• Journal of Gifted/Talented Education
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• v.13 no.3
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• pp.45-68
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• 2003

The purpose of this research is to find out the usefulness of the Mentorship program for gifted science students. The usability has been proved by the results from a survey of a group of mentorship education students. Among those surveyed some are the students a gifted science education institute in university. Students have improved their own study ability, creative problem solving ability by performing the experiment planning on their own, and presented their papers through Mentorship program, and it is possibly observed that they have their own dignity as scientist by performing the actual science activities. Also, with the result of the survey, the effectiveness of the Mentorship program is very positive onto the students. Mentorship program is one of the educational method to widen the students' experience chances, and the depth of thought, and improve the scientific ability and creative problem solving ability.

• Journal of Gifted/Talented Education
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• v.14 no.4
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• pp.93-112
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• 2004

Mentorship as an enrichment program as well as a promising educational method in the 21st century for the gifted students in science provides young scientists with opportunities to develop their abilities and attitudes regarding research. Kyungnam Institute of Gifted Education in Science (KIGES) has run mentorship program for five years. Many advantages of mentorship program for the science gifted students are reviewed including those of KIGES. A mentorship model for future student research programs is proposed as a way to facilitate the process of mentorship.

• Journal of Gifted/Talented Education
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• v.17 no.1
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• pp.123-143
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• 2007

In this study, intelligence and creativity of students selected for the mentorship program at the Science-gifted Education Center were tested and those levels were related to the examination for the mentorship program. Diverse psychometric tests(WAIS, RAPM, TTCT-verbal, TTCT-figural) were administered to the students in both courses(biology course: n=19, physics course: n=21) at the Science-gifted Education Center. Students selected for the mentorship program had high intelligence scores(WAIS IQ>98%). On the other hand, their creativity scores were not as high as their intelligence scores. In the correlation analysis between those scores and examinations for the mentorship program, examination for the biology program was correlated with WAIS and TTCT-verbal, whereas that for the physics program was correlated with RAPM. These results show that students for the mentorship program have higher score in intelligence than in creativity and the examination for the mentorship program tests mainly intelligence. Thus, educational effort should include an emphasis on the assessment of creativity.

• Journal of Science Education
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• v.35 no.1
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• pp.48-58
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• 2011

This study was performed to develop a model for mentorship education in the science education institute for the gifted. Existing mentorship education models were focused on R&E, which involved science high school students as research participants. For this purpose, a new model was proposed with comparatively definite stages and terms, and based on the theoretical background concerning science inquiry abilities and scientific creativities or the mentorship education in the science education institute for the gifted. Existing mentorship models for science-gifted students were analyzed and compared with the scientific inquiry process and science paper form. A science paper form consisting of four stages was selected. A new model was constructed consisting of six stages, and this model was modified to be made fit for application to students in the physics mentorship course at the science education institute for the gifted in K National University. Good points and improvable points of the model through the application were identified, and the model was modified accordingly. In conclusion, a new model was proposed as a mentorship model for science-gifted students. This model was constructed using the PREPARATION-INTRODUCTION-METHOD-RESULT-CONCLUSION-FINISH format.

• Journal of Gifted/Talented Education
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• v.23 no.2
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• pp.275-287
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• 2013

The purposes of this study were to inquire the status of academic integrity of the student in mentorship program at a science gifted institute attached to university and to seek the teaching plan of academic integrity. We administered questionnaire to 51 students who passed the enterance exam of mentorship program at the science gifted institute in 2013. The questionnaire consisted of three topics, 1) using reference, 2) purchasing, deputizing & plagiarizing of homework, 3) cooperative learning. As results of survey, students have a ethic in the following order: 'purchasing, deputizing & plagiarizing of homework', 'using reference', and 'cooperative learning'. Especially, the lack of conscious about 'cooperative learning' turned out to be a problem, because students have to research by cooperative learning during mentorship program. And there was no significant correlation between each topic. Finally, there was no correlation between ethical knowledge and degree of practicing it.

• Communications of Mathematical Education
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• v.35 no.1
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• pp.119-136
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• 2021

We performed the research and education programs using engineering tools such as Mathematica, Microsoft Excel and GeoGebra for the students in mathematics mentorship program of the institute of science education for the gifted. We used the engineering tools to solve the problems and found the rules by observing the solutions. Then we generalized the rules to theorems by proving the rules. Mathematica, the professional mathematical computation program, was used to calculate and find the length of the repeating portion of the repeating decimal. Microsoft Excel, the spreadsheet software, was used to investigate the Beatty sequences. Also GeoGebra, the dynamic geometric software, was used to investigate the Voronoi diagram and develop the Voronoi game. Using GeoGebra, we designed the Voronoi game plate for the game. In this program, using engineering tools improved the mathematical creativity and the logical thinking of the gifted students in mathematics mentorship program.

• Journal of the Korean School Mathematics Society
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• v.16 no.3
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• pp.621-636
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• 2013

In this paper we intended to present the case of mentorship program for the gifted in elementary mathematics education, which is related with Waldorf education. We installed the program to four six-grade students during six months. We focused on cultivating integrated perspective, aesthetic perspective and substantial skills. For the aim we dealt with the item, construction based on the aesthetic experiences. Finally we presented three main ideas, construction of regular polygons and flowers, construction of islamic design, and farmland cleanup with construction. We also contained the students' project in this paper.

• The Mathematical Education
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• v.53 no.4
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• pp.479-492
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• 2014

According to Krutetskii, the education of mathematically gifted students must be focused on the improvement of creative mathematical ability and the mathematically gifted students need to experience the research process like mathematician. Independent study is highly encouraged as the self-directed activity of highest level in the learning process which is similar to research process used by experts. We conducted independent study as a viable differentiation technique for gifted middle school students in the 3rd grade, which participated in mentorship program for 10 months. Based on the data through the research process, interview with a study participant and his parents, and his blog, we analyzed mathematical behavior characteristics of a study participant. This behavior characteristics are not found in all mathematically gifted students. But through this case study, we understand mathematically gifted students better and furthermore obtain the message for the selection and education of the mathematically gifted students and for the effective method of running mentorship program particularly.

• STI Policy Review
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• v.1 no.4
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• pp.1-20
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• 2010

This paper explores the role of entrepreneurship education in a modern economy and how the government, academic, and nonprofit sectors in the United States have responded to this growing field. There are several sectors that play important roles in the entrepreneurship education landscape in the United States. Over the past decade, there has been increasing participation of Federal and state governments. This recent trend suggests the field may be increasing in maturity and legitimacy, showing promise for expanding the reach of entrepreneurship education programs. Programs sponsored by nonprofit organizations and private foundations complement government initiatives and display an effective means of leveraging knowledge and resources across the relevant sectors. Thus, new initiatives, whether initiated by government or academia, should learn from the successes of this sector as well as be carefully considered within the context of existent programs and services. Nonetheless, the potentially dynamic environment of the entrepreneurship education field in the United States offers a specific opportunity to leverage the experience in mentorship activities at the post-secondary education to address a possible gap in these activities at the secondary education level.

• The Journal of Korean Association of Computer Education
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• v.19 no.4
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• pp.45-58
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• 2016

This paper tried to analyze cases of one year team-based project of gifted students who spent two year programs in a math-IT integrated class as part of formative evaluation and extracted the factors associated with future enhancement for the program. The researcher as an advisory professor tried to guide the students as minimally as possible considering their levels of IT skills so that they could self-directedly perform the IT-fused project on a team basis. The data collection included documents, annual report, photos, video, artifacts and interview data with the students for the whole team project carried out between February and December, 2015. The overall pattern of the project activities has been stabilized in the middle of the course compared to the initial stages of brainstorming and design work even though the students revealed the differences of their programming skills and preferences toward the project theme. Their project outcomes were qualitatively analyzed according to the 9 steps of R&E model and has shown individual differences according to low, middle and high level. At the end, the analysis suggested several implications for further improvement of the mentorship program.