'Neurons' trends

Domains containing the tag 'Neurons'

: Bounce ratePages / VisitVisit duration
1mindsetworks.com Mindset Works®: Student Motivation through a Growth Mindset, by Carol Dweck, Ph.D. Brainology is an online interactive program in which middle school students learn about how the brain works, how to strengthen their own brains, and how to better approach their own learning. In the process they develop a growth mindset whereby they think of their intelligence as something they can develop through study and learning rather than as something fixed, as explained by our co-founder Dr. Carol Dweck.: n/a 3.10 n/a
2unfoldingneurons.com Unfolding Neurons Unfolding Neurons: n/a 1.80 n/a
3pediatricbrainfoundation.org Pediatric Brain Foundation Children's Neurobiological Solutions-Dedicated to Accelerating Medical Research for Pediatric Brain Repair and Regeneration. Providing the most comprehensive site available for the discussion of medical and physical therapies for the treatment of brain injured children for parents and physicians.: n/a 1.00 n/a
4ai-forum.org Ai Forums The Ai Forum is a discussion zone for of the theory and practice of artificial intelligence, language, mind and consciousness and the history and culture of AI. The Forum is the heart of a growing community of artificial intelligence professionals and enthusiasts.: n/a 3.00 n/a
5enchantedmind.com Welcome to Enchanted Mind - HOME We combine humor, inspiration and special techniques to enhance creativity. Create flexibility in your brain and mind by expanding yourself daily with these simple exercises.: n/a 3.00 n/a
6sciamdigital.com Scientific American Digital: Digital archive of all issues from 1993 to present. Scientific American Digital Archive offers every issue of Scientific American, the premier science magazine, from 1993 to present.: n/a 3.00 n/a
7ebvms.com MS & EPSTEIN-BARR VIRUS REVIEW Review of epstein-barr and MSand CSS: n/a 0.00 n/a
8ahrenslab.org Misha Ahrens Lab @ Janelia | Homepage We are a group of experimental and computational neuroscientists at the Janelia Research Campus of the Howard Hughes Medical Institute. We are seeking to understand how the brain gives rise to the rich, complex, and flexible behavioral patterns of animals. We believe that many fundamental principles underlying brain function have yet to be discovered and reside in the interactions across spatial scales between large neural circuits and molecular processes. Our goal is to connect molecular, cellular, and circuit phenomena to computational principles underlying behavior. To this end we use molecular techniques, modern microscopy methods, and computational approaches to analyze the contribution of specific circuits and cell types to behavioral processes including motor learning, giving up, short-term memory, and associative learning.: n/a 0.00 n/a