This week we take a look at the BSCS 5E Instructional
Model that was developed by the Biological Sciences Curriculum Study. The 5E
model provides a planned sequence of instruction that places students at the
center of their learning experiences, encouraging them to explore, construct
their own understanding of scientific concepts, and relate those understandings
to other concepts (Bybee 1997, p. 176). The BSCS 5E instructional model or the
5E’s embrace a constructivist view of learning that allows learners to test new
ideas against what they already know or believe to be true. The 5E’s of the
instructional model are engage, explore, explain, elaborate, and evaluate.
The goal of the engage phase is to
capture the learners’ attention and interest. The teacher is to ask questions,
pose a problem, or present conflicting events to promote engagement amongst all
learners. If students are puzzled raising questions such as “How did that
happen?” or “I have wondered about that,” and “I want to know more about that,”
they likely are engaged in a learning situation (Bybee et al., 2006). The
exploring phase provides learners with a foundation of experiences with a
description of concepts to investigate, observe, and formulate explanations to
develop their cognitive thinking. An example of this is, learners completing a
lab activity to ensure prior knowledge is activated and the exploration of new
ideas are ignited. The explanation phase of the 5E instructional model is
prominent due to the fact that at this stage learners are able to now make comprehensible
and clear explanations of their prior experiences. During the explanation
phase, teachers address key concepts such as scientific, engineering,
technology and explicitly explain while using prior experiences. If we were to
relate the explanation phase using the NGSS, this would be the crosscutting
concept clearly explaining core ideas. The elaborate phase ensures students are
involved in their learning experiences that extend and expand their concepts
made in prior (engage, explore, explain) phases. In the elaborate phase, teachers
must provide all students with material that challenges them but encourages an
achievable learning outcome. Students should be encouraged to interact with
other students and have access to other resources available (databases, tools,
web interactions or searches) to partake in additional activities. In the
evaluate phase, from a teachers point of view, observing and assessing learners
as they apply their new skills and new concepts takes place in this particular
5E stage. Students should receive feedback and explanations from the teacher on
their adequacy of their understanding. This is important to not just students
but also for teachers to evaluate or adjust their teaching practice to promote
a better learning outcome.
I find the 5E model is extremely
effective because it provides a basis for multiple lessons and an entire
thematic unit. It also can be used throughout all grade levels and for any
subject. The BSCS model state that it can be applied at several levels in the
design of curriculum materials and instructional sequences of a yearlong
program, to units within the curriculum, and to sequences within lessons (Bybee
et al., 2006). A proposal idea can be based on the use of the 5E instructional
model in a specific science subject and/or lesson to implement and observe or
collect data on how effective the lesson and learning outcome is compared to it
being taught the traditional way.
I do see a conflict when using the
5E’s for class periods that are 45-50 minutes long because each phase takes up a
certain amount of time that is needed therefore it is not most effective when
the 5E lesson requires more time. This type of model does require a specific
amount of time to make sure each stage is efficient and students get the best
learning experience. My concern is, can teachers shorten the lesson to fit in
one class period or does it take away from the constructivist learning outcome?
Or can you provide a lesson that only includes engage and explain, and omits
the rest of the 5E’s?
Bybee, R. W. 1997. Achieving scientific
literacy: From purposes to practices. Portsmouth, NH: Heinemann.
Bybee, R.W., J.A. Taylor, A.
Gardner, P. Van Scotter, J. Carlson Powell, A. Westbrook, and N. Landes. 2006. BSCS 5E instructional model:
Origins and effectiveness. A report prepared for the Office of Science Education, National Institutes of Health. Colorado
Springs, CO: BSCS.
Denise, I very much appreciate your description of the 5E model. I found that it was very accurate and insightful. I also find the 5E. model to be very effective in teaching. I have seen a version of it developed for use in fourth grade language arts and reading. I saw that she also mentioned that it can be used for multiple subjects as well as different grade levels: of like to see an example in your post. I noticed that you could see a conflict in using this model and a 45-50 minute period. Do you think it could be effective if used over multiple days as you teach a new subject or topic?
ReplyDeleteHello Denise,
ReplyDeleteI found that you have presented a finely detailed and robust explanation of each and every step of the 5E model. You not only define what each phase is, you also give and explanation or example of each and every portion that helps illuminate the meaning in the context of the instructional model. You also go on to explain why an individual phase is important. It is clear that you are passionate about this subject. If I must provide a criticism, while your explanation of the 5E model in it’s current for is exemplary, you appear to gloss over the substantial history that made up a significant portion of the report. You mention that you believe the 5E model can be applied to “all grade levels and for any subject”. What kind of adaptations do you think are required when using such a model outside it’s intended subject area or demographic?
-SFM