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Rabu, 04 April 2018

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Anat Baniel- Movement, Learning & Brain Plasticity - YouTube
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Movement in learning is a teaching method based on the concept that humans learn better through movement. This teaching method can be applied to students, who should have the opportunity throughout a class period to move around to take "brain breaks" to refocus their attention so they can learn new material. Brain research suggests that physical activity prior to class (in PE for example) and during class, increases students' ability to process and retain new material. This is a new and controversial development in education, and, to date, has little research and empirical data to support this trend. However, anecdotal evidence regarding the benefits of incorporating movement in the classroom is promising.


Video Movement in learning



Applications in the classroom

Ideally students should be getting physical activity before they try to learn new material. Exercise shapes our muscles along with strengthening the areas of the brain. This activity helps grow brain cells and increases alertness. In fact, the harder the task you ask of students, the greater the cerebellar activity (Ivry, 1997). However, if it is not possible for students to have physical activity before you class, there are many ways to get students out of their seats and moving during a class period. Students can get out of their seats to turn an assignment in or to pick up a handout. You could have students stand up to share their answers to questions posed by the teacher. After they have shared their answers with each other they may sit down. If students are acting tired and drowsy a teacher could give students a quick break to stand up and stretch. Once they get out of their seats and move around for a bit they will act more alert. Students that struggle to stay focused or are seen as disruptive can benefit greatly from movement in the classroom.

Younger students can benefit from a variety of activities that get them moving and also reinforce what they are learning. Brain based learning supports the use of movement in learning. According to the University of Wisconsin at Stevens Point, a core principal of brain-based learning states, "Learning engages the whole body. All learning is mind-body: movement, foods, attention cycles, and chemicals modulate learning." Another core principal states, "Complex learning is enhanced by challenge and inhibited by stress. Another state,"Enrichment: The brain can grow new connections at any age. Challenging, complex experiences with appropriate feedback are best. Cognitive skills develop better with music and motor skills. (Dï Arcangelo)" The U.S. National Institute of Health as well as the Mayo Clinic list exercise and movement as a way to decrease stress levels. Elementary aged children can only absorb 15 to 20 minutes worth of material at a time. Taking brain breaks is a win-win situation. Students can learn during these brain breaks plus return to a task renewed and energized.

Also try Drums Alive Academic Beats for ideas that will help in science, and math lessons.

Simple movements can have the ability to improve cognition in just seconds (Krock & Hartung, 1992) Chart: Sample movements and classroom applications

Additional Benefits for Special-Needs Learners Many special-needs learners are stuck in counterproductive mental states, and movement is a quick way to change them, movements, such as those involved in playing active games, will activate the brain across a wide variety of areas. A study by Reynolds and colleagues (2003) found that children with dyslexia were helped by a movement program. Those in the intervention group showed significantly greater improvement in dexterity, reading, verbal fluency, and semantic fluency than did the control group. The exercising group also made substantial gains on national standardized tests of reading, writing, and comprehension in comparison with students in the previous year.


Maps Movement in learning



See also

  • Psychomotor learning

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References and further reading

  • Brain Breaks - Original for elementary classrooms from the Michigan Dept. of Education
  • Brain Breaks - 2005 for elementary classrooms from the Michigan Dept. of Education
  • Take 10! from the International Life Sciences Institute Research Foundation
  • Dr. John Ratey Harvard Brain Researcher
  • Naperville Central High School- Movement and Learning Website
  • WikEd page of Movement in Learning
  • Pumping Up The Brain, CBS News February 4, 2009
  • Moran, C. (2008, March 11). Runners add a dash of fitness to school day. The San Diego Union-Tribune. Retrieved March 26, 2008, from [1]
  • Courchesne, E., & Allen, G. (1997). Prediction and preparation, fundamental functions of the cerebellum. Learning and Memory, 4, 1-35.
  • Chaouloff, F. (1989). Physical exercise and brain monoamines: A review. Acta Physiologica Scandinavica, 137, 1-13.
  • Desmond, J., Gabrielli, J., Wagner, A., Ginier, B., & Glover, G. (1997). Lobular patterns of cerebellar activation in verbal working-memory and finger tapping tasks as revealed by functional MRI. Journal of Neuroscience, 17(24), 9675-9685.
  • Flanagan, J. R., Vetter, P., Johansson, R. S., & Wolpert, D. M. (2003). Prediction preceded control in motor learning. Current Biology, 13, 146-150
  • Fordyce, D. E., & Wehner, J. M. (1993). Physical activity enhances spatial learning performance with an associated alteration in hippocampal protein kinase C activity in C57BL/6 and DBA/2 mice. Brain Research, 619(1-2), 111-119.
  • Greenough, W. T., & Anderson, B. J. (1991). Cerebellar synaptic plasticity: Relation to learning versus neutral activity. Annals of the New York Academy of Science, 627: 231-247
  • Ivry, R. (1997). Cerebellar timing systems. International Review of Neurobiology, 41, 555-573.
  • Jensen, E. (2000). Moving with the brain in mind. Education leadership, 58(3): 34-37
  • Jensen, E. (2005). Teaching with the brain in mind (Revised 2nd ed.)Chapter 4: Movement and Learning. Alexandria, VA: Association for Supervision and Curriculum Development. Retrieved from http://www.ascd.org/publications/books/104013/chapters/Movement-and-Learning.aspx
  • Kempermann, G. (2002). Why new neurons? Possible functions for adult hippocampal neurogenesis. Journal of Neuroscience, 22(3), 635-638.
  • Kesslak, J., Patrick, V., So, J., Cotman, C., & Gomez-Pinilla, F. (1998). Learning upregulates brain-derived neurotrophic factor messenger ribonucleic acid: A mechanism to facilitate encoding and circuit maintenance. Behavioral Neuroscience, 112(4), 1012-1019.
  • Krock, L. P., & Hartung, G. H. (1992). Influence of post-exercise activity on plasma catecholamines, blood pressure and heart rate in normal subjects. Clinical Autonomic Research, 2(2), 89-97.
  • Schmahmann, J. D. (1997). The cerebellum and cognition, 1st edition. International Review of Neurobiology, ISBN 9780123668417
  • Middleton, F., & Strick, P. (1994). Anatomical evidence for cerebellar an basal ganglia involvement in higher brain functions. Journal of Science 226(5184): 458-461
  • Reynolds, D., Nicolson, R. I., & Hambly, H. (2003). Evaluation of an exercise-based treatment for children with reading difficulties. Dyslexia, 9(1), 48-71.
  • Saklofske, D., & Kelly, I. (1992). The effects of exercise and relaxation on energetic and tense arousal. Personality and Individual Differences, 13, 623-625
  • Tong, L., Shen, H., Perreau, V. M., Balazs, R., & Cotman, C. W. (2001). Effects of exercise on geneexpression profile in the rat hippocampus. Neurobiology of Disease, 8(6), 1046-1056.

LEARNING TRIANGLE: Without the Vestibular, Visual and Auditory ...
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External links

  • An example of how this theory can be utilized

This article is based on an earlier version originally posted at WikEd and reposted here by the author.

Source of the article : Wikipedia

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