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Sticky Learning
by
Adjusting how we teach to match brain function and memory processes leads to "sticky learning." Educators are engaging with neuroscientists to reshape classroom practices, content delivery, curriculum design, and physical classroom spaces to enhance students' learning and memory, primarily in …
- ● 93% match for you
- ● education, psychology
the long version
Adjusting how we teach to match brain function and memory processes leads to "sticky learning." Educators are engaging with neuroscientists to reshape classroom practices, content delivery, curriculum design, and physical classroom spaces to enhance students' learning and memory, primarily in elementary and secondary education. Why not in seminary education? An overview of brain-friendly approaches to teaching enables seminary instructors to make concrete modifications in the structure and content of what they teach, making learning more "sticky." Inglis's synopsis of the use of neuroscience in the classroom and suggested action is followed by a collaborative dialogue with Kathy L. Dawson and Rodger Y. Nishioka. - Back cover.
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"Adjusting how we teach to match brain function and memory processes leads to "sticky learning." Educators are engaging with neuroscientists to reshape classroom practices, content delivery, curriculum design, and physical …"
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