Haynie, E. (2000) “Engaging Students in
Science Research” The Science Teacher, 67(3), 8
Connecting the classroom to scientific research can help students develop conceptual understanding, yet this approach is generally not used in secondary education, perhaps because
it is uncommon for teachers to have
formal training in incorporating scientific
research into the classroom. The National
Science Education Standards (National Research Council, 1996) provides guidelines for teaching students scientific research. A teacher
specializing in high school science
education generally receives some
training in methods but very little direct experience with the science
research process.
To build their
knowledge base and acquire an understanding of science research, teachers should be well acquainted with
resources such as curricular materials, technology, community resources, professional colleagues with
special expertise, and instructional resources.
Science
research-based learning means observing and experimenting with the
materials and processes of the natural world. Teaching research-based
activities is demanding but worthwhile because the students involved have to take
an active role in their own
learning. Rather than the teacher telling the students what
they must learn, the
teacher sets up an environment in which
students can actively acquire
knowledge, mainly through
experimenting. The teacher engages
students in problem solving by asking probing questions, promoting inquiry, and guiding discussion.
Involving students in
independent
science research benefits them because such work builds their self confidence and helps them develop critical thinking skills. The discussion and exploration involved in scientific research
enhances students' organizational skills.
This work also stimulates and
motivates students' natural curiosity
in a context that makes science relevant to their lives. In addition, science research facilitates learning experiences that help restructure students' existing knowledge and build new knowledge and skills.
Many new curricular
and instructional models are being developed and implemented as the United States moves
toward educational reform in the science classroom. Scientific
research-based learning is an innovative curricular and instructional strategy that
provides the framework for implementing the science standards as students
experience being apprentice scientists.
The ultimate goal
of science education is to
develop scientific attitudes, knowledge,
skills, and processes. Experiences
in which students engage in realistic
science research provide the
background for developing an understanding of the nature of scientific inquiry. Inquiry requires that students process scientific knowledge as they use scientific reasoning and
critical thinking to develop their understanding
of science. Students involved in
science research ask questions, plan
and conduct investigations, and use
appropriate tools and techniques to gather data. These students think critically and logically about relationships between evidence and explanations.
It has been well
demonstrated that students who conduct independent projects develop higher-level inquiry skills. For
science education to be
successful, one must bring science alive in
the classroom for students.
"When this happens, students awaken to a sense of joy, 'wonderment, and excitement about learning science. Being engaged in an independent research project allows the relevance of science to become apparent
because students explore scientific
developments that have shaped their
-world.
Research-based
science instruction is an effective teaching strategy and needs to be more widely used.
Teaching scientific research methods to high school students enables them to learn
through direct observation and experimentation just as professional scientists develop hypotheses and then test their ideas through repeated experiments and observations. Scientists cannot simply
know that something is so; they must
demonstrate it is so. The education
of students in science must provide
this kind of experience, not simply confirm the "right"
answer but investigate the nature of their world and arrive at explanations
they understand.
Edward C Haynie;Associate Professor;
Harris-Stowe State College; St. Louis, Missouri
REFERENCE
National Research Council. 1996. National Science Education Standards.
Washington, D.C.: National Academy Press.
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