Constructivist
Learning Theory
This week in our learning we have learned
about the constructivist and the constructivism learning theory. Constructivism
refers to the idea that learners construct knowledge for themselves---each
learner individually (and socially) constructs meaning---as he or she learns.
Constructing meaning is learning; there is no other kind (Hein, n.d.). The
principles of constructivism, increasingly influential in the organization of
classrooms and curricula in schools.
Constructionism is a theory of
learning that states people learn best when they build an external artifact or
something they can share with others (Laureate Education Inc., 2011).
Constructionism as Papert mentions (1993) is both a theory of learning and a
strategy for education. It builds on the "Constructivist" theories of
Jean Piaget, asserting that knowledge is not simply transmitted from teacher to
student, but actively constructed in the mind of the learner. Learners do not
receive ideas; they create ideas. Moreover, constructionism suggests that new
ideas are more likely to be created when learners are actively engaged in
building some type of external artifact that they can reflect upon and share
with others. Papert, (1991) differentiated between constructivism and
constructionism:
When students generate and test
hypothesis as the way we did in our science fair, they are engaged in a complex
mental process. Our book points out that the teacher can help students to drive
hypothesis by way of system analysis, problem solving, experimental inquiry and
investigation. Technology is helping along this avenue in providing the
software and data crunching needs by way of interactive applets and probe ware.
Teachers can use technology to maximize teaching time and meet the
instructional goals for the hypothesis. Learners should attempt to resemble
scientists in non-trivial ways, engaging in independent theory formation and
hypothesis testing. To relate to a classroom experience, just remember those
times our lovable science teacher encouraged us to work with our art teacher to
create a device which would brace the impact of an egg. We would then head up
to the top of the school and toss our creations off the building. Some lucky
students’ designs would work, while most of them wouldn’t.
In problem based learning, (PBL)
class activities are constructed around a problem or problems. There is no
instructor intervention, just coaching. This was commonly referred to as team
building exercises in the Army when I served. One activity gave us a team of 6
instructed to devise a way across an obstacle using limited tools and
resources. In the classroom, the students are empowered to take a responsible
role in their learning. The instructor, much like the drill instructor is not
the go to source for information and knowledge. Students like the soldiers
assume the initiatives to inquire and learn. All the instructor in boot camp
made us do was to provide guidance and support. Additionally that support came
in the form of corrective training if the standard was not satisfied in a
certain time frame. What students learn during their self-directed learning
must be applied back to the problem with reanalysis and resolution. Problems
are invoked as a stimulus for students to start the learning process. Students
reason through the problem and find out what they already knew and what they
should know in order to find a solution to the problem. It is through this
active and reflective thinking process that students become responsible for
their own learning. It is the application of their knowledge to the problem
that students test and integrate what they learn. In general, PBL aims to
motivate students to engage in the learning process and to help foster problem
solving skills. (http://www.personal.psu.edu/wxh139/PBL.)
In conclusion, this blog post I hoped to be
able to tie into some of the instructional strategies discussed this week. Test
and hypotheses engage students in a mental exercise in how a problem can be
resolved by though rough scientific examination. The tools for this can be best
regarded as our typical exercise in school known as the science fair. Problem
based learning gave students a problem to solve. Students are part of a
learning mechanism that determines the best solutions to a particular problem.
They have to take initiative and have the responsibility to solve the problem
on their own with limited teacher interaction. Project-based learning is a
dynamic approach to teaching in which students explore real-world problems and
challenges. With this type of active and engaged learning, students are
inspired to obtain a deeper knowledge of the subjects they're studying. These
types of instructional strategies reach the core of constructionism and
constructivism approach. They engage students in a high level of interaction
and ask them pick, explore, inquire, investigate and question the world they
are engaged in.
Reference
Hein, G. (n.d.). Constructivist
Learning Theory. Exploratorium: The museum of science, art and human
perception. Retrieved May 24, 2014, from
http://www.exploratorium.edu/ifi/resource
Mandel, S. (n.d.). Why Use
Virtual Field Trips?. Pearson Prentice Hall: eTeach: Retrieved May 17, 2014,
from
http://www.phschool.com/eteach/professional_development/virtual_field_trips/essay.html
Stavredes, T. (2011). Effective
online teaching: foundations and strategies for student success. San Francisco,
CA: Jossey-Bass.
Laureate Education, Inc.
(Producer). (2011). Program seven: Constructionist and constructivist learning
theories [Video webcast]. Bridging learning theory, instruction and technology.
Retrieved from
http://laureate.ecollege.com/ec/crs/default.learn?CourseID=5700267&CPURL=laureate.ecollege.com&Survey=1&47=2594577&ClientNodeID=984650&coursenav=0&bhcp=1
Papert, S. (1993). The Children's
machine: Rethinking school in the age of the computer. New York: Basic Books.
Problem Based Learning. (n.d.).
Problem Based Learning. Retrieved May 25, 2014, from
http://www.personal.psu.edu/wxh139/PBL.
Constructivist
Learning Theory
This week in our learning we have learned
about the constructivist and the constructivism learning theory. Constructivism
refers to the idea that learners construct knowledge for themselves---each
learner individually (and socially) constructs meaning---as he or she learns.
Constructing meaning is learning; there is no other kind (Hein, n.d.). The
principles of constructivism, increasingly influential in the organization of
classrooms and curricula in schools.
Constructionism is a theory of
learning that states people learn best when they build an external artifact or
something they can share with others (Laureate Education Inc., 2011).
Constructionism as Papert mentions (1993) is both a theory of learning and a
strategy for education. It builds on the "Constructivist" theories of
Jean Piaget, asserting that knowledge is not simply transmitted from teacher to
student, but actively constructed in the mind of the learner. Learners do not
receive ideas; they create ideas. Moreover, constructionism suggests that new
ideas are more likely to be created when learners are actively engaged in
building some type of external artifact that they can reflect upon and share
with others. Papert, (1991) differentiated between constructivism and
constructionism:
When students generate and test
hypothesis as the way we did in our science fair, they are engaged in a complex
mental process. Our book points out that the teacher can help students to drive
hypothesis by way of system analysis, problem solving, experimental inquiry and
investigation. Technology is helping along this avenue in providing the
software and data crunching needs by way of interactive applets and probe ware.
Teachers can use technology to maximize teaching time and meet the
instructional goals for the hypothesis. Learners should attempt to resemble
scientists in non-trivial ways, engaging in independent theory formation and
hypothesis testing. To relate to a classroom experience, just remember those
times our lovable science teacher encouraged us to work with our art teacher to
create a device which would brace the impact of an egg. We would then head up
to the top of the school and toss our creations off the building. Some lucky
students’ designs would work, while most of them wouldn’t.
In problem based learning, (PBL)
class activities are constructed around a problem or problems. There is no
instructor intervention, just coaching. This was commonly referred to as team
building exercises in the Army when I served. One activity gave us a team of 6
instructed to devise a way across an obstacle using limited tools and
resources. In the classroom, the students are empowered to take a responsible
role in their learning. The instructor, much like the drill instructor is not
the go to source for information and knowledge. Students like the soldiers
assume the initiatives to inquire and learn. All the instructor in boot camp
made us do was to provide guidance and support. Additionally that support came
in the form of corrective training if the standard was not satisfied in a
certain time frame. What students learn during their self-directed learning
must be applied back to the problem with reanalysis and resolution. Problems
are invoked as a stimulus for students to start the learning process. Students
reason through the problem and find out what they already knew and what they
should know in order to find a solution to the problem. It is through this
active and reflective thinking process that students become responsible for
their own learning. It is the application of their knowledge to the problem
that students test and integrate what they learn. In general, PBL aims to
motivate students to engage in the learning process and to help foster problem
solving skills. (http://www.personal.psu.edu/wxh139/PBL.)
In conclusion, this blog post I hoped to be
able to tie into some of the instructional strategies discussed this week. Test
and hypotheses engage students in a mental exercise in how a problem can be
resolved by though rough scientific examination. The tools for this can be best
regarded as our typical exercise in school known as the science fair. Problem
based learning gave students a problem to solve. Students are part of a
learning mechanism that determines the best solutions to a particular problem.
They have to take initiative and have the responsibility to solve the problem
on their own with limited teacher interaction. Project-based learning is a
dynamic approach to teaching in which students explore real-world problems and
challenges. With this type of active and engaged learning, students are
inspired to obtain a deeper knowledge of the subjects they're studying. These
types of instructional strategies reach the core of constructionism and
constructivism approach. They engage students in a high level of interaction
and ask them pick, explore, inquire, investigate and question the world they
are engaged in.
Reference
Hein, G. (n.d.). Constructivist
Learning Theory. Exploratorium: The museum of science, art and human
perception. Retrieved May 24, 2014, from
http://www.exploratorium.edu/ifi/resource
Mandel, S. (n.d.). Why Use
Virtual Field Trips?. Pearson Prentice Hall: eTeach: Retrieved May 17, 2014,
from
http://www.phschool.com/eteach/professional_development/virtual_field_trips/essay.html
Stavredes, T. (2011). Effective
online teaching: foundations and strategies for student success. San Francisco,
CA: Jossey-Bass.
Laureate Education, Inc.
(Producer). (2011). Program seven: Constructionist and constructivist learning
theories [Video webcast]. Bridging learning theory, instruction and technology.
Retrieved from
http://laureate.ecollege.com/ec/crs/default.learn?CourseID=5700267&CPURL=laureate.ecollege.com&Survey=1&47=2594577&ClientNodeID=984650&coursenav=0&bhcp=1
Papert, S. (1993). The Children's
machine: Rethinking school in the age of the computer. New York: Basic Books.
Problem Based Learning. (n.d.).
Problem Based Learning. Retrieved May 25, 2014, from
http://www.personal.psu.edu/wxh139/PBL.
David,
ReplyDeleteYour insight into constructionism and constructivism are helpful! You were able to help me connect prior school experiences to this week's learnings to help me understand it more. I see there is much to share about back when we were in school. Our school system, and the way we get our information, has drastically changed. What types of activities have you, or would you, use in the classroom now for students to work in a constructionist way? There are so many ways that technology can help us learn and present information.
I think it is really important for students to understand that you must build your own knowledge in order to truly understand and demonstrate that knowledge. Too often, I have students that are taking a passive role in their education, and in the end, cannot demonstrate content knowledge on the subject. Dr. Orey (Laureate Education, Inc., 2011) explains that students definitely need to be engaged throughout the lesson, and teachers need to support the students, which is why a constructivist approach is so beneficial to students.
References
Laureate Education, Inc. (Producer). (2011). Program seven: Constructionist and constructivist learning theories [Video webcast]. Bridging learning theory, instruction and technology. Retrieved from http://laureate.ecollege.com/ec/crs/default.learn?CourseID=5700267&CPURL=laureate.ecollege.com&Survey=1&47=2594577&ClientNodeID=984650&coursenav=0&bhcp=1
Patricia
Thank you Patricia. I tried looking at some of the experiences I had in school and tied them to what I felt was a problem or project based experience. I hope it's correct in the constructivism theory. I am sure there are endless other instructional activities that are possible for this lesson.
ReplyDeleteI'm tasked with the passing on of the English language to first time learners. They are adept and very smart. As far as an instructional experience I had provided some basic introduction speeches where students answered 3 basic questions about themselves and used word processing software to develop a simple speech they could read in class. This project served as a 3 week long exercise where they built upon an introduction, body and conclusion. And by the end they were able to recite their speeches effortlessly.
Thanks for the comment
Hey Dave,
ReplyDeleteI always liked the idea of PBL, the students enjoy it and I enjoy having the activity for them. However, I have felt the pressure of completing the state curriculum and preparing my students for state assessments that I don't get many opportunities to implement such projects.
I have found that students remember the activity and what they did during the activity but often forget the mathematical concept behind the activity.
-DYam