This document discusses teaching metacognition to help students self-assess their own learning. It explains that metacognition involves awareness of one's thinking and reasoning processes during learning. The document outlines why teaching metacognition is important, as students often overestimate their abilities and lack necessary skills. It recommends three critical steps: reminding students ability can improve, stressing goal-setting and evaluation, and providing practice monitoring learning. Several metacognitive tools and activities are presented, like quizzes, rubrics and response systems, with examples of how to implement them.
5. Why Teach Metacognition?
Not all students enter the
university with the
necessary skills to succeed
in their chosen discipline.
6. There is almost no
relationship between how well
students think they know
material and how well they
perform on an exam.
Plotnik & Kouyoumdijan, 2011
7. Over the past four decades there has been a dramatic
rise in the number of freshman students that rate
their abilities
above average.
9. Why Teach Metacognition?
By teaching metacognitive skills we
can help students to overcome any
bad study habits and gaps in their
understanding and we can
encourage them to assume
responsibility for their own learning.
11. Helping students to recognize and retain what
they’ve learned
Helping students compare their
understanding to that of their classmates
Helping students review and assess their
work against a set of stated expectations
Student Benefits
12. Key Ideas
Building off of prior knowledge is
essential for all learning
Formative feedback is necessary for
students to address their own
weaknesses
Expert knowledge can get in the way
of teaching
13. Three critical steps to teaching
metacognition:
Remind students that their ability to learn
involves skills that can be continuously
improved upon
Stress the importance of goal-setting, monitoring
and evaluation strategies
Provide students ample opportunity to practice
monitoring their learning and adapting as
necessary
14. Beliefs Have Consequences
Students enter college with preconceived ideas about
school and about their own abilities.
“I’ve always been an A student”
“Being smart is innate”
“I just don’t get philosophy”
“I could never learn to draw”
An important early lesson for these students is that
there ability to learn is not fixed, it can be improved.
15. Three critical steps to teaching
metacognition:
Remind students that their ability to learn involves
skills that can be continuously improved upon
Stress the importance of goal-setting,
monitoring and evaluation strategies
Provide students ample opportunity
to practice monitoring their learning
and adapting as necessary
17. Discuss assignments' learning goals and design rationale before
students begin each assignment
Invite students to participate in class planning, agenda construction
Engage students in applying the grading criteria that you’ll use on
their work
Explicitly connect "how people learn" data with course activities
when students struggle at difficult transition points
http://www.teachingandlearning.illinois.edu/components_of_transparency.html
Illinois Initiative on Transparency in
Learning and Teaching in Higher Education
18. Transparency in Teaching and Learning
Share Bloom’s taxonomy with students and make them
aware of the level of thinking skill you are expecting
20. Three critical steps to teaching
metacognition:
Remind students that their ability to learn
involves skills that can be continuously improved
upon
Stress the importance of goal-setting, monitoring
and evaluation strategies
Provide students ample opportunity to
practice monitoring their learning and
adapting as necessary
21. Metacognitive Tools & Activities
Self-Assessment Quizzes
Grading Rubrics
Assignment Wrappers
Formative Feedback
Authentic Assessment
Classroom Critique
Peer Review / Assessment
Small Group Discussion
Student Response Systems
One-Minute Paper
Muddiest Point
Reiterative Projects
Portfolios
Weekly Reports
Process Analysis
Student-Generated Quiz Questions
Background Knowledge Probe
Categorizing Grid
One Sentence Summary
Project Prospectus
Analytic Memo
Chain Notes
Reflective Journal
Concept Maps
23. Four Example Strategies
Online Self-Assessment Quizzes
Grading Rubrics
Exam Wrappers
Student Response / Peer Instruction
24. Self-Assessment Quiz
Use LMS to deliver online quizzes
Selective response and short answer
questions can be computer graded to
provide immediate scoring for students
Comprehensive feedback can be
included to redirect student’s thinking
Item analysis in Compass 2g can
provide data on commonly missed
questions revealing content that may
require further clarification
28. Revealing Unknown Unknowns
McGraw Hill’s LearnSmart system attempts to reveal to students
their lack of awareness of unknown content by asking them to
evaluate their confidence before responding to each question
29. “Ignorance more frequently begets
confidence than does knowledge”
- Charles Darwin
c
The system tracks the responses along with the level of confidence to
reveal those questions that students don’t realize they do not know.
Revealing Unknown Unknowns
30. Grading Rubrics
Show of hands – who has used a
grading rubric in the past, either as
a student or an instructor?
What are the benefits?
31. Grading Rubrics
Provide grading rubrics for high-stakes
assignments outlining exact
expectations and grading criteria
Allow students to help construct the
grading rubric to define outcomes that
are meaningful to them
Be sure students have reviewed the
grading rubric prior to submitting an
assignment
35. Assignment Wrapper
Assignment and exam wrappers are tools
developed at Carnegie Mellon to assist
students with developing their
metacognitive skills.
A wrapper is essentially a secondary task
or requirement that accompanies an
assignment or exam and asks students to
reflect on their learning processes.
37. Classroom Response Systems
Use a classroom response system in
combination with discussion & peer
instruction to help students gauge their
understanding in relation to that of their
classmates.
These systems are also helpful in
uncovering commonly held
misconceptions or inaccurate information.
39. Key Ideas
Building off of prior knowledge is
essential for all learning
Formative feedback is necessary for
students to address their own
weaknesses
Expert knowledge can get in the way
of teaching
40. Questions?
Feel free to e-mail me: jwentwor@illinois.edu
For additional resources, links and videos email me
and ask to be added to the Teaching Metacognition
online course.
The mind is not a vessel to be filled, but a fire to be kindled
- Plutarch
Hinweis der Redaktion
My backgroundOpening comments: introduction and brief personal historyCurrently work for CITES Academic Technology Services supporting the transition to Illinois Compass 2g Moved here from the University of Colorado Boulder where I consulted with faculty on the design and development of online and blended coursesI also taught multimedia courses within the visual arts program at the University of Colorado DenverI began developing and teaching several fully online courses more than10 years agoI should also mention that I will be moving to the new as yet, un-named teaching and learning unit that is scheduled to open on campus in August of this year
Poll everwhere poll – respond at pollev.com/metacognition, limited to 40 responses, no repeats please, switch to browser view to see incoming poll results
Pull together key terms to arrive at a definition
Students have different skillsetsWe tend to assume that all students come to our courses with roughly the same set of study skills and metacognitive abilities. The truth is that students vary greatly in their approaches to studying and mastering the content in our courses. Some students are naturally more organized in their lives and in their approaches to studying. Others need guidance and the instructor's assistance in building these skills. The good news is that students can learn how to better regulate and improve their own cognitive activities and we can help by requiring and reinforcing these skills.
Over-confident studentsEvery year the Higher Education Research Institute completes a survey of incoming freshman across the county. Over the past four decades there has been a dramatic rise in the number of freshman students who rate their abilities above average. There are many possible reasons suggested for this trend, such as the self-esteem culture that grew out of the 1970s. Regardless of the reason, I think we can agree that this is not solely the result of our primary education system getting progressively better over the past four decades. For whatever reason, our students have developed an inflated sense of their academic abilities. Which reminds me of a favorite quote – Source = Does confidence really breeds success? William Kremer BBC News Magazine – analysis by Twenge, campbell and gentile.
This quote is attributed to Charles Darwin and I think it hints at a very important point, that the less we know, the less we realize the gaps in our knowledge. It’s not until you start to become an expert within a discipline that you can determine what knowledge your peers possess that you may be lacking.
Rid students of bad habits and inaccurate knowledgeThere are numerous advantages to teaching metacognition. We realize that our students may not be able to recognize their own weaknesses, but those weaknesses can be pretty evident to the instructor. It’s in everyone’s best interest to help our students rid themselves of misconceptions and bad habits and start to assume responsibility for their own learning. The earlier we can help them develop their own metacognitive skills, the greater chance they’ll have at excelling in their discipline.
The ideal student self-regulatesThe ideal is to create a student who is capable of self-regulation. Our standardized testing culture has created students that are focused primarily on grades. They know very well how to calculate the scores they’ve received to earn the grade they believe they deserve, wouldn’t it be nice if we could get them to be more reflective about what they are actually learning in courses?Expert vs novice learners – provide examples of how an expert learning prepares for an exam, focusing thoughts using some structure such as cause > effectCan expert learners be made? Can we teach our students to develop these strengths
So we’ve introduced you the concept and basic practices of metacognition. As we progress through the rest of the talk we’ll be focusing on these three key ideas. If you remember nothing else from today, focus on these key ideas.
Three steps to teaching metacognition – step one remind students that their ability to learn is not fixed, they can improveI’ll introduce three critical steps to teaching metacognition – but we’ll really only look at one of these in any depth today, we’ll quickly breeze through the first two. First it’s important to instill in students the fact that their ability to learn is not fixed, it can be continually improved.
Get past student’s preconceived ideas about their abilitiesStudents enter college with preconceived ideas about their own abilities and about the roles and expectations of both teachers and students. It’s important to instill in them a desire to improve on their learning strategies. By giving them assignments that help them build metacognitive skills, we are enabling them to see past these preconceived ideas and reflect more accurately on their own learning and thinking processes.
Step two – stress goal setting, monitor and evaluation strategiesEffective learning involves planning and goal-setting, monitoring one's progress, and adapting as needed. Since most of us in this room ended up working in academia, we may not be the best test group, but think about your own processes you use when attempting to learn something unfamiliar to you. How do you know if you’ve made progress unless you set goals and evaluate whether or not your strategies are helping you achieve your goals?NEED MORE HERE!!!!!!!!
Get them thinking about their own processes by asking reflective questionsThink about ways you might get your students to respond to the following questions. We’ll look at a number of tools today that may be helpful including things like assignment and exam wrappers that require students to summarize a learning experience and consider how they tackled the assignment. Consider using online discussions to ask these types of questions. Instead of always focusing on content related questions, you could require students to discuss a question like What confusions do I have that I still need to clarify? This would require students to consider their own weaknesses and would also allow other students to help provide guidance in the form of discussion responses.
Campus Programs on Teaching and LearningResearch study on this campus looking at how making learning explicit helps improve outcomesOn this campus you may be aware of the Transparency in Teaching research project that has been ongoing for some time now. This study uses instructor and student surveys to uncover transparent teaching strategies that are improving learning outcomes. A few of the best practices uncovered by this research are listed here.Participating instructors implement one or more methods for engaging students in explicit (or transparent) dialogue about learning processes and teaching practices, and later survey students about their learning experiences. Results from many types of courses, institutions, students and faculty are compiled and studiedhttp://www.teachingandlearning.illinois.edu/components_of_transparency.html
Expose them to Bloom’s taxonomyMost instructors are at least familiar with Bloom’s taxonomy. We need to also make our students aware of the level of thinking skills we want them to engage in. In foundation classes it’s key that students can recall critical concepts and terminology so it’s appropriate to begin at the lower levels of this scale. But we should also require students to apply and analyze the concepts they are learning. In order for them to develop critical thinking skills, we need to require they higher order thinking skills. It’s not good enough to memorize the facts, you have to know when to apply those facts.
Expose them to Bloom’s taxonomyMost instructors are at least familiar with Bloom’s taxonomy. We need to also make our students aware of the level of thinking skills we want them to engage in. In foundation classes it’s key that students can recall critical concepts and terminology so it’s appropriate to begin at the lower levels of this scale. But we should also require students to apply and analyze the concepts they are learning. In order for them to develop critical thinking skills, we need to require they higher order thinking skills. It’s not good enough to memorize the facts, you have to know when to apply those facts.
Third step – give them opportunity to practice monitoring their own learningThe third critical step is to be sure to provide students ample opportunity to practice monitoring their learning and adapting as necessary to meet their learning goals. The rest of the presentation will focus primarily on this aspect of metacognition and hopefully you’ll leave here today with a few new ideas or possible tools you might want to explore.
List of tools and ideas generated from online research
Another lens we can use to consider these strategies is classroom format. Not all strategies will work equally well in a large classroom for instance.Before we dive into a few specific examples let’s consider how these different tools might work in different classroom settings.NEED MORE HERE!!!!!!!
Lots of online quiz tools out there including those available through the learning management system and others available from the publisher web sites.They have basic concept in common, auto-graded quiz items that include feedback for correct and incorrect responses.
Lots of online quiz tools out there including those available through the learning management system and others available from the publisher web sites.They have basic concept in common, auto-graded quiz items that include feedback for correct and incorrect responses.
Feedback example – the student is provided with the correct response along with feedback to help them correct their thinking. Combined with tools like randomized question delivery and question pools, self-assessment can be a great drill and practice tool for students.
Feedback example – the student is provided with the correct response along with feedback to help them correct their thinking. Combined with tools like randomized question delivery and question pools, self-assessment can be a great drill and practice tool for students.
Analytics information more available then everMcGraw Hills adaptive learning tools not only measure overall student knowledge within a domain, but they attempt to measure the students confidence and awareness of their knowledge. This example
Grading rubrics help students focus on assignment criteria
Grading rubrics help students focus on assignment criteria
Example of a typical rubric
Example of a typical rubric
Adaptive release settings help hold students accountableUsing an LMS to accept assignments has the benefit of creating some level of accountability. Not only can I provide an interactive rubric for students to review, in this example you can see that students will not be able to access the link to upload their essay assignments until they have indicated that they have reviewed the associated rubric. Using this technique of adaptive release is a useful way to be certain that student take accountability for knowing the criteria used to grade their work.
Assignment wrappers help student to reflect on their learning
Educause webinar – highly editedI edited this video a lot so I apologize for any rough cuts. This originally was presented as an online Educause webinar and the entire presentation can still be found on the Educause archives.
Clicker use in the classroom to gauge understandingI must admit that I never had the opportunity to use clickers or a student response system in the classroom. Back when I was teaching visual literacy as a graduate student, we didn’t yet have clicker technology. So I can’t claim to be an expert on these technologies, but I do believe they have great value, particularly in a large lecture setting. To compensate for my own lack of use, I’ll being in a expert in the form of Eric Mazur at Harvard. I have a short excerpt of a lecture he gave which we’ll see in a minute.
Learning requires the assimilation of knowledge.In this short video we’ll look at the process Eric Mazur uses as part of his large lecture classroom. To set up this short clip I should mention that this has been excerpted from a much longer video that details how professor Mazur came to realize that lecturing alone was not leading to learning within his classes. Students were just learning to apply rules that they did not fully understand so they were able to grasp the concrete physics examples provided in the textbook, but could not apply the same strategies to solve more conceptual problems that did not follow the step-by-step recipe provided within the texts. He also reached the conclusion, that the instructor as the expert on the subject is not necessarily the best person to help the novice learner overcome common hurdles.
So we’ve introduced you the concept and basic practices of metacognition. As we progress through the rest of the talk we’ll be focusing on these three key ideas. If you remember nothing else from today, focus on these key ideas.