1 |
Ansari, D. & Coch, D. (2006). Bridge over troubled waters:Education and cognitive neuroscience. Trends in Cognitive Sciences, 10(4), 146-151.
DOI
ScienceOn
|
2 |
Bae, J. & Lim, C. (2004). An analysis of 4MAT system learning styles and brain specialization types in 'Pleasant Environment' unit of elementary school science. Biology Education, 32(2), 107-113.
|
3 |
Baik, J. (2008). Effect of right-brained art program on brain preference and emotional intelligence of children. Art Education Review, 32, 189-219.
|
4 |
Bainbridge, W. S. & Roco, M. C. (2006). Managing nano-bio-info-cogno innovations. Netherlands: Springer.
|
5 |
Bear, M. F., Connors, B. W. & Paradiso, M. A. (2001). Neuroscience exploring the brain. USA: Lippincott Williams & Wilkins.
|
6 |
Blakemore, S-J. & Frith, U. (2005). The learning brain:Lessons for education. Oxford: Blackwell Publishing.
|
7 |
Bruer, J. T. (1999). The myth of the first three years. NY: Free Press.
|
8 |
Caine, G. & Caine, R, N. (1994). Making connections: Teaching and the human brain. NJ: Dale Seymour Publication.
|
9 |
Cho, J. & Lee, B. (2001). The human brain mechanism of 'emotion' and directions of emotion education in the elementary school. Journal of Elementary Education Studies, 14(3), 391-410.
|
10 |
Cho, J. & Lee, W. (2005). Brain-scientific comprehension of 'imagery' and its implications for the elementary teaching-learning. The Journal of Korea Elementary Education, 16(1), 367-397.
|
11 |
Cho, J. (1994). Implication of cognitive science research on brain plasticity for the educational practice. The Journal of Seoul National University of Education, 32(2), 23-38.
|
12 |
Cho, J. (2001a). Principles and methodology of the brainbased creativity education. Journal of Student Guidance, 27, 115-141.
|
13 |
Cho, J. (2001b). The human brain mechanism of 'emotion' and directions of emotion education in the elementary school. Journal of Elementary Education Studies, 14(3), 391-410.
|
14 |
Choi, J. (2006). Educational implications of cooperative learning based on brain-science. Journal of Brain Education, 1(1), 129-146.
|
15 |
Cho, S. & Kim, M. (2011). An analysis of brain dominance, cognitive characteristics, and emotion between scientifically gifted students and general students. Biology Education, 39(3), 345-354.
DOI
|
16 |
Choe, S. & Jang, N. (2003). Development and application of the whole brain learning cycle for nurturing creativity, science achievement, science-related attitude of elementary students. Biology Education, 31(4), 282-291.
|
17 |
Choi, J. (1993). Effects of hemispheric specialization on logical thinking and elementary school science unit achievement. The Research of Science Mathematics Education, 17, 53-89.
|
18 |
Chung, D. & Park, S. (2010). A study on the problem solving styles according to left/right brain preference of earth science gifted students. Journal of the Korean Earth Science Society, 31(2), 172-184.
과학기술학회마을
DOI
ScienceOn
|
19 |
Chung, J. (2010). The concept and principal of brainbased teaching and learning. The Proceeding of The Korea Association of Yeolin Education, 2, 19-39.
|
20 |
Chung, W., Kim, Y. & Kwon, Y. (1998). Neuropsychological variables on the development of logical thinking in junior high school students. The Journal of the Institute of Science Education, 8(1), 105-124.
|
21 |
Chung, W., Lee, W. & Kim, S. (1999). A relationship between the scientific inquiry ability of the middle school students and their hemispheric lateralization. Biology Education, 27(1), 35-42.
|
22 |
Clement, N. D. & Lovat, T. (2012). Neuroscience and education: Issues and challenges for curriculum. Curriculum Inquiry, 42(4), 534-557.
DOI
ScienceOn
|
23 |
Ha, J. (1992). The effect of right brain training on the cognitive laterality and the mathematical problem solving. Journal of Education Research, 10-11, 55-83.
|
24 |
Denny, D. & Wolf, R. (1984). Comparison of two personality tests as measures of left‐right brain cerebral hemisphere preference and creativity correlates. The Journal of Creative Behavior, 18(2), 142-146.
DOI
|
25 |
Goswami, U. (2006). Neuroscience and education: From research to practice?. Nature Neuroscience Reviews, 7, 406-413.
|
26 |
Grady, M. P. (1978). Education and brain Bloomington phi delta kappa educational foundation. ERIC Document, 153-258.
|
27 |
Han, H. (2008). A study on application of neurobiological researches to moral education. The Journal of Moral & Ethics Education, 26, 215-235.
|
28 |
Hennesey, B. A. (2000). Rewards and creativity, In C. Sansone & J. M. Hara-ckiewica(eds.), Intrinsic and extrinsic motivation. NY: Academic Press.
|
29 |
Im, S. (1993). Conflicts observed in developing thinking education program. The Keimyung Journal of Behavioral Sciences, 6(1), 53-63.
|
30 |
Immordino-Yang, M. H. & Damasio, A. (2007). We feel, therefore we learn: The relevance of affective and social neuroscience to education. Mind, Brain and Education, 1(1), 3-10.
DOI
ScienceOn
|
31 |
Jensen, E. (1998a). How Julie's brain learns. Educational Leadership, 56(3), 41-45.
|
32 |
Jensen, E. (1998b). Teaching with the brain in mind. VA:ASCD.
|
33 |
Jensen, E. (1998c). Introduction to brain-compatible learning. CA: The Brain Store.
|
34 |
Katz, A. N. (1983). Creativity and individual differences in asymmetrical cerebral hemispheric function. Empirical Studies of Art, 3-16.
|
35 |
Jensen, E. (2007). Introduction to brain-compatible learning. Sage Pubns.
|
36 |
Jeon, Y. (1989). The congnitive characteristic of EMR children. The Korean Journal of Educational Psychology, 3(1), 91-112.
|
37 |
Kang, K. & Lee, M. (2007). The education application of brain science theory to students with disabilities. Korean Journal of Early Childhood Special Education, 7(3), 165-188.
|
38 |
Kim, J. & Choe, S. (2003) The effects of brain-based learning program of science on the elementary students -On the biology area of the fourth grade-. Biology Education, 31(2), 119-131.
|
39 |
Kim, J. (2000). A study on the development of elementary science curriculum based on the differentiation of brain functions. Unpublished paper, Seoul National University.
|
40 |
Kim, J., Lee, C., Nam, H. & Lee, J. (2006). Trends and issues in practical arts education research. Practical Arts Education Research, 19(special Edition), 131-151.
|
41 |
Kim, K. & Hong, J. (2005). Brain-science's significance of young children teaching-learning principle. The Journal of Korea Open Association for Early Childhood Education, 10(4), 199-224.
|
42 |
Kim, M. (2004). A brain-based curriculum development and its implication. The Journal of Curriculum Studies, 22(4), 135-164.
|
43 |
Kim, S. (2006). Brain-based learning science: What can the brain science tell us about education? Korean Journal of Cognitive Science, 17(4), 375-398.
과학기술학회마을
|
44 |
Kim, Y. (2003a). A study of the brain functions by electroencephalographic analysis in the thinking processes for science problem solving. Biology Education, 31(4), 313-319.
|
45 |
Kim, S., Kwon, Y. & Bae, J. (2010). The effects of openended problems on mathematical creativity and brain function. Journal of Elementary Mathematics Education in Korea, 14(3), 723-744.
|
46 |
Kim, Y. & Chang, N. (2000). Development of a brain-cycle learning model based on the rhythmicity in brain functions and its test by brain wave's measure. Biology Education, 28(4), 396-407.
|
47 |
Kim, Y. (2002). An investigation of brain-based teachinglearning principles and application methods. Korean Journal of Educational Research, 40(3), 247-270.
|
48 |
Kim, Y. (2003b). The motivation in brain based teachinglearning. The Journal of Korea Open Association for Early Childhood Education, 8(1), 93-110.
|
49 |
Kim, Y., Chang, N., Cho, S., Park, M., Park, J., Kim, H., Kang, K., Min, Y. & Chae, H. (2000). The evaluations of the functional state of the brain by brain wave measure during problem - Solving activities. Biology Education, 28(3), 291-301.
|
50 |
Kwon, H. (2009). Quantitative EEG research by the brain activities on the various fields of the English education. Journal of the Korean Data & Information Science Society, 20(3), 541-550.
과학기술학회마을
|
51 |
Kwon, Y. (1999). Why do most science educators encourage to teach school science through lab - based instruction ?: A neurological explanation. Journal of the Korean Association for Research in Science Education, 19(1), 27-40.
과학기술학회마을
|
52 |
Lee, B. (2002). Brain-scientific understanding and applications on basic principles of cooperative learning. Thesis (Ed. M.). Seoul National University of Education.
|
53 |
Kwon, Y., Jeong, J., Lee, J., Shin, D. & Yang, I. (2007b). Brain activities during invention of hypothesis-testing methods about biological phenomena - An fMRI study. Biology Education, 35(2), 212-224.
DOI
|
54 |
Kwon, Y., Park, J., Shin, D., Jeong, J. & Park, K. (2006). Changes of the brain activities after learning hypothesis-generation in elementary students. Biology Education, 34(1), 72-80.
|
55 |
Kwon, Y., Shin, D., Lee, J. & Yang, I. (2007a). Brain activation in generating hypothesis about biological phenomena and the processing of mental arithmetic: An fMRI study. Journal of the Korean Association for Research in Science Education, 27(1), 84-92.
|
56 |
Lee, C. (1987). Experimental study on creativity development through training of right brain. Unpublished paper, Yeonsei University of Education.
|
57 |
Lee, J. (2009). Cognitive science and cognitive systems. Communications of the Korean Institute of Information Scientists and Engineer, 30(12), 9-18.
과학기술학회마을
|
58 |
Lee, M. & Ahn, J. (2002). Design and development of a web-based right brain training program for improvement of creativity: For elementary school lower grade students. Journal of Educational Technology, 18(2), 197-221.
DOI
|
59 |
Lee, M., Ahn, S., Kim, H. & Seo, Y. (2007). Brain science approach of childhood disorder -Reading disability, ADHD and autism-. The Journal of Special Education, 8(1), 153-172.
|
60 |
Lim, C. & Oh, Y. (2004). Relationships between the emotional states perceived by elementary school children and their memory on science learning experiences. Biology Education, 32(2), 173-180.
|
61 |
Lim, C. (1997). Brain biological basis of cooperative learning: AIdea-sharing creation model. Biology Education, 25(2), 143-155.
|
62 |
Lim, C. (2005). A brain-based approach to science teaching and learning: A successive integration model of the structures and functions of human brain and the affective, psychomotor, and cognitive domains of school science. Journal of Korean Elementary Science Education, 24(1), 86-101.
과학기술학회마을
|
63 |
Lim, C. (2009). Development of a model of brain-based evolutionary scientific teaching for learning. The Journal of Korea Association Science Education, 29(8), 990-1010.
과학기술학회마을
|
64 |
Lim, C., Ha, J., Kim, J. & Kim, N. (2008). The effects of a brain-based science teaching and learning model on intelligent life course of elementary school. Journal of Korean Elementary Science Education, 27(1), 60-74.
과학기술학회마을
|
65 |
Miller, E. K. (2000). The prefrontal cortex and cognitive control. Nature Neuroscience Reviews, 1(1), 59-65.
DOI
ScienceOn
|
66 |
OECD (2007). Understanding the brain: The birth of a learning science. Paris: OECD Publishing.
|
67 |
Park, J. & Chang, N. (2001). The evaluation of brain functions based on the analysis of the brainwaves during science learning. Biology Education, 29(4), 365-374.
|
68 |
Park, J. & Ha, J. (1995). The effect of right brain activities on creativity. Journal of Educational Psychology, 9(1), 117-130.
|
69 |
Park, S. (2009). Towards developing learning sciences of education. The Journal of Yeolin Education, 17(3), 27-49.
|
70 |
Park, S. (1999). A study on the difference between symmetry and asymmetry of brain lateralization. Journal of Educational Psychology, 13(1), 203-228.
|
71 |
Ryan, R. M. & Deci, E. L. (2000). When rewards compete with nature: The understanding of intrinsic motivation and self-regulation. San Diego, CA, US: Academic Press.
|
72 |
Shin, D. (2006). Development of neurocognitive models for explaining the generating process of scientific emotion in the generation process of biological hypothesis. Biology Education, 34(2), 232-245.
|
73 |
Shin, D. & Kwon, Y. (2006). Brain activities by the generating-process-types of scientific emotion in the pre-service teachers' hypothesis generation about biological phenomena: An fMRI study. Journal of the Korean Association for Research in Science Education, 26(4), 568-580.
과학기술학회마을
|
74 |
Shin, J., Cho, Y., Lee, K. & Lee, H. (2006). Study on the validity of brain-based learning evaluated through research in educational psychology and cognitive neuroscience. Asian Journal of Education, 7(4), 87-109.
|
75 |
Son, Y. (2000). Brain science research on creativity and directions of creativity education. Thesis(Ed. M.), Seoul National University of Education.
|
76 |
Song, Y. & Lee, Y. (2004). Effects of creative promotion program through hemispheric lateralization on creativity of young children. Journal of Education Development, 20(1), 69-87.
|
77 |
Sylwester, R. (1995). A celebration of neuron: An educator's guide to the human brain. VA: ASCD.
|
78 |
Wolfe, P. & Brandt, R. (1998). What do we know from brain research?. Educational Leadership, 56(3), 8-13.
|
79 |
Taylor, H. G. (1976). Learning disabilities. Prevalence estimates and the need for definition. In Knight, R., & Bakker, D. J. (Ed). The neuropsychology of learning disorders. Baltimore: University Park Press.
|
80 |
Uemura, G. H. (1980). Individual differences in hemispheric lateralization. Unpublished Ph.D. dissertation, University of Maine, Oreno, ME.
|
81 |
Woo, M. (2005). Principles of brain-based of elementary literature education. Literary Education, 18, 445-469.
|
82 |
Yang, S. (2012). The trend in domestic research on the brain-based education for early childhood. Korean Education Inquiry, 30(1), 239-265.
|
83 |
Kim, D. (2010). Brain science: Its implications for education and the school curriculum. The Journal of Curriculum Studies, 28(3), 127-145.
DOI
|