Post on 27-Mar-2015
transcript
What If…
Peggy MakiEducation Consultant Specializing
in Assessing Student LearningPresented at AAC&U’s GE and
Assessment Conference, Boston, March 1, 2013 1
What if…..
You became and were recognized as an Expert in Misunderstanding, using your expertise as the basis of systemically collaborating with colleagues to innovate curricular and co-curricular design, pedagogies, assignments, and educational practices to improve or advance All students’ enduring GE learning? 2
You specialized in learning about ways in which students……
Misunderstand
Misinterpret
Miscalculate
Take unsuccessful approaches to solving a problem undertaking a task or set of tasks
3
Hold onto incorrect myths, beliefs, misconceptions, or knowledge that, if not addressed early in students’ journey, account for immediate difficulties students encounter or longer term difficulties as they continue their studies.
4
Have difficulties in moving from knowledge to understanding to transfer and application (depth of initial learning makes a difference—how well do students acquire initial learning?) Land, Meyer, Smith, 2010
5
You knew when or who else asked your students to draw on, apply, or reuse what you expected them to learn?
You knew about the challenges or obstacles or trouble spots your students faced the next time they were asked to draw upon, apply, reuse, or integrate what you expected them to know?
6
You knew where and how well students traveled with what you taught them or positioned them to learn in your GE classes?
You knew no one asked your students to use that learning after your course.
7
Student A: “I don’t really like history. There is too much to try to remember. And it is all about olden times-- with a lot of dates and different wars and people doing things we don’t do any more. I am finished with that required course anyway.” (inert)
Student B: “We learned how to tell the difference between ‘facts’ and how different people filter and interpret the facts depending on their own interests. We also learned to examine texts– to point out and discuss what was left out of the different texts we read. I find that I do that now in my other courses.” (activated) 8
What if your institutions valued you for
Identifying the range of chronological challenges or barriers your students encounter and then
Innovating proven practices that chronologically address challenges, barriers or trouble spots students face along the trajectory of their education so that increasingly more students succeed at higher levels of achievement?
9
Learning more about what you do not yet know, as well as for what you do know
Collaboratively designing methods of inquiry into students’ learning and meaning-making processes (inquiry groups, learning circles, learning communities)
10
Why Become An Expert in Misunderstanding?
11
12
What We Know About Learners
13
14
15
Threshold Concepts: pathways central to the mastery of a subject or discipline that change the way students view a subject or discipline, prompting students to bring together various aspects of a subject that they heretofore did not view as related (Land, Meyer, Smith, 2010).
16
Learning Progressions: knowledge-based, web-like interrelated actions or behaviors or ways of thinking, transitioning, self-monitoring. May not be developed successfully in linear progression--thus necessitate formative assessment along the trajectory of learning. Movements towards increased understanding (Hess, 2008). 17
How Could You Become An Expert in Misunderstanding?
Take a backward designed problem-based approach to assessment—With colleagues, agree on what you expect
students to demonstrate at the point of graduation (summative assessment)
At the point of matriculation use assessment as your baseline lens to identify patterns of initial difficulty (baseline assessment)
At a point or points along the trajectory of learning use assessment as your formative lens to track and monitor student progress (formative assessment) 18
AAC&U’s Quantitative Literacy Rubric
InterpretationAbility to explain information presented in
mathematical forms (e.g., equations, graphs, diagrams, tables, words)
RepresentationAbility to convert relevant information into
various mathematical forms (e.g., equations, graphs, diagrams, tables, words)
Application/AnalysisAbility to make judgments and draw
appropriate conclusions based on the quantitative analysis of data, while recognizing the limits of this analysis 19
AssumptionsAbility to make and evaluate important
assumptions in estimation, modeling, and data analysis
CommunicationExpressing quantitative evidence in
support of the argument or purpose of the work (in terms of what evidence is used and how it is formatted, presented, and contextualized)
20
How Does this Commitmentto Assessment Work?
Couple your outcomes with research or study questions such as—
What kinds of erroneous ideas, concepts, processes, or misunderstandings initially interfere with students’ abilities to reason quantitatively? How long do those ideas, concepts or misunderstandings persist and, thus, inhibit students’ abilities to develop
enduring learning?
21
What approaches do successful and unsuccessful students take to solve problems that require quantitative reasoning?
What strategies do student use to restructure intuitive, yet incorrect, approaches to solving problems that require quantitative reasoning?
What conceptual or computational obstacles inhibit students from shifting from one form of reasoning to another form, such as from arithmetic reasoning to algebraic reasoning? 22
Why do students have difficulty transferring knowledge or skills from one course to another one or to another context? (approaches to tasks, incorrect concepts or constructs?)
How well do stand-alone skills-based courses, such as mathematics courses, prepare students to integrate or apply those skills into future course work?
23
Identify or Design Assessment Methods That Provide Evidence of Product and
Process
24
Direct Methods to Learn about Learning Processes
Think Alouds: Pasadena City College, “How Jay Got His Groove Back and Made Math Meaningful”(Cho and Davis)
Word edit bubbles
Observations in flipped classrooms
Students’ deconstruction of a problem or issue (PLEs in eportfolios can reveal this—tagging, for example)
25
Student recorder’s list of trouble spots in small group work or students’ identification of trouble spots they encountered in an assignment
Results of conferencing with students
Results of asking open-ended questions about how students approach a problem or address challenges
26
Analysis of “chunks of work” as part of an assignment because you know what will challenge or stump students in those chunks
Use of reported results from adaptive or intelligent technology
Focus on hearing about or seeing the processes and approaches of successful and not so successful students 27
Writing beyond what is visually presented during a lecture
Identifying clues to help organize information during a lecture
Evaluating notes after class
Reorganizing notes after class 28
Comparing note-taking methods with peers
Using one’s own words while reading to make notes
Evaluating one’s understanding while reading
29
Consolidating reading and lecture notes
Sharing practices on how to organize, think, and memorize content
Evaluating one’s own understanding
Monitoring the effectiveness of note- taking practices (Yu, 2010)
30
Some Indirect Methods that Probe Students’ Learning Experiences and
Processes
SALG (salgsite.org): Student Assessment of Their Learning Gains
Small Group Instructional Design
Interviews with students about their learning experiences, about how those experiences did or did not foster desired learning, about the challenges they confronted 31
1.
Identify The Outcome or Outcomes You Will
Assess
1.
Identify The Outcome or Outcomes You Will
Assess
5.
Analyze and Interpret Students’ Work and
Students’ Responses.
5.
Analyze and Interpret Students’ Work and
Students’ Responses.
4.
Develop a Plan to Collect Direct and
Indirect Assessment Results that Will
Answer Your Question.
4.
Develop a Plan to Collect Direct and
Indirect Assessment Results that Will
Answer Your Question.
2.
State the Research or Study Question You
Wish to Answer
2.
State the Research or Study Question You
Wish to Answer
3.
Conduct a Literature Review about That
Question.
3.
Conduct a Literature Review about That
Question.
6.
Collaboratively Discuss Ways to Innovate
Pedagogy or Educational Practices
6.
Collaboratively Discuss Ways to Innovate
Pedagogy or Educational Practices
7.
Implement Agreed-upon Changes and
Reassess.
7.
Implement Agreed-upon Changes and
Reassess.
8.
Share Developments within and outside The
Institution to Build Knowledge about
Educational Practices.
8.
Share Developments within and outside The
Institution to Build Knowledge about
Educational Practices.
32
Soft Times and Neutral Zones
33
What if we….Collaboratively use what we learn from this approach to assessment to design the next generation of curricular and co-curricular design, pedagogy, instructional design, educational practices, and assignments to help increasingly more students successfully pass through trouble spots or overcome learning obstacles; 34
And, thereby, collaboratively commit to fostering students’ enduring GE learning in contexts other than the ones in which they initially learned.
35
36
37
38
Works Cited Cho, J. and Davis, A. 2008. Pasadena City College. “How Jay Got His
Groove Back and Made Math Meaningful.” http://www.cfkeep.org/html/stitch.php?s=13143081975303&id=18946594390037
Hess, K. 2008. Developing and Using Learning Progressions as a Schema for Measuring Progress. National Center for Assessment, 2008. http://www.nciea.org/publications/CCSSO2_KH08.pdf
Land, R., Meyer, J.H.F., and Smith, J. Eds. 2010. Threshold Concepts and Transformational Learning. Rotterdam: Sense Publishers.
Maki, P. 2010. 2nd Ed. Assessing for Learning: Building a Sustainable Commitment Across the Institution. VA: Stylus Publishing, LLC
National Research Council. 2002. Knowing What Students Know: The Science and Design of Educational Assessment. Washington, D.C.
Yu, C. Y. “Learning Strategies Characteristic of Successful Students.” Maki, P. 2010. p. 139.
39