The purpose of this study was to analyze 181 papers about brain-based learning appeared in domestic scientific journals from 1989 to May of 2012 and suggest application conditions in elementary science education. The results of this study summarizes as follows; First, learning activity suggested by brain-based learning study is mainly explained by working of brain function. Learning activity explained by brain-based learning study are divided into ‘learning according to specialized brain function, learning according to brain function integration and learning beyond specialization and integration of hemispheres’. Second, it searched how increased knowledge of brain structure and function affects learning. Analysis from this point of view suggests that brain-based learning study affects learning in many ways especially emotion, creativity and learning motivation. Third, brain-based learning study suggests various possibilities of learning activity reflecting brain plasticity. Plasticity which is one of most important characteristics of brain supports the validity of learning activity as learning disorder treatment and explains the possibility of selective increment of brain function by leaning activity and the need of whole-brain approach to learning activity. Fourth, brain-based learning brought paradigm shifts in education field. It supports learning sophistication on the understanding of student`s learning activity, guides learning method that reflects the characteristics of subject and demands reconstruction of curriculum. Fifth, there are many conditions to apply brain-based learning in elementary science education field, learning environment that fits brain-based learning, change of perspectives on teaching and learning of science educators and development of brain-based learning curriculum are needed.

1 최선영, "초등학생의 창의력, 학업성취도 및 과학관련 태도를 신장시킬 수 있는 전뇌순환학습 프로그램 개발과 적용 효과" 한국생물교육학회 31 (31): 282-291, 2003

2 임채성, "초등학교 학생이 지각한 감성 상태와 과학 학습 경험에 대한 기억의 관계" 한국생물교육학회 32 (32): 173-180, 2004

3 배진호, "초등학교 과학에서 ‘쾌적한 환경’ 단원에 대한 4MAT 학습 모형의 학습양식 유형과 두뇌 기능성 유형 분석" 한국생물교육학회 32 (32): 107-113, 2004

4 정덕호, "좌우뇌 활용 선호도에 따른 지구과학 영재들의 문제해결방식에 관한 연구" 한국지구과학회 31 (31): 172-184, 2010

5 김경철, "유아 교수-학습 원리의 뇌 과학적 의의" 한국열린유아교육학회 10 (10): 199-224, 2005

6 백중열, "우뇌 미술프로그램이 아동의 뇌 선호도와 정서지능에 미치는 효과" 한국조형교육학회 32 (32): 189-219, 2008

7 권용주, "예비교사들의 생물학 가설 생성에서 나타나는 과학적 감성의 생성 과정 유형별 두뇌 활성화에 대한 fMRI 연구" 한국과학교육학회 26 (26): 568-580, 2006

8 양수영, "영유아 뇌 기반 교육에 관한 국내 연구동향 분석" 한국교육문제연구소 30 (30): 239-265, 2012

9 권형규, "영어학습 유형별 뇌기능 활성화에 대한 정량뇌파연구" 한국데이터정보과학회 20 (20): 541-550, 2009

10 이명주, "아동기 장애에 대한 뇌과학적 접근- 읽기장애, ADHD, 자폐증을 중심으로 -" 한국특수교육문제연구소 8 (8): 153-172, 2007

11 조주연, "심상(心象)의 뇌과학적 이해와 초등 교수？학습의 방향" 한국초등교육학회 18 (18): 75-98, 2005

12 한혜민, "신경생물학 연구의 도덕과 교육에의 적용 방안 연구" 한국도덕윤리과교육학회 (26) : 215-238, 2008

13 신종호, "신경과학, 교육심리, 인지심리 연구를 통해 본 뇌기반 교육의 타당성" 교육연구소 7 (7): 87-109, 2006

14 신동훈, "생물학 가설 생성에서 나타나는 과학적 감성의 생성 과정 설명을 위한 신경 인지적 모형 개발" 한국생물교육학회 34 (34): 232-245, 2006

15 신동훈, "생명 현상에 대한 과학적 가설 생성과 수리 연산에서 나타나는 두뇌 활성: fMRI 연구" 한국과학교육학회 27 (27): 93-104, 2007

16 권용주, "생명 현상에 대한 가설 검증 방법의 고안 과정에서 나타나는 사의 두뇌 활성 - fMRI 연구" 한국생물교육학회 35 (35): 212-224, 2007

17 김재영, "두뇌기반학습원리에 기초한 초등 과학수업의 효과 -4학년 생명영역을 중심으로-" 한국생물교육학회 31 (31): 191-131, 2003

18 임채성, "뇌기반 진화적 과학 교수학습 모형의 개발" 한국과학교육학회 29 (29): 990-1010, 2009

19 강경숙, "뇌과학 이론에 기초한 장애아동의 교육적 적용 탐색" 한국유아특수교육학회 7 (7): 165-188, 2007

20 김성일, "뇌 기반 학습과학: 뇌과학이 교육에 대해 말해주는 것은 무엇인가" 한국인지과학회 17 (17): 375-398, 2006

21 김명희, "뇌 기반 교육과정 모형의 개발과 그 시사점" 한국교육과정학회 22 (22): 135-164, 2004

22 김유미, "뇌 기반 교수-학습에서 동기유발" 한국열린유아교육학회 8 (8): 93-110, 2003

23 임채성, "뇌 기반 과학 교수 학습 모형을 적용한「슬기로운 생활」수업의 효과" 한국초등과학교육학회 27 (27): 60-74, 2008

24 임채성, "뇌 기능에 기초한 과학 교수학습 : 뇌기능과 학교 과학의 정의적, 심채적, 인지적 영역의 연계적 통합 모형" 한국초등과학교육학회 24 (24): 86-101, 2005

25 김두정, "뇌 과학 : 학교 교육과 교육과정에의 시사점" 한국교육과정학회 28 (28): 127-145, 2010

26 박선형, "교육에 대한 학습과학적 접근 : 교육적 의미와 시사점 탐색" 한국열린교육학회 17 (17): 27-49, 2009

27 조선희, "과학영재와 일반학생의 뇌 활용 성향, 인지적 특성, 정서적 특성 분석" 한국생물교육학회 39 (39): 345-354, 2011

28 김용진, "과학 문제 풀이의 사고(思考) 과정에서 뇌파 분석에 의한 두뇌 기능 연구" 한국생물교육학회 31 (31): 313-319, 2003

29 김상정, "개방형 문제 활용이 수학적 창의력과 뇌기능에 미치는 효과" 한국초등수학교육학회 14 (14): 723-744, 2010

30 권용주, "가설생성 학습 후에 나타난 초등학생의 두뇌 활성 변화" 한국생물교육학회 34 (34): 72-80, 2006

31 Kwon, Y, "Why do most science educators encourage to teach school science through lab-based instruction ? : A neurological explanation" 19 (19): 27-40, 1999

32 Ryan, R. M, "When rewards compete with nature: The understanding of intrinsic motivation and self-regulation" Academic Press 2000

33 Wolfe, P, "What do we know from brain research?" 56 (56): 8-13, 1998

34 Immordino-Yang, M. H, "We feel, therefore we learn: The relevance of affective and social neuroscience to education" 1 (1): 3-10, 2007

35 OECD, "Understanding the brain: The birth of a learning science" OECD Publishing 2007

36 Kim, J, "Trends and issues in practical arts education research" 19 : 131-151, 2006

37 Miller, E. K, "The prefrontal cortex and cognitive control" 1 (1): 59-65, 2000

38 Taylor, H. G, "The neuropsychology of learning disorders" University Park Press 1976

39 Bruer, J. T, "The myth of the first three years" Free Press 1999

40 Blakemore, S-J, "The learning brain : Lessons for education" Blackwell Publishing 2005

41 Cho, J, "The human brain mechanism of ‘emotion’and directions of emotion education in the elementary school" 14 (14): 391-410, 2001

42 Cho, J, "The human brain mechanism of ‘emotion’ and directions of emotion education in the elementary school" 14 (14): 391-410, 2001

43 Kim, Y, "The evaluations of the functional state of the brain by brain wave measure during problem-Solving activities" 28 (28): 291-301, 2000

44 Park, J, "The evaluation of brain functions based on the analysis of the brainwaves during science learning" 29 (29): 365-374, 2001

45 Ha, J, "The effect of right brain training on the cognitive laterality and the mathematical problem solving" 10-11 : 55-83, 1992

46 Park, J, "The effect of right brain activities on creativity" 9 (9): 117-130, 1995

47 Jeon, Y, "The congnitive characteristic of EMR children" 3 (3): 91-112, 1989

48 Chung, J, "The concept and principal of brainbased teaching and learning" 2 : 19-39, 2010

49 Jensen, E, "Teaching with the brain in mind" ASCD 1998

50 Woo, M, "Principles of brain-based of elementary literature education" 18 : 445-469, 2005

51 Cho, J, "Principles and methodology of the brainbased creativity education" 27 : 115-141, 2001

52 Bear, M. F, "Neuroscience exploring the brain" Lippincott Williams & Wilkins 2001

53 Clement, N. D, "Neuroscience and education : Issues and challenges for curriculum" 42 (42): 534-557, 2012

54 Goswami, U, "Neuroscience and education : From research to practice?" 7 : 406-413, 2006

55 Chung, W, "Neuropsychological variables on the development of logical thinking in junior high school students" 8 (8): 105-124, 1998

56 Bainbridge, W. S, "Managing nano-bio-info-cogno innovations" Springer 2006

57 Caine, G, "Making connections : Teaching and the human brain" Dale Seymour Publication 1994

58 Jensen, E, "Introduction to brain-compatible learning" The Brain Store 1998

59 Jensen, E, "Introduction to brain-compatible learning" Sage Pubns 2007

60 Hennesey, B. A, "Intrinsic and extrinsic motivation" Academic Press 2000

61 Uemura, G. H, "Individual differences in hemispheric lateralization" University of Maine 1980

62 Cho, J, "Implication of cognitive science research on brain plasticity for the educational practice" 32 (32): 23-38, 1994

63 Jensen, E, "How Julie's brain learns" 56 (56): 41-45, 1998

64 Lee, C, "Experimental study on creativity development through training of right brain" Yeonsei University 1987

65 Choi, J, "Effects of hemispheric specialization on logical thinking and elementary school science unit achievement" 17 : 53-89, 1993

66 Song, Y, "Effects of creative promotion program through hemispheric lateralization on creativity of young children" 20 (20): 69-87, 2004

67 Choi, J, "Educational implications of cooperative learning based on brain-science" 1 (1): 129-146, 2006

68 Grady, M. P, "Education and brain Bloomington phi delta kappa educational foundation"

69 Kim, Y, "Development of a brain-cycle learning model based on the rhythmicity in brain functions and its test by brain wave's measure" 28 (28): 396-407, 2000

70 Lee, M, "Design and development of a web-based right brain training program for improvement of creativity: For elementary school lower grade students" 18 (18): 197-221, 2002

71 Katz, A. N, "Creativity and individual differences in asymmetrical cerebral hemispheric function"

72 Im, S, "Conflicts observed in developing thinking education program" 6 (6): 53-63, 1993

73 Denny, D, "Comparison of two personality tests as measures of left‐right brain cerebral hemisphere preference and creativity correlates" 18 (18): 142-146, 1984

74 Lee, J, "Cognitive science and cognitive systems" 30 (30): 9-18, 2009

75 Ansari, D, "Bridge over troubled waters : Education and cognitive neuroscience" 10 (10): 146-151, 2006

76 Lee, B, "Brain-scientific understanding and applications on basic principles of cooperative learning" Seoul National University 2002

77 Son, Y, "Brain science research on creativity and directions of creativity education" Seoul National University 2000

78 Lim, C, "Brain biological basis of cooperative learning : AIdea-sharing creation model" 25 (25): 143-155, 1997

79 Kim, Y, "An investigation of brain-based teachinglearning principles and application methods" 40 (40): 247-270, 2002

80 Park, S, "A study on the difference between symmetry and asymmetry of brain lateralization" 13 (13): 203-228, 1999

81 Kim, J, "A study on the development of elementary science curriculum based on the differentiation of brain functions" Seoul National University 2000

82 Chung, W, "A relationship between the scientific inquiry ability of the middle school students and their hemispheric lateralization" 27 (27): 35-42, 1999

83 Sylwester, R, "A celebration of neuron: An educator's guide to the human brain"