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    과학과 미술 통합프로그램이 초등과학영재의 뇌 활성에 미치는 효과 = The Effects of Science and Art Integrated Program on Brain Activity of Gifted Students in Science

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    https://www.riss.kr/link?id=A99902457

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    This study is to activate gifted students` brains for creativity ability and also an integrated science and art teaching program. The learning programs integrating science and art, which have 30 periods and 10 topics on art and the knowledge of science, were developed dependant on five steps - observing, having interests and curiosity, experimental designing and performing, internalizing, and expressing in an arts-based manner. This programs were applied to 20 senior gifted students in Y Elementary School in Gyeonggi province, by one group pretest-posttest design. The results from these integrated programs of science and art are as follows: First, in the performance of science tasks, prefrontal lobe(F7, FT7) of left brain increase the relative power of theta wave, whereas in the performance of drawing tasks increase the relative power of beta wave in prefrontal lobe(FP1) of left brain, bilateral frontal(F7, F3, Fz, F4, F8, FT7, FC3, FCz), bilateral temporal(T7, TP7, TP8, P7), parietal lobe of left brain(CP3, CPz, P3, Pz), bilateral occipital(O1, Oz, O2). Second, in the performance of science tasks, the relative power of beta wave activity in the left temporal lobe(T7) of the brains of talented students in science significantly decreased whereas it was greatly activated in another part, the left frontal lobe(F3) of the brain (p<.05). Third, in the performance of drawing tasks, the relative power of theta wave activity in five areas of the brain, namely the left temporal lobe(T7), the left frontal lobe(F3), the right frontal lobe(F4), and the left and right parietal lobes of gifted students in science who took the course of the integrated programs, was considerably increased statistically(p<.05). On top of that, these programs were especially effective in balancing the symmetrical development of both cerebral hemispheres by multiplying theta wave activity in the frontal lobes(F3, F4) and the parietal lobes(CP3, P3, P4), which are particularly related to creative thinking. According to the results of this study of brain-based teaching strategies combining science and art, it is an effective program to develop overall activate gifted students` brains for creativity ability. This is expected to be utilized to activate the brain areas for creativity of gifted students in science.
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    This study is to activate gifted students` brains for creativity ability and also an integrated science and art teaching program. The learning programs integrating science and art, which have 30 periods and 10 topics on art and the knowledge of scienc...

    This study is to activate gifted students` brains for creativity ability and also an integrated science and art teaching program. The learning programs integrating science and art, which have 30 periods and 10 topics on art and the knowledge of science, were developed dependant on five steps - observing, having interests and curiosity, experimental designing and performing, internalizing, and expressing in an arts-based manner. This programs were applied to 20 senior gifted students in Y Elementary School in Gyeonggi province, by one group pretest-posttest design. The results from these integrated programs of science and art are as follows: First, in the performance of science tasks, prefrontal lobe(F7, FT7) of left brain increase the relative power of theta wave, whereas in the performance of drawing tasks increase the relative power of beta wave in prefrontal lobe(FP1) of left brain, bilateral frontal(F7, F3, Fz, F4, F8, FT7, FC3, FCz), bilateral temporal(T7, TP7, TP8, P7), parietal lobe of left brain(CP3, CPz, P3, Pz), bilateral occipital(O1, Oz, O2). Second, in the performance of science tasks, the relative power of beta wave activity in the left temporal lobe(T7) of the brains of talented students in science significantly decreased whereas it was greatly activated in another part, the left frontal lobe(F3) of the brain (p<.05). Third, in the performance of drawing tasks, the relative power of theta wave activity in five areas of the brain, namely the left temporal lobe(T7), the left frontal lobe(F3), the right frontal lobe(F4), and the left and right parietal lobes of gifted students in science who took the course of the integrated programs, was considerably increased statistically(p<.05). On top of that, these programs were especially effective in balancing the symmetrical development of both cerebral hemispheres by multiplying theta wave activity in the frontal lobes(F3, F4) and the parietal lobes(CP3, P3, P4), which are particularly related to creative thinking. According to the results of this study of brain-based teaching strategies combining science and art, it is an effective program to develop overall activate gifted students` brains for creativity ability. This is expected to be utilized to activate the brain areas for creativity of gifted students in science.

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    참고문헌 (Reference)

    1 김용진, "학습 활동의 뇌파분석에 기초한 두뇌순환 학습모형의 개발과 과학학습에의 적용" 서울대학교 대학원 2000

    2 권석원, "초등학교 과학 영재아의 뇌파 기반 변별 척도 개발" 한국초등과학교육학회 25 (25): 556-566, 2007

    3 김용진, "창의적 과학문제 해결에서 초등학교 과학영재아와 보통아의 뇌파 활성 차이" 한국생물교육학회 33 (33): 23-32, 2005

    4 강호감, "창의력 계발을 위한 자연과 교수학습자료 개발과 적용" 21 (21): 89-101, 2001

    5 전영민, "정신생리학" 학지사 1997

    6 崔善永, "전뇌학습 프로그램이 초등학생의 창의력, 자연과 학업성취도, 과학적 태도 및 학습양식에 미치는 효과" 서울大學校 大學院 1999

    7 하종덕, "우뇌기능 훈련이 뇌의 인지특성 및 수학적 문제해결력에 미치는 효과" 31 (31): 1993

    8 권용주, "분류 지식의 생성과 이해 형태 학습을 통한 학생들의 두뇌활성 변화" 한국과학교육학회 30 (30): 487-497, 2010

    9 콘래드 G. 뮐러, "라이프/인간과 과학시리즈" 타임라이프 북스 1978

    10 김대식, "뇌파 검사학" 고려의학 2001

    1 김용진, "학습 활동의 뇌파분석에 기초한 두뇌순환 학습모형의 개발과 과학학습에의 적용" 서울대학교 대학원 2000

    2 권석원, "초등학교 과학 영재아의 뇌파 기반 변별 척도 개발" 한국초등과학교육학회 25 (25): 556-566, 2007

    3 김용진, "창의적 과학문제 해결에서 초등학교 과학영재아와 보통아의 뇌파 활성 차이" 한국생물교육학회 33 (33): 23-32, 2005

    4 강호감, "창의력 계발을 위한 자연과 교수학습자료 개발과 적용" 21 (21): 89-101, 2001

    5 전영민, "정신생리학" 학지사 1997

    6 崔善永, "전뇌학습 프로그램이 초등학생의 창의력, 자연과 학업성취도, 과학적 태도 및 학습양식에 미치는 효과" 서울大學校 大學院 1999

    7 하종덕, "우뇌기능 훈련이 뇌의 인지특성 및 수학적 문제해결력에 미치는 효과" 31 (31): 1993

    8 권용주, "분류 지식의 생성과 이해 형태 학습을 통한 학생들의 두뇌활성 변화" 한국과학교육학회 30 (30): 487-497, 2010

    9 콘래드 G. 뮐러, "라이프/인간과 과학시리즈" 타임라이프 북스 1978

    10 김대식, "뇌파 검사학" 고려의학 2001

    11 임채성, "뇌 기반 과학 교수학습 모형의 개발 : 뇌기능과 학교 과학의 정의적․심체적․인지적 영역의 연계 통합 모형" 29 (29): 1-29, 2005

    12 김형석, "과학창의력 신장을 위한 '일상생활 소재 다중 활동' 중심의 6~7학년 '재량활동' 프로그램 개발과 효과 탐색" 한국초등과학교육학회 23 (23): 344-356, 2004

    13 황요한, "과학영재의 창의성 신장을 위한 CNP 모형의 개발과 적용" 한국영재학회 20 (20): 847-866, 2010

    14 조선희, "과학고학생과 외국어고학생의 지능과제 수행 시 뇌활동성 분석" 한국영재학회 22 (22): 317-332, 2012

    15 김은선, "공간 능력을 활성화하는 과학 활동이 초등학생의 공간 능력과 창의성에 미치는 효과" 한국초등과학교육학회 30 (30): 178-181, 2011

    16 권용주, "가설생성학습 후에 나타난 초등 예비교사의 뇌파 변화" 한국초등과학교육학회 25 (25): 159-166, 2006

    17 Knauff, M., "Visual imagery can impede reasoning" 30 : 363-371, 2002

    18 Levine, P. H., "Transcendental meditation and the science of creative intelligence" 54 (54): 231-235, 1972

    19 Holz, E. M., "Theta-gamma phase synchronization during memory matching in visual working memory" 52 (52): 326-335, 2010

    20 Raghavachari, S., "Theta oscillations in human cortex during a working-memory task : Evidence for local generators" 95 (95): 1630-1638, 2006

    21 MacLean, P. D., "The triune brain in evolution" Plenum Press 1990

    22 Toni, I., "The time course of changes during motor sequence learning; a whole-brain fMRI study" 8 (8): 50-61, 1998

    23 Hanslmayr, S., "The relationship between brain oscillations and BOLD signal during memory formation : A combined EEG-fMRI study" 31 (31): 15674-15680, 2011

    24 Amabile, T. M., "The personality of creativity" 15 (15): 12-16, 1986

    25 Haier, R. T., "Structural brain variation and general intelligence" 23 : 425-433, 2004

    26 Sperry, R. W., "Some effects of disconnecting the cerebral hemispheres" 217 : 1223-1227, 1982

    27 Jensen, O., "Reading the hippocampal code by theta phase-locking" 9 (9): 551-553, 2005

    28 Andreassi, J. L., "Psychophysiology : Human behavior and physiological response" Lawrence Erlbaum Associates 1989

    29 Mazard, A., "Neural impact of the semantic content of visual mental images and visual percepts" 24 (24): 423-435, 2005

    30 Melamed, F., "Language and task effects on lateralized word recognition" 45 (45): 70-85, 1993

    31 Guderian, S., "Induced theta oscillations mediate large-scale synchrony with mediotemporal areas during recollection in humans" 15 (15): 901-912, 2005

    32 Seger, C. A., "How do the bascal ganglia contribute to categorization? Their roles in generalization, response selection, and learning via feedback" 32 (32): 265-278, 2008

    33 Sauseng, P., "Fronto-parietal EEG coherence in theta and upper alpha reflect central executive functions of working memory" 57 (57): 97-103, 2005

    34 Pfurtscheller, G., "Eventrelated synchronization(ERS)in the alpha band-An electrophysiological correlate of cortical idling : A review" 24 : 39-46, 1996

    35 Klimesch, W., "Episodic and semantic memory : An analysis in the EEG theta and alpha band" 91 (91): 428-441, 1994

    36 Price, J. F., "Education and the science of creative intelligence" 17 (17): 28-37, 1974

    37 Harmony, T., "EEG delta activity: an indicator of attention to internal processing during performance of mental tasks" 24 (24): 161-171, 1996

    38 Fernández, T., "EEG activation patterns during the performance of tasks involving different components of mental calculation" 94 (94): 175-182, 1995

    39 Kawasaki, M., "Dynamic links between theta executive functions and alpha storage buffers in auditory and visual working memory" 31 : 1683-1689, 2010

    40 Bhattacharya, J., "Drawing on mind's canvas: differences in cortical integration patterns between artists and non-artists" 26 : 1-14, 2005

    41 Bub, D. N., "Different modes of word recoginition in the left and right visual fields" 33 (33): 161-188, 1988

    42 Warach, S., "Decreases in frontal and parietal lobe regional cerebral blood flow related to habituation" 12 (12): 546-553, 1992

    43 Miller, R., "Cortico-hippocampal interplay and the representation of contexts in the brain" Springer 1991

    44 Fitzgibbon, S. P., "Cognitive tasks argument gamma EEG power" 115 : 1802-1809, 2004

    45 Shemyakina, N. V., "Changes in the power and coherence spectra of the EEG rhythmic components during solution of a verbal creative task of overcoming a stereotype" 33 (33): 524-530, 2007

    46 Sylwester, R., "A celebration of neurons: An educator's guide to the human brain" Association for Supervision and Curriculum Development 1995

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    2026 평가 재인증평가 신청대상 (재인증)
    2020-01-01 등재 등재학술지 유지 (재인증) KCI등재
    2017-01-01 등재 등재학술지 유지 (계속평가) KCI등재
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    2016 1.21 1.21 1.35
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