Improving Academic Success with
Right-Brain Learning Methods
Understanding whether your teens are
right-brain or left-brain learners can help improve their academic success
during those crucial years when grades count toward college.
Knowing your teens’ learning style is helpful to parents, teachers, tutors and, most
importantly, your teens themselves. As a parent, you can then seek out learning
methods that align with their learning style. And if your teens struggle to
learn, this knowledge can ultimately improve self-esteem as they realize that
low grades and a dislike of school may have more to do with a one-way-fits-all
teaching method rather than with how smart they are.
Right-Brain
vs. Left-Brain
Being right-brain or left-brain
dominant refers to the different hemispheres of the brain that process
information differently. The hemispheres control the different modes of
thinking, and individuals tend to use one side of the brain over the other.
In 1981, Roger Sperry won the Nobel
Prize in medicine for his research in the late 1950’s and 1960’s showing that
the brain is divided into two major hemispheres. He identified that parts of
the brain had different capabilities and were associated with their own style
of thinking.
Characteristics
of Left-Brain Learners
Left-brain learners best absorb
material by listening to lectures in which the material is logical and has a
set of defining rules. A typical left-brain learner takes neat notes and keeps
a well-organized binder. Timed tests are not overly challenging.
Generally, left-brained thinkers
read directions carefully and thoroughly. They follow sequential reasoning,
seeking definitive final answers and closure.
Left-brain learners excel at the
following:
- Logic
- Analytical sequence processing
- Numbers
- Black & white distinctions
- Structured thinking
- Verbal language skills
- Short-term memory
- Details
- Auditory input
- Skilled movement
- Naming
- Categorization
- Objective thinking
Characteristics
of Right-Brain Learners
Right-brain thinkers often have
common characteristics. For example, they’ll scan directions, rather than
listen to or thoroughly read directions. Visualizing a picture can help them
remember facts.
Right-brain learners tend to be day
dreamers who lose track of time. They are visual students who thrive on
hands-on learning. Sitting, listening and taking notes can be a struggle.
Right-brain learners excel at the
following:
- Big picture thinking
- Visual input
- Leaps in thinking
- Concepts
- Differentiation through color
- Humor
- Unstructured thinking
- Awareness of options
- Pictures (storing information as a unit rather than as parts)
- Music
- Metaphors
- Intuitive thinking
- Creativity
- Rhythm
- Holistic thinking
- Synthesizing
- Subjective thinking
The right hemisphere of the brain is
associated with creativity. Right-brained thinkers process information in a
nonlinear, non-verbal manner, looking at the whole picture and at the
relationships of the parts to the whole. Overall, right-brain thinkers are more
comfortable with paradoxes and ambiguity than left-brain thinkers.
Traditional
Teaching Methods
Even though about half of students
are right-brain learners, schools generally teach children using left-brain
methods: auditory, black and white distinctions, and repetition. Lectures fall
into this category.
Information
Retention and Recall
The short-term memory resides in the
left side of the brain, and the long-term memory resides in the right side of
the brain. For information to be stored in long-term memory in the brain’s
right hemisphere, material is optimally presented in a visual manner.
If you find yourself thinking that
your teens have poor memories (i.e., difficulty retaining information), the
problem could be that the information is being taught in an auditory,
repetitive manner not conducive to storage in long-term memory. They can still
learn through left-brain processes, but may store and retain information more
easily if it’s presented in a visual way.
Alternative
Teaching Methods
If your teens are indeed right-brain
learners, you might need to investigate alternative ways of helping them study
through visual processes. For example, your teens may excel at outlining a
written composition using visual elements (such as a pre-writing web), rather
than a traditional sequential outline format. In fact, any material that can be
learned in an auditory manner can be converted to pictures for right-brain
learners.
In addition to pictures, right-brain
learning strategies use color, stories, humor and emotion. To learn vocabulary,
grouping the word with an image will facilitate storage in long-term memory.
There are also methods that students can employ to take “picture notes” to
better retain information through visual memory.
Complexity
of the Brain
Of course, the reality is that your
teens use both hemispheres of their brain; the corpus callosum connects the two
hemispheres. Researchers have studied people with brain damage and brain
lesions to better understand the skills dominant in each brain hemisphere.
To give you an idea of the
complexity of the brain, although language skills tend to be left brained,
language can be controlled by the right or left hemispheres, or even by both
hemispheres. To complicate matters further, in integrated brain activity, the
functions of one hemisphere of the brain are available to the other.
People are not exclusively
right-brain thinkers or left-brain thinkers; there’s a continuum. Even if your
teens are left-brain dominant, they shouldn’t be excluded from right-brain
presentations, as a visual context can be helpful to everyone. Some of the
great leaps in learning are made through right-brain teaching strategies.
Furthermore, whole-brain teaching
strategies tap both hemispheres of the brain. Music and soothing colors may be
used to relax learners, so the emotional climate is more conducive to learning.
Any kind of imaging technique, like visualization, drawing and drama, help
reinforce learning and provide context.
Adjusting
Learning Methods to Learners
Rather than labeling your children
as “smart” or “academically challenged,” consider how you can better accommodate
their differences in learning styles. With about half of the population
right-brain dominant, you should be open to learning methods that adjust for
differences. Understanding the differences in right-brain and left-brain
thinking reinforces schools’ shift away from relying completely on rote
memorization.
When we adjust learning methods to
right-brain thinking, we’re placing a higher value on creativity and intuitive
reasoning. Right-brain learners, who might otherwise have been turned off by
traditional teaching methods, may instead find themselves invested in the
learning process.
Learning
Styles and Hemispheric Dominance - Right or Left Brain: Which is Dominant in
Your Family?
Karen M. Gibson
Karen M. Gibson
Author’s
Note: This is the second of two articles about how the differences between our
own learning styles and right-brain/left-brain capabilities and that of our
children can affect our home learning atmosphere. Part I discussed Learning
Styles and ways that you could use the knowledge of your own learning style and
that of your children’s to your advantage. Part II discusses the theory of
right-brain/left-brain dominance, including how these differences can affect
the way we learn and how we communicate with others.
Part II: Hemispheric Dominance
Introduction
In Learning Styles -
Part I, I
discussed the various theories of learning styles and related how knowledge of
these learning styles assisted me in making a learning environment more suited
to my children. Knowledge of learning styles enabled me to loosen the grip of
my public school indoctrination, granting me the freedom to begin to really
think outside the box concerning education.
Recently,
though, I began to wonder what causes such differences in our learning styles.
I have always been fascinated at how members of the same genetic pool (first my
siblings and I, and now my own children) could have such diverse personalities
and needs. The workings of the brain, what causes a person to be a “genius,”
and the intriguing possibility of residual genetic memory of previous
generations passed along to us are questions my family has wondered about,
researched, and discussed. And when I read that individuals who are right-brain
dominant tend to be late readers, I knew I needed to explore this further,
since I have a son who is a late reader.
How the Brain Works
The brain
is made up of two halves, or hemispheres – the left brain and the right brain.
The brain is divided into two distinct and separate parts by a fold that runs
from the front to the back. These parts are connected to each other by a thick
cable of nerves at the base of each brain, called the corpus collosum. A good
analogy is that of two separate, incredibly fast and immensely powerful
computers, each running different programs from the same input, connected by a
network cable, or the corpus collosum. The left hemisphere of our brain is
“wired” to the right side of our body and vice versa. This even applies to our
eyes, with information from our right eye going to the left hemisphere and
information from our left eye feeding the right hemisphere.1
|
Left
Brain Functions2
|
Right
Brain Functions
|
|
Uses
logic
|
Uses
feeling
|
|
Detail
oriented
|
“Big
pictures” oriented
|
|
Facts
rule
|
Imaginations
rules
|
|
Words
and language
|
Symbols
and images
|
|
Present
and past
|
Present
and future
|
|
Math and
science
|
Philosophy
and religion
|
|
Order/pattern
perception
|
Spatial
perception
|
|
Knows
object name
|
Knows
object function
|
|
Reality based
|
Fantasy
based
|
|
Forms
strategies
|
Presents
possibilities
|
|
Practical
|
Impetuous
|
|
Safe
|
Risk
taking
|
Most
scientists and researchers seem to agree that there are definite differences in
the way each hemisphere of the brain works. Essentially, the right brain is
holistic, convergent, and able to ascertain the big picture. The right brain
deals with emotions, feelings, creativity, and intuition. The left brain is
linear, divergent, and focuses on one thing at a time. The left brain deals
with more logical subject areas, such as mathematics and speech. Much of this
knowledge is based upon the Nobel Prize winning research of Roger Sperry
(Medicine, 1981). In the early 1960s Sperry conducted “split-brain” experiments
on an epileptic individual who had undergone surgery to split the corpus
collosum, thereby severing the connection between the two hemispheres of the
brain. “The surgery revealed what Sperry described as ‘two spheres of
consciousness’ locked in the one head, the left-hand side having speech and a
rational, intellectual style, while the right was inarticulate, but blessed
with special spatial abilities.”3 As a result of Sperry’s findings
and subsequent studies, researchers believed they understood the various
functions the right brain and the left brain controlled.
Sperry’s
research, and subsequent research by many other scientists, resulted in a
proliferation of books, articles, web sites, etc., presenting the differences
between dominantly right-brained and dominantly left-brained individuals and
how those differences affect our learning and our personalities. This research
also led to the formation of many theories concerning how our brain came to
develop in this manner, with the right and left brains apparently controlling
such different aspects of our very being.
Theories
Just as
with learning styles, there are many theories concerning brain development and
hemispheric dominance. Of the many I read, Leonard Shlain’s (The Alphabet
Versus the Goddess: The Conflict Between Word and Image) was one of the
more interesting. He explains that all vertebrates have a bilobed, or
two-hemisphere brain, but in most these lobes perform the same type of tasks.
In humans these lobes are specialized, performing different functions. His
theory is that the brain grew larger and split its functions in two because it
was necessary to rewire one lobe to accommodate speech.4
Shlain
believes that the left hemisphere developed into the hunter’s brain, with the
ability to focus minutely on single details for long periods of time and the
ability to think and plan in a linear fashion. The right hemisphere developed
into the gatherer’s brain, with the ability to view the whole landscape with
several objectives in mind at the same time; locating healing plants, locating
edible berries and roots, and keeping a watchful eye on their children. These
hunter/gatherer traits are still key characteristics in descriptions of
right/left brain functions.
Author
Thomas G. West (In the Mind’s Eye) posits that we are seeing higher
incidences of learning disabilities, (dyslexia, ADD, etc.) because the brain is
being hot-wired from birth to respond to and learn from visual stimuli than
from text. At a very early age children are literally bombarded with fast-paced
technological devices (television, computers, etc.) and their images (music
videos, movies, image-based software, etc.). The end result of this bombardment
is that children’s neural pathways are developing in a very different fashion
from those of preceding generations. They become equally adept, and often
better adept, at processing images rather than text.
The “Two-Brain Myth”
More
recent studies seem to indicate that hemispheric dominance is not as clear-cut
as originally thought. Researchers are as interested in how the two hemispheres
complement each other and combine to work together as they are in how the
hemispheres are different.5
“In a
nutshell, we humans do not literally have ‘two brains,’ but we do have
two simultaneous systems of mental organization and functioning – each whole
and complete in itself, each having highly specialized skills. As some scholars
have summarized it: the ‘left brain’ does, the ‘right brain’ is.
This is, however, an oversimplification, for quite clearly both the
hemispheres are active, though in markedly different ways. As Karl
Schmitz-Moormann has noted, the ‘right brain’ cannot accurately be considered a
‘passive partner’ in the human enterprise. Indeed, since the right hemisphere
is responsible for our holistic perception of the world, one might argue that
it is the dominant one, with the ‘left brain’ functioning as ‘analyzer for the
right brain’s perceptions … a servant of the right brain’ (“Philosophical and
Theological Reflection,” 255).”6
Strategies for Learning
While we
should consider this new research and remain open to new findings, I still
believe there is enough existing evidence about hemispheric differences to make
knowledge of this area useful in our home education journey.
Barbara
Meister Vitale (Unicorns Are Real: A Right-Brained Approach to Learning)
describes right brain (hemisphere) / left brain (hemisphere) individuals by both
academic skills and modes of consciousness, which are the unique ways that each
person processes stimuli.
|
Skills Associated with Hemispheric Specialization7
|
|
|
Left Hemisphere
|
Right
Hemisphere
|
|
Handwriting
|
Haptic
awareness
|
|
Symbols
|
Spatial
relationships
|
|
Language
|
Shapes
and patterns
|
|
Reading
|
Mathematical
computation
|
|
Phonics
|
Color
sensitivity
|
|
Locating
details and fact
|
Singing
and music
|
|
Talking
and reciting
|
Art expression
|
|
Following
directions
|
Creativity
|
|
Listening
|
Visualization
|
|
Auditory
Association
|
Feelings
and emotions
|
|
Modes of Consciousness
|
|
|
Left
Hemisphere
|
Right
Hemisphere
|
|
Linear
|
Holistic
|
|
Symbolic
|
Concrete
|
|
Sequential
|
Random
|
|
Logical
|
Intuitive
|
|
Reality-based
|
Fantasy-oriented
|
|
Temporal
|
Non-temporal
|
Linear and
Holistic. Linear
means part-to-whole. The left-brained person takes little pieces, lines them
up, arranges them in logical order, and arrives at a convergent conclusion. The
right-brained person thinks whole-to-part, holistically. The child with a
dominant right hemisphere starts with the answer, a total concept, or perceives
the whole pattern and discovers a divergent conclusion.
Symbolic
and Concrete.
Left-hemispheric children think in symbols; they deal with symbols, they can
function with symbols. Right-hemispheric children deal with the concrete; they
learn by doing, touching, moving, being in the middle of things
Sequential
and Random. The left
brain approaches life sequentially, while the right brain floats randomly
through life’s experiences.
Logical
and Intuitive. (The)
Logical (person) knows exactly where he gets his answers. He starts out with a
little piece of information and logically works toward an end result.
Right-brained children are intuitive; they are not logical. They pull the
answers right out of the air. They can give you the answer to a long-division
problem but they may not be able to work through the sequential steps.
Reality-based
and Fantasy-oriented.
Left-hemispheric children can deal with reality, with the way thing are.
Left-hemispheric children are very much affected by the environment and will
adjust to it. If something is presented to them they will shift and
react. If something is not there for left-hemispheric children, it doesn’t
exist for them.
Right-hemispheric
children will try to change the environment, to make it shift and react
to meet their needs in any way they know how. They deal with fantasy, with
imagery, with imagination.
Temporal
and Non-temporal.
Left-hemispheric children have a sense of time. Right-hemispheric children have
very little sense of time. They simply do not comprehend when you set time
limits. They cannot think in any terms except the here and now.
Ms. Vitale
lists twenty-six observations one can use as a way of “screening” for
right-brained dominance. This list is meant to be used with young children and
the reason Ms. Vitale suggest “screening” is so the “teacher” can modify the
teaching approach used for right-brained children. A large section of her book
contains “learning strategies,” alternative ways to “teach” subjects to
children who appear to be dominantly right-brained learners. If you have a
child who exhibits many right-brained tendencies and you believe these
tendencies are impeding his progress in learning to read, etc., you might find Ms. Vitale’s suggestions helpful. Many of her
strategies I used with my late reader child, discovering them in my own hit and
miss fashion. I would have much preferred to have been presented with such a
list early on in our “learning to read” journey, as it likely would have
eliminated much frustration for both my son and myself.
I went
through the “screening” list, keeping separate tallies for all the members of
my family, including my husband. I recalled anecdotes his mother had told me of
his days in school and remembered my own experiences. I discovered that, while
I hit about six observations for myself, my husband hit twenty-two out of the
twenty-six! Based upon this screening list and several of the other resources I
explored, it would seem that I am mostly left-brained while my husband is very
right-brained. In addition, all three of our children seem to favor the
right-hemisphere for academics and in modes of consciousness, some much more
than others.
How Hemispheric Differences Affect My Family
These
hemispheric differences affect communications in my family in a large way;
miscommunication between the other members of my family and myself is often the
norm. One example that comes readily to mind occurred this past spring. My
daughter, Kat, drew plans for an elaborate garden complete with stone and brick
walkways, fountains, and benches. We are working together on this project; her
job is to work on the walkways, etc., while it is my job to fill the other
areas with appropriate plants, bushes, etc. As we started work this spring, I
needed to know from her exactly where the walkways were to be before I put in
the plants I had purchased. I bought lawn edging, thinking we could lay it on
the ground approximately where the sides of her walkways were to be and then
wrap the edging around what would be the plant areas. It would be easier for me
to put in the plants if I knew where the edge of each garden area would be. As
usual, what seemed simple to me became a long drawn-out discussion about what
was ultimately going to be done with the lawn edging. Kat thought I wanted to
use it to confine her walkways. When she finally understood what I wanted to do
with the edging, she let me know that she did not intend for the gardens to be
confined either. But I was unable to visualize where the gardens would be
because there were no walkways yet, even though she had a perfectly well drawn
diagram. In the end, she simply laid out strings of yarn along the paths where
her walkways would go and I planted my plants a fair distance from them. When
the pathways are actually laid and the plants grow, the distance between them
will disappear and all will look fine. As often happens, we arrived at the same
conclusion, but by completely opposite thinking.
Another
area of dramatic difference is in the area of visualization. It amazes my
children to know that I am unable to “picture” or visualize something in my
mind. I usually “see” actual words in my mind rather than pictures when
listening to a story, while my children can easily visualize a story playing in
their minds like a movie. They believe this is a serious deficiency on my part
and have taken it upon themselves to help me develop this right brain ability
by describing scenes to me. They begin with a simple description: “There is a
man just stepping outside from a building onto a sidewalk. He is wearing a red
hat, blue pullover shirt, and blue jeans. See the hat? It’s a fishing hat, full
of buttons and pins and fishing lures. See the turkey feather sticking out of
it?” And they continue to develop the picture piece by piece until I tell them
that I have “lost” the picture. Each time they guide me through this exercise,
I am able to hold the picture in my mind just a bit longer.
Conclusion
So, while
scientists and researchers continue to unravel the mysteries and wonders of the
human brain, I can only observe the anecdotal evidence of my own experiences
within my own family, which seem to support the popular “right-brain” theory.
One thing I am sure of – only those individuals who can tap the resources and
abilities of both brains, and in the process become more “whole-brained,” will
realize their full potential. Perhaps, with more knowledge about the human
brain and its abilities, we will all someday be able to realize our untapped
potential.
Resources
- Jeffrey Freed, M.A.T., and Laurie Parson, Right-brained Children in a Left-Brained World, Fireside (Simon & Schuster), New York, 1999; ISBN: 0684847930
- Barbara Meister Vitale, Unicorns Are Real: A Right-Brained Approach to Learning, Jalmar Press, Torrance CA, 1982; ISBN: 0446323403
- Lucy Jo Palladino, Ph.D., The Edison Trait: Saving the Spirit of Your Nonconforming Child, Random House, New York, 1997; ISBN: 0812927371
- Thomas G. West, In The Mind's Eye: Visual Thinkers, Gifted People With Dyslexia & Other Learning Difficulties, Prometheus Books, Amherst NY, 1997; ISBN: 1573921556
- Barbara Meister Vitale, Free Flight: Celebrating Your Right Brain, Jalmar Press, Torrance CA, 1986; ISBN: 0915190443
- Thomas Armstrong, The Myth of the A.D.D. Child: 50 Ways to Improve Your Child’s Behavior and Attention Span Without Drugs, Labels, or Coercion, NY: Plume (The Penguin Group), 1997: ISBN 0452275474
- Leonard Shlain, The Alphabet Versus The Goddess: The Conflict Between Word And Image, Penguin Compass, New York, 1998; ISBN: 0140196013
Footnotes
- Left Brain Right Brain, Dan Eden (URL verified 06/28/08)
- Left Brain Right Brain, Dan Eden (URL verified 06/28/08)
- John McCrone, ‘Right Brain’ or ‘Left Brain’ – Myth or Reality?, The New Scientist, RBI Limited, 2000 (URL verified 06/28/08)
- Chapter 3, page 17.
- John McCrone, ‘Right Brain’ or ‘Left Brain’ – Myth or Reality?, The New Scientist, RBI Limited, 2000 (URL verified 06/28/08)
- New Research on the Relation between Brain and Mind: The Work of Roger Sperry, Liturgy Digest, Volume 1, Number 1, Spring 1993
- Vitale, Unicorns Are Real, p. 12-21
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