Excellence in science education must begin in
kindergarten.
Good science education at the earliest grades is supremely
important,but in most classrooms it gets short shrift. Studies
have found that children in kindergarten are already forming negative
views about science that could cast a shadow across their entire
educational careers. When researchers interviewed kindergartners from
typical classrooms, barely a third of the children showed any
knowledge of science, whether from school or other sources.
Many children said that science was for older kids and adults, not
kindergartners like them. They talked of science being about magic
potions or dangerous chemicals;they said science is hard, science is
not interesting, and “I am not good at science.” Ask a room of
five-year-olds to draw a scientist, and you will likely get lots of
pictures of white-coated men in laboratories. Furthermore, even
before first grade, fewer girls than boys say they like science.
It is perilous to generalize about anything in the U.S. education
system—quality varies enormously from classroom to classroom—but
science has long been a poor stepchild to mathematics and reading.
One report noted that science instruction in the early grades “occurs
sporadically and rarely engages children in practices that encourage
rigorous and reflective science learning.” Science is high on the
list of subjects that early-grade teachers feel ill prepared to
teach. A 2009 study found that Head Start children in Florida ended
their pre-K year with significantly lower readiness scores in science
than in any other domain.
Of course, teachers need to make difficult trade-offs in the
classroom, where many worthy subjects compete for precious little
time. If more science is to be taught in kindergarten, what should be
removed to make way for it?
Maybe nothing. Educational psychology researchers at Purdue
University have developed an approach for teaching science in
kindergarten that integrates it with language. The combination not
only makes science instruction more appealing to teachers who are
very mindful of language arts core curriculum requirements. It also
enhances language learning by providing situations in which written
language is used for a genuine purpose—recording and reporting
predictions and observations—instead of a task devoid of any real
context. And the kindergartners delight in learning words they would
usually never encounter in kindergarten lessons, such as “excrete”
(even if they cannot always spell them correctly).
The Purdue approach, the Scientific Literacy Project
(www.purduescientificliteracyproject.org),introduces children to the
most fundamental idea—that science is about carefully conducted
inquiry to learn about the world—and shows them thateveryone can do
science. The lessons do not depend on expensive equipment or the
latest in animations and computer games. Low-tech methods suffice,
including experiments as simple as seeing if salt will dissolve,
reading well-chosen nonfiction books—which many adults
mistakenly imagine to be inappropriate or uninteresting to such young
children—and maintaining individual science journals.
The researchers found that students participating in their project
showed significant gains relative to those taking traditional
classes. The kindergartners readily developed skills related to
asking questions,conducting observations and experiments, drawing
conclusions and sharing their findings—and had tremendous fun along
the way. The project showed its worth for children of diverse ethnic
and social backgrounds,and, most interestingly, it eliminated the
gender gap in attitudes. A group at the University of Illinois at
Chicago developed a similar project—Integrated Science-Literacy
Enactments (www.uic.edu/educ/ISLE/)—for grades 1 through 3.
An emphasis on “inquiry science” has long been advocated by
the National Research Council, whose national science education
standards stress science as inquiry and grasp of a few fundamental
concepts, ahead of the more traditional focus on a wide smattering of
content knowledge (see tinyurl.com/inquirysci). The approach does,
however,depend on the instructors understanding how to carry out
inquiry-based lessons effectively. The teachers need training in how
to teach science.It is not enough to give them courses to bolster
their science content knowledge—or to fast-track science graduates
into teaching with insufficient schooling in the science of how
children learn.
Children are natural scientists: not only are they
inquisitive and energetic, but they have an instinct for controlled
experimentation. The goal of science education at the earliest levels
should be to encourage and refine children’s innate love of
exploring the world around them and to help that enthusiastic
behavior grow into true scientific literacy.
Source: Scientific American - http://tinyurl.com/yfdtz9x