• The Mathematical Education
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• v.36 no.1
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• pp.1-10
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• 1997

수학교육에서 목표지향형 평가는 교육목표를 세분화시키고 목표한 평가 기준에 성취해야할 최저 수준에 입각해서 하는 평가이다. 일반적으로 수학교육의 목표에는 문제해결능력의 향상, 새로운 지도법의 개발, 교과과정의 개발 및 그 교과목의 시행과 추천하고자하는 평가법, 자력에 의한 발전적인 문제 해결지도와 수학적 사고력 향상에 있으며 그런 사고력 검정을 위한 문제 출제 및 문제 변별력 측정, 문제 해결 시도를 위한 효과적인 지도법의 개발 등은 모두 수학과의 목표지향형 평가의 개선에 유익한 시도로 인정되고 있다.(중략)

• Communications of Mathematical Education
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• v.18 no.1 s.18
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• pp.19-25
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• 2004

초등학교에서 고학년으로 갈수록 수학에 대한 흥미가 떨어지고 수학을 기피하는 학생들을 많이 볼 수 있다. 그러한 아동들의 대부분은 수학에 대한 어려움을 많이 호소하고 있는데 특히 비정형화된 문제들을 대할 때엔 그 현상은 더욱 심각하다. 초등학교 수학 교과서의 마지막 단원은 '문제 푸는 방법 찾기' 단원인데, 이 단원에 제시된 문제들은 대체로 비정형화된 문제들이다. 정형화된 문제에 익숙한 아동들은 이러한 비정형 문제들을 해결하는 데에 상당히 어려움을 나타내곤 한다. 본교에서는 이러한 아동들의 어려움을 해결할 수 있는 방안으로 협력학습을 택하였다. 또래들과의 상호작용 속에서 비정형화된 문제에 보다 친숙하게 접근하고 해결해 나가는 과정을 반복하다 보면 수학에 대한 흥미를 되찾게 되고, 문제 해결력과 수학적 사고력이 향상될 것으로 기대된다.

• Journal of Elementary Mathematics Education in Korea
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• v.5 no.1
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• pp.77-98
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• 2001

This study has a purpose to find out how the problem posing activity by presenting the problem situation effects to the mathematical problem solving ability. It was applied in two classes(Experimental group-35, Controlled group-37) of the fourth grade at ‘D’ Elementary school in Bang Jin Chung nam and 40 Elementary school teachers working in Dang Jin. The presenting types of problem situation are the picture type, the language type, the complex type(picture type+ language type), the free type. And then let them have the problem posing activity. Also, We applied both the teaching-teaming plan and practice question designed by ourself. The results of teaching and learning activities according to the type of problem situation presentation are as follows; We found out that the learning activity of the mathematical problem posing was helpful to the students in the development of the mathematical problem solving ability. Also, We found out that the mathematical problem posing made the students positively change their attitude and their own methods for mathematical problem solving.

• School Mathematics
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• v.11 no.4
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• pp.665-683
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• 2009

The purpose of this study is to improve forward mathematics study by analyzing the effects of the teaching and learning process applied situation-based mathematical problem posing activity on problem solving ability and mathematical attitudes. For this purpose, the research questions were established as follows: 1. How the situation-based mathematical problem posing activity(WQA activity) changes the problem solving ability of students? 2. How the situation-based mathematical problem posing activity(WQA activity) changes the mathematical attitudes of students? The results of the study were as follows: (1) There was significant difference between experimental group and comparative group in problem solving ability. This means that situation-based mathematical problem posing activity was generally more effective in improving problem solving ability than general classroom-based instruction. (2) There was not significant difference between experimental group and comparative group in mathematical attitudes. But the experimental group's average scores of mathematical attitudes except mathematical confidence was higher than comparative group's ones. And there was significant difference in the mathematical adaptability. The results obtained in this study suggest that the situation-based mathematical problem posing activity can be used to improve the students' problem solving ability and mathematical attitudes

• Communications of Mathematical Education
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• v.31 no.1
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• pp.125-147
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• 2017

The purpose of this study was to investigate the effects of mathematics-centered STEAM program which was operated in free semester system classes on middle school students' interest in science, technology/engineering, and mathematics(STEM) career and integrated problem solving ability. The study was conducted with 40 first graders in a middle school for 12 weeks using mathematics-centered STEAM program developed for the use of free semester system classes by the support of the Ministry of Education/KOFAC in 2016. According to the results of STEM career interest survey, mathematics-centered STEAM program was effective for improving middle school students' interest in STEM career. And it was also effective in the development of students' integrated problem solving ability.

• Journal of Elementary Mathematics Education in Korea
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• v.19 no.3
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• pp.347-370
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• 2015

The purpose of this study is to examine the effects of mathematical modeling activities on mathematical problem solving abilities and mathematical dispositions in elementary school students. For this study, we administered mathematical modeling activities to fifth graders, which consisted of 8 topics taught over 16 classes. In the results of this study, mathematical modeling activities were statistically proven to be more effective in improving mathematical problem solving abilities and mathematical dispositions compared to traditional textbook-centered lessons. Also, it was found that mathematical modeling activities promoted student's mathematical thinking such as communication, reasoning, reflective thinking and critical thinking. It is a way to raise the formation of desirable mathematical dispositions by actively participating in modeling activities. It is proved that mathematical modeling activities quantitatively and qualitatively affect elementary school students's mathematical learning. Therefore, Educators may recognize the applicability of mathematical modeling on elementary school, and consider changing elementary teaching-learning methods and environment.

• Journal of the Korean School Mathematics Society
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• v.14 no.2
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• pp.163-178
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• 2011

The mathematics curriculum revised in 2007 includes 'problem fabrication'. So it is necessary to analyse the texts how much they include problem fabrication. In mathematics, problem fabrication and problem solving interact and stimulate each other. Also the main purpose of problem fabrication is to improve the students' problem solving. There are 16 different texts of grade 7 algebra which contain problems concerning 'problem fabrication'. We count the number of such problems in each sections. Also we divide problem fabrication into five types. Then we count the number of problems in each type and its frequencies in a section.

• Journal of Elementary Mathematics Education in Korea
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• v.1 no.1
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• pp.1-16
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• 1997

Children should have opportunities to experience problem solving individually with strategies for developing their problem solving abilities. To make an instructional design for individual teaming, problem solving activities were classified into categories like individual activities, individual activities within a group, and team teaching. A flow of teaching and teaming process was designed before, and concrete and semi-concrete materials were used in an experimental teaching, which was analysed in this research.

• Communications of Mathematical Education
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• v.23 no.1
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• pp.73-83
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• 2009

Mathematics Olympiad aims to identify and encourage students who have superior ability in mathematics, to enhance students' understanding in mathematics while stimulating interest and challenge, to increase learning motivation through self-reflection, and to speed up the development of mathematical talent. Participating mathematical competition, students are going to solve a variety of types of mathematical problems and will be able to enlarge their understanding in mathematics and foster mathematical thinking and creative problem solving ability with logic and reasoning. In addition, parents could have an opportunity valuable information on their children's mathematical talents and guidance of them. Although there should be presenting diversified mathematical problems in competitions, the real situations is that resent most mathematics Olympiads present mathematical problems which narrowly focus on types of solving problems. In order to diversifying types of problems in mathematics Olympiads and making mathematics popular, this study will discuss a Olympiad for problem solving ability, a Olympiad for exploring mathematics, a Olympiad for task solving ability, and a mathematics fair, etc.

• Communications of Mathematical Education
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• v.18 no.1 s.18
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• pp.191-199
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• 2004

본 연구에서는, 6년 전에 개발된 수학 창의적 문제 해결력 검사(MCPSAT; 한국교육개발원(김흥원 외, 1997))에 대한 현시점의 적합성여부를 알아보기 위하여 이 검사의 중학교 1-3학년용 A형 1부 검사와 고등학교 1-2학년용 A형 1부 검사를 해당 학년 학생들에게 적용하여 분석하였다. 검사도구의 양호도는 비교적 좋은 것으로 나타났다. 즉, 중학교와 고등학교 모두 문항 내적 일관성 신뢰도(Cronbach ${\alpha}$)의 계수가 약간 떨어져 있지만 비교적 양호한 것으로 볼 수 있으며 변별도는 점이연 상관 계수가 0에 가까운 문항이 없는 것으로 나타났다. 따라서 모든 문항이 학생들의 수학 창의적 문제 해결력을 변별해 줄 수 있을 것으로 생각한다. 내적 타당도는 중학교의 경우 관대하게 본다면 수용할 만 하고, 고등학교의 경우 아직은 우려할 수준은 아니다. 즉, 중학교 문항 1과 문항 4는 적합도 지수 1.2를 상회하였으나 Infit과 Outfit 모두 1.5를 넘는 문항은 없었다. 고등학교의 문항 4는 문항의 적합도 지수 1.2를 상회하는 것으로 나타나고 있으나 Infit과 Outfit 모두 1.2를 상회하지 않았다. 난이도 측면에서 볼 때, 이 검사의 계속 사용은 염려스러운 면이 있다. 즉, 중학교에서는 6년 전 보다 쉬운 것으로 나타나고 있는 바 이것은 현재의 학생들이 이러한 유형의 문항을 많이 접하였을 것으로 추측할 수 있다. 고등학교에서는 6년 전 보다 조금 더 어려워 졌다고 볼 수 있다. 위의 사항을 종합할 때, 수학 창의적 문제 해결력 검사에서 중학생용은 현재의 학생들의 수준을 고려하여 재 표준화하는 것이 바람직하고, 고등학생용은 개발 당시의 신뢰도, 난이도, 변별도 등에서 유사하므로 당분간 계속 사용하여도 될 것이다.