WHY NEUROSCIENCE RESEARCH IS GOING TO THE HEADS OF THECLASS
BRAIN-BASED LEARNING (SECOND EDITION) Eric Jensen, M.A. (Brain
Store Inc., 2000)
FOR THE LEARNER'S SAKE: BRAIN-BASED INSTRUCTION FOR THE 21ST
CENTURY Judy Stevens, Ed.D., and Dee Goldberg, Ed.D. (Zephyr Press,
2001)
HOW THE BRAIN LEARNS: A CLASSROOM TEACHER'S GUIDE (SECOND EDITION)
David A. Sousa, Ed.D. (Corwin Press, 2000)
BECOMING A "WIZ" AT BRAIN-BASED TEACHING: FROM TRANSLATION TO
APPLICATION Marilee Sprenger (Corwin, 2001)
Imagine this: A teacher inserts a CD into a player, and the
classical sounds of Mozart fill the classroom. The students kick back and
listen. An exercise in music appreciation? No, it's a math lesson.
This scenario is based on the idea that listening to certain kinds
of music stimulates a part of the brain involved in spatial relations.
This stimulation is supposed to help students learn math subjects such as
geometry. So, to teach students how to calculate the area of a rectangle,
first play Mozart.
This theory is, of course, highly speculative--especially because
the Mozart Effect, as it is called, has taken a beating from researchers
of late. Yet there are those who are convinced that this kind of
neuropedagogy will be common practice in the future. Indeed, the hottest
thing in education today is brain-based teaching.
The assumption behind brain-based teaching is that research in
neuroscience should guide instruction. As educational consultant David
Sousa, Ed.D., puts it: "Teachers try to change the brain every day. The
more they know about how it learns, the more successful they can
be."
So what kinds of discoveries have researchers made that might prove
useful in education? Consider these:
o Complex environments produce smarter brains than do boring
environments. Implications: provide lots of variety in classroom
activities; offer students new challenges every day.
o The brain requires sleep to clear out the neurochemical garbage
that accumulates during the day and to solidify memories. Implications:
encourage students to get plenty of sleep; provide naptime after
lunch.
o Experiencing high levels of stress for prolonged periods can
destroy brain cells. Implications: reduce stress (no more pop quizzes);
lead students in relaxation exercises.
Although it is a bit premature to rebuild the school-house on a
neuroscience foundation, brain research can teach us some things about
learning. Unfortunately, these authors drift from their chosen topic and
recommend practices that they like, but which have little or no support
in neuroscience. For example, educational consultant Eric Jensen, M.A.,
urges teachers to "give praise that is not contingent on performance."
There is probably nothing in neuroscience to support this advice, and a
great many studies have shown that, when used correctly, earned praise is
a powerful teaching tool.
It appears, then, that the books' authors are less interested in
telling us what brain research can contribute to education than they are
in using the prestige of neuroscience to promote their own views on
teaching. This hidden agenda is most apparent in the book by educational
consultants Judy Stevens, Ed.D., and Dee Goldberg, Ed.D. For the
Learner's Sake is really about constructivism, an educational philosophy
that used to be called progressive education.
There is nothing wrong with educators writing books to promote
their ideas about teaching. But it is dishonest to suggest that brain
research supports those ideas when, in fact, it does not.
Books on brain-based teaching may be written by people with an axe
to grind, but why are teachers so excited about the topic? Perhaps they
think it will improve their status: If teachers can understand the
functions of a dozen neurotransmitters, identify the parts of the brain
and know which of those parts heat up when a student studies French, they
might be accorded more respect.
But teachers who talk like brain surgeons won't impress parents and
taxpayers for long. Outstanding student achievement will, and that can be
accomplished only through excellent teaching.
Whether reading these books will help teachers teach more
effectively is debatable. All four are flawed by an abundance of errors,
and not merely where neuroscience is concerned.
The bottom line? Stevens and Goldberg are interested in promoting
constructivism, not brain-based teaching. Jensen's book is disjointed and
redundant. Sousa offers useful material, but it has little to do with
neuroscience. Marilee Sprenger, a middle school teacher and educational
consultant, does the best job of translating brain research into
classroom practice; if you're interested in that topic, hers is the book
to read.
In the meantime, if you're a teacher and you have a geometry lesson
ahead of you, here's my advice: Put a CD in your home stereo and listen
to Mozart. Then, when you get to school, show your students how to
calculate the area of a rectangle. That works almost every time. Imagine
that.
Paul Chance is the book review editor of Psychology Today, a former
teacher and the author of Thinking in the Classroom (Teachers College
Press, 1986).
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