Summary of the reading
“Too often we give children answers to
remember, rather than problems to solve.” Roger Lewin
The quote above embodies the ideology
behind the reading this week, Problem-Based
Learning. The reading this week provides an overview of the instructional method
that has made an impact on pedagogical praxis and approaches to best facilitate student learning. The reading provides and overall summary of
the development of Problem-based learning (PBL) and research on its development
over the course of the last 30 years. Problem-based learning originated
from the work of medical educators research which was conducted at the
Department of Medicine, McMaster University in Canada in the 1970’s. A section is presented in the reading relating to the
assumptions and misconceptions of PBL’s as well as the attributes that represent
essential characteristics present in Problem-Based Learning. The reading then goes on to examine
the effectiveness of PBL's in terms of student learning outcomes, including basic
domain knowledge acquisition and applications, retention of content and
problem-solving skills, higher order thinking, self-directed learning/lifelong
learning, and self-perception as well as addressing implementation issues (Hung, Jonassen, & Liu 2008). Finally, recommendations
for future research are presented to improve upon this instructional
methodology approach. The recommendations also raise questions regarding assumptions
that are questionable under the framework of PBL’s. Currently,
problem-based learning is being implemented at all levels of education to include
grades K-12 as well implementation at the collegiate level. The PBL approach to teaching in order to best
meet the needs of all students requires students to question, explore,
and study various content knowledge allowing students to practice context-free
problems, which challenges students more because PBL embeds students’ learning
processes in real-life problems (Hung, Jonassen,
& Liu 2008). PBL supports the
process of students finding their own answers to real life scenarios, which assist
students greatly as they prepare to enter the workforce and as students encounter
various dilemmas that will inevitable arise in their career path. PBL’s help
students to become problem solvers and inherently contributes to increasing their
critical thinking skills while activating other forms of higher order thinking.
Ideas for possible proposals
A possible
proposal that uses problems based learning could be in the category of Earth
science and environmental issues which are significant topics of discussion
currently around the world. The students would develop solutions and approaches
to problems concerned with natural resources and conservation. This proposal would be aligned to the Texas
Essential Knowledge Standards (TEKS) for 5th grade science. Specifically, TEKS 5.7(C) identify
alternative energy resources such as wind, solar, hydroelectric, geothermal,
and biofuels; 4.7(C) identify and classify Earth’s renewable resources,
including air, plants, water, and animals; and nonrenewable resources,
including coal, oil, and natural gas; and the importance of conservation. In this possible proposal, students would be
presented with the question: “How can
our school find better ways to sustain energy throughout the school while using
less natural resources and reducing waste?”
Students would have to develop a viable plan and approach to find
possible solutions to this problem.
Student could further evaluate the probable effects of their plan on a
campus, district, city, state, country, and global level if their plan was put
into action and how great of an impact their plan could potentially have at
each of these levels.
Concerns and questions
for the readings or proposals
Oberlander &
Talbert-Johnson (2004), promote the integration of technology in to the classroom
with problem-based learning. Sometimes in science education, it
can be difficult to incorporate technology at the lower grade levels. What
strategies can be implemented to ensure that all students in the K-3 are utilizing
higher levels of the Substitution, Augmentation, Modification, and Redefinition Model
(SAMR) technology integration within their PBL’s?
References
Hung,
W., Jonassen, D. H., & Liu, R. (2008). Problem-based learning. Handbook
of
research on educational communications and technology, 3, 485-506.
research on educational communications and technology, 3, 485-506.
Oberlander,
J., & Talbert-Johnson, C. (2004). Using technology to support problem-based learning. Action in teacher education, 25(4), 48-57.
Hi Melissa,
ReplyDeleteI loved your quote and I believe it provides clarity on PBL's. The focus is not an acquiring a distinct set of facts but rather how scientific knowledge can be applied in a real world context to support long term learning. This is part of the main reason doctors incorporated this methodology for their training interns. Your idea on students incorporating an energy plan for their school seems to me a very viable program for implementation. In fact, the sixth grade science standards ask students to explore those very concepts you mentioned, regarding conservation and the best use of our natural resources. I just wanted to let you know that Ysleta High School has developed an Environmental Science Magnet program in which students are encouraged to engage with the community on solving problems within our city. They have a separate building within the school that allows students to work on projects and take courses for credit that focus on environmental concerns. Essentially the program is developed from a Problem-Based Learning approach. If you get the opportunity, it is well worth taking the time to visit the campus and see how they can support you with your project. Do you have a potential start date for your project?
You chose an excellent quote to start your reflection off with. I completely agree with this notion that oftentimes, students are only seen as sponges capable of soaking up knowledge. Shouldn’t a sponge know how to use its soapy substance (theories, ideas, skills, terminology, ext.) to accomplish the big picture of washing the dishes (real life situations)?
ReplyDeleteI have heard from fellow friends, who are current teachers, that college did not prepare them for their teaching experiences. Even when they had experienced numerous hours of student teaching, there was nothing quite like their first year being thrown into the occupation. What were your experiences as a first year teacher? Do you feel as though you were prepared? What strategies could be implemented in to education programs in order to ensure new teachers are prepared to teach to their students?
Every week, I feel as though you come up with excellent project proposals that could definitely be implemented into a classroom setting. One thing I would add to it is maybe having the class choose one groups proposal that is attainable, and have the class act on it. Maybe students feel as though installing motion detector lights in the bathroom, so that they are only on at needed times, could help sustain energy for the school. I think it might be important for the students to figure out a way to research what lights are best, how much money it would cost to install them, how to approach the administration to explain what they want, and actually get the lights installed. That way, students learn the steps of actually putting their ideas into effect and can actually have the experience of changing the energy efficiency in their school.
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ReplyDeleteYour quote is an engaging and appropriate introduction to the theme of your post - that student-centered learning is at the core of problem-based learning. Your message got me thinking about the reasons that students are in school in the first place: to learn things that will help them live a better life. As much as I want students to learn to be critical-thinking scientific minds, I realize that I far too often spoon feed them information I hopes that they don't miss anything "essential". In retrospect, I think the most essential thing that they can learn in my classroom is to think for themselves. Problem-based learning seems to address this perspective by insisting that students use and enhance their own faculties to overcome similar challenges that they will undoubtedly face outside of the classroom.
ReplyDeleteAs with all your blog posts, your research proposal is thoroughly anticipated and contains standardized concepts essential to the grade-level you want to investigate; kudos. I love the content area, as many experts feel that our focus on environmental issues, though growing, is still much too weak.
A suggestion I would make to your post is something that I've made a goal for my final blog post - to provide extra insight to a particular aspect of the reading using my personal experience.
That is a quote that all teachers, no matter the grade level, should read and truly understand. It is very difficult to sometimes separate ourselves from role of teacher to educator. Your quote really resonates that. We gave give students information but if they do not know what or how to use it, we essentially created more of a problem than a solution for students. PBL is incorporated in Science teching , however, we as teachers must learn that just because a lesson says it is a PBL lesson does not mean that it gets implemented as one. Teachers must explore the PBL and gather its strengths based on their own teaching and experiences, that way when it comes to implementation the PBL is a true PBL and is executed as such.
ReplyDelete