 등의 정규교과 수업에 접목하여 사용되고 있지 않다. 본 연구는 비교적 저렴한 라인트레이서를 교구로 사용하여 학업성취도가 평균 이하인 초등학생 5학년들이 정규교과목과 연계하여 로봇학습을 할 수 있도록 12차시 분량의 교육과정과 교재를 개발하였다. 최적성을 확인하기 위해 학업성취 수준이 학년 평균 이하의 학생들을 대상으로 학습시킨 후 평가하였다. 각 차시별 학습결과를 산출물 중심으로 성취수준을 평가한 결과로 학업성취도가 낮은 학생들이 대부분의 교육과정 내용을 충분히 이해하는 수준으로 평가되었으며 본 연구에서의 실행경험을 통해 학업성적이 비교적 낮은 초등학생들이 정규교과 과정과 연계한 로봇교육 성공 가능성을 확인하였다.

• 한국학교수학회논문집
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• 제1권1호
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• pp.151-163
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• 1998

In mathematics education, teaching-learning activity can be divided largely into the understanding the mathematical concepts, derivation of principles and laws, acquirement of the mathematical abilities. We utilize various media, teaching tools, audio-visual materials, manufacturing materials for understanding mathematical concepts. But sometimes we cannot define or explain correctly the concepts as well as the derivation of principles and laws by these materials. In order to solve the problem we can use the computer. In this paper, character and movement state of various quadratic function graph types can be used. Using the computers is more visible than other educational instruments like blackboards, O.H.Ps., etc. Then, students understand the mathematical concepts and the correct quadratic function graph correctly. Consquently more effective teaching-learning activity can be done. Usage of computers is the best method for improving the mathematical abilities because computers have functions of the immediate reaction, operation, reference and deduction. One of the important characters of mathematics is accuracy, so we use computers for improving mathematical abilities. This paper is about the program focused on the part of "the quadratic function graph", which exists in mathematical curriculum the middle school. When this program is used for students, it is expected the following educational effect. 1, Students will have positive thought by arousing interests of learning because this program is composed of pictures, animations with effectiveness of sound. 2. This program will cause students to form the mathematical concepts correctly. 3. By visualizing the process of drawing the quadratic function graph, students understand the quadratic function graph structually. 4. Through the feedback, the recognition ability of the trigonometric function can be improved. 5. It is possible to change the teacher-centered instruction into the student-centered instruction. For the purpose of increasing the efficiencies and qualities of mathmatics education, we have to seek the various learning-teaching methods. But considering that no computer can replace the teacher′s role, tearchers have to use the CIA program carefully.

• Asian Journal of Atmospheric Environment
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• 제10권3호
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• pp.156-161
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• 2016

In order to deal with current environmental issues and their backgrounds, further development of current teaching methods and tools are essential. The result of questionnaire performed in this study indicates that the effect and the change of the perception of power generation in Japan after the great disaster of East Japan have caused many students (both high school and college students) to become interested in the energy situation. In the present study, we made an attempt to develop a model instrument of a thermal power plant that can be applied as a teaching tool for understanding of air pollutant forming as well as power generation. Our novel model tool consists of a body (30 cm width, 21 cm depth, and 41 cm height), a combustion chamber, two motors, a boiler, a voltmeter, and a chimney for measurement of exhaust gas. Using our novel hand-made power plant, we carried out some model experiments with learners (i.e. high school and college students). Through model experiments, students can be experienced not only about power generation but also about generation of air pollutants. In order to estimate the applicability of our novel instrument as an educational tool, we carried out the questionnaires before and after model experiments. More than 80% of educatees reported that it was very useful as a teaching tool for energy and environmental education. The results of questionnaires indicated that learners achieved a very deep understanding of the principles of power generation and the forming of air pollutants.