Some kids are right-brain dominant. They're creative. They think out of the box. They dance and do art. They usually don't like math.Other kids are left-brain dominant. They take things apart to figure out how they work. They like order. They think about things and ask lots of questions. Math is often their favorite subject.Nothing wrong with this, except that school is generally a left-brain dominant institution, especially as kids progress on to high school and then college. Although we're getting better at teaching to individual differences in grade school, left-brain teaching remains the norm in high school.
There are specific activities that may stimulate the right or left brain.Activities that stimulate the left brain are solving crossword or word search puzzles, performance of learned tasks, language usage, both comprehensive and expressive, analytical information, problem solving, and recalling new information. Geometric or spatial memory, hand gestures, writing one's name, classifications of pictures or words into categories, recalling complex narratives, recognizing someone you have met, and name recognition are also all left brain activities.
And teachers report more and more right-brain dominant kids in their classrooms. So how will these kids succeed in high school and college? And what if they want to go on to medical school, law school, maybe become engineers? How can we help them?Learning to use the whole brain solves the problem. Learning how to diminish right-brain or left-brain dominance so they're using both sides equally. So what does this mean? And how do you do it?
Neuroscientists are now learning that, although some things can be fairly well localized, like motor function, our intellectual abilities are quite a bit more complex. For instance, did you know that your ability to speak is stored somewhere completely different from your ability to sing? There are documented cases of people who have become aphasic (unable to speak at all) but who can communicate well if they just SING the words out!
Now the action part. How do you get this neuronal pattern? How do you get these synapses across the corpus callosum? It's really quite simple. Every time you cross your body's midline, you make neuronal patterns between the right and left side. Right-brain dominant kids are now able to use more of their left brain. And left-brain dominant kids able to use more of their right brain. Just get them moving. Walking while swinging their arms. Skipping. Playing ball. Dancing. Running. Since moving is key, perhaps we're seeing more right-brain dominant kids because kids are less active.
And beyond the obvious aid to memory, poetry also offers an enhanced understanding of language. It forces our brains to think laterally, to join together different sensory impressions and associations. That kind of layered thinking has been shown, in live MRI tests, to wake up multiple areas of the brain at once. For kids who struggle with language skills, poetry offers an engaging, memorable stealth technology, a way of getting past the brain's standard verbal filters to a deeper language network.
It would seem that our brains have been programmed for this kind of thinking since before anyone even thought of writing anything down. After all, how are you going to pass down the tribe's history to the next generation, unless you turn it into an epic song or poem that people can remember, one verse at a time? Entire moral codes and genealogies were passed on in this manner until came up with the written word, and though we can now access all kinds of words on the internet with a flick of a mouse button, our brains still crave the stimulus that poetry gives, especially when it's spoken out loud.
Visual stimulation from the left side in a checkerboard pattern using different colors comes up through the optic pathway to the brain stem and up to the right brain. The T.E.N.S. unit set at subthreshold stimulates large diameter nerves which fire up to the cerebellum and to the opposite brain.
There are specific activities that may stimulate the right or left brain.Activities that stimulate the left brain are solving crossword or word search puzzles, performance of learned tasks, language usage, both comprehensive and expressive, analytical information, problem solving, and recalling new information. Geometric or spatial memory, hand gestures, writing one's name, classifications of pictures or words into categories, recalling complex narratives, recognizing someone you have met, and name recognition are also all left brain activities.
And teachers report more and more right-brain dominant kids in their classrooms. So how will these kids succeed in high school and college? And what if they want to go on to medical school, law school, maybe become engineers? How can we help them?Learning to use the whole brain solves the problem. Learning how to diminish right-brain or left-brain dominance so they're using both sides equally. So what does this mean? And how do you do it?
Neuroscientists are now learning that, although some things can be fairly well localized, like motor function, our intellectual abilities are quite a bit more complex. For instance, did you know that your ability to speak is stored somewhere completely different from your ability to sing? There are documented cases of people who have become aphasic (unable to speak at all) but who can communicate well if they just SING the words out!
Now the action part. How do you get this neuronal pattern? How do you get these synapses across the corpus callosum? It's really quite simple. Every time you cross your body's midline, you make neuronal patterns between the right and left side. Right-brain dominant kids are now able to use more of their left brain. And left-brain dominant kids able to use more of their right brain. Just get them moving. Walking while swinging their arms. Skipping. Playing ball. Dancing. Running. Since moving is key, perhaps we're seeing more right-brain dominant kids because kids are less active.
And beyond the obvious aid to memory, poetry also offers an enhanced understanding of language. It forces our brains to think laterally, to join together different sensory impressions and associations. That kind of layered thinking has been shown, in live MRI tests, to wake up multiple areas of the brain at once. For kids who struggle with language skills, poetry offers an engaging, memorable stealth technology, a way of getting past the brain's standard verbal filters to a deeper language network.
It would seem that our brains have been programmed for this kind of thinking since before anyone even thought of writing anything down. After all, how are you going to pass down the tribe's history to the next generation, unless you turn it into an epic song or poem that people can remember, one verse at a time? Entire moral codes and genealogies were passed on in this manner until came up with the written word, and though we can now access all kinds of words on the internet with a flick of a mouse button, our brains still crave the stimulus that poetry gives, especially when it's spoken out loud.
Visual stimulation from the left side in a checkerboard pattern using different colors comes up through the optic pathway to the brain stem and up to the right brain. The T.E.N.S. unit set at subthreshold stimulates large diameter nerves which fire up to the cerebellum and to the opposite brain.
About Author
0 التعليقات:
Post a Comment