The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola...
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![Page 1: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/1.jpg)
The Trouble with 5 ExamplesSoCal-Nev Section MAA Meeting
October 8, 2005
Jacqueline Dewar Loyola Marymount University
![Page 2: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/2.jpg)
Presentation Outline
• A Freshman Workshop Course
• Four Problems/Five Examples
• Year-long Investigation– Students’ understanding of proof
![Page 3: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/3.jpg)
The MATH 190-191 Freshman Workshop Courses
• Skills and attitudes for success
• Reduce the dropout rate
• Focus on – Problem solving– Mathematical discourse– Study skills, careers, mathematical discoveries
• Create a community of scholars
![Page 4: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/4.jpg)
Regions in a CircleWhat does this suggest?
#points 1 2 3 4 5 6
#regions ? 2 4 8 ? ?
![Page 5: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/5.jpg)
Prime Generating Quadratic
Is it true that for every natural number n,
is prime?
n2 −n+41
![Page 6: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/6.jpg)
Count the zeros at the end of 1,000,000!
N! # ending zeros
4! 0
8! 1
12! 2
20! 4
40! 9
100! 24
1000! 249
![Page 7: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/7.jpg)
Observed pattern:
If 4 divides n, then n! ends in zeros.
Counterexample:
24! ends in 4 not 5 zeros.
n
4−1
![Page 8: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/8.jpg)
Where do the zeros come from?
From the factors of 10,
so count the factors of 5.
There are
Well almost…
106
51+
106
52 +106
53 + ...+106
58
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Fermat Numbers
• Fermat conjectures (1650) Fn
is prime for every nonnegative integer.
• Euler (1732) shows F5 is composite.
• Eisenstein (1844) proposes infinitely many Fermat primes.
• Today’s conjecture: No more Fermat primes.
22n
+1=
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The Trouble with 5 Examples
Nonstandard problems give students more opportunities to show just how often 5
examples convinces them.
![Page 11: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/11.jpg)
Year-long Investigation
• What is the progression of students’ understanding of proof?
• What in our curriculum moves them forward?
![Page 12: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/12.jpg)
Evidence gathered first
• Survey of majors and faculty
![Page 13: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/13.jpg)
Respond from Strongly disagree to Strongly agree:
If I see 5 examples where a formula holds, then I am convinced that
formula is true.
![Page 14: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/14.jpg)
5 Examples: Students & Faculty
5 Examples Convinces Me
0%
20%
40%
60%
80%
100%
0 Sems 1-2 Sems 3-4 Sems >4 Sems Faculty
SDDNASA
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Faculty explanation
‘Convinced’ does not mean ‘I am certain’…
…whenever I am testing a conjecture, if it works for about 5 cases, then I try to prove that it’s true
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More evidence gathered
• Survey of majors and faculty• “Think-aloud” on proof - 12 majors• Same “Proof-aloud” with faculty expert • Focus group with 5 of the 12 majors• Interviews with MATH 191 students
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Proof-Aloud Protocol Asked Students to:
• Investigate a statement (is it true or false?)
• State how confident, what would increase it
• Generate and write down a proof
• Evaluate 4 sample proofs
• Respond - will they apply the proven result?
• Respond - is a counterexample possible?
• State what course/experience you relied on
![Page 18: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/18.jpg)
Please examine the statements:
For any two consecutive positive integers, the difference of their squares:
(a) is an odd number, and(b) equals the sum of the two consecutive
positive integers.
What can you tell me about these statements?
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Proof-aloud Task and Rubric
• Elementary number theory statement– Recio & Godino (2001): to prove– Dewar & Bennett (2004): to investigate, then prove
• Assessed with Recio & Godino’s 1 to 5 rubric– Relying on examples– Appealing to definitions and principles
• Produce a partially or substantially correct proof
• Rubric proved inadequate
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R&G’s Proof Categories
1 Very deficient answer
2 Checks with examples only
3 Checks with examples, asserts general validity
4 Partially correct justification relying on other theorems
5 Substantially correct proof w. appropriate symbolization
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Students’ Level Relative Critical Courses
Level Progression in the Major
0 Before MATH 190 Workshop I
1 Between MATH 190 & 191
2 Just Completed Proofs Class
3 Just Completed Real Variables
4 1 Year Past Real Variables
5 Graduated the Preceding Year
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Level in Major vs Proof Category
Student Level
0 0 1 1 2 2 3 3 3 4 4 5
R&G’s Proof Category
1 4 4 5 5 5 4 5 5 5 4 5
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Multi-faceted Student Work
• Insightful question about the statement
• Advanced mathematical thinking, but undeveloped proof writing skills
• Poor strategic choice of (advanced) proof method
• Confidence & interest influence performance
![Page 24: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/24.jpg)
Proof-aloud results
• Compelling illustrations– Types of knowledge
– Strategic processing
– Influence of motivation and confidence
• Greater knowledge can result in poorer performance
• Both expert & novice behavior on same task
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How do we describe all of this?
• Typology of Scientific Knowledge (R. Shavelson, 2003)
• Expertise Theory (P. Alexander, 2003)
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Typology: Mathematical Knowledge
• Six Cognitive Dimensions (Shavelson, Bennett and Dewar):– Factual: Basic facts– Procedural: Methods – Schematic: Connecting facts, procedures, methods, reasons– Strategic: Heuristics used to make choices– Epistemic: How is truth determined? Proof – Social: How truth/knowledge is communicated
• Two Affective Dimensions (Alexander, Bennett and Dewar):– Interest: What motivates learning– Confidence: Dealing with not knowing
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School-based Expertise Theory: Journey from Novice to Expert
3 Stages of expertise development• Acclimation or Orienting stage
• Competence
• Proficiency/Expertise
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MathematicalKnowledge Expertise GridAffective Acclimation Competence Proficiency
Interest
Confidence
Cognitive Acclimation Competence Proficiency
Factual
Procedural
Schematic
Strategic
Epistemic
Social
![Page 29: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/29.jpg)
MathematicalKnowledge Expertise Grid
Affective Acclimation Competence Proficiency
Interest
Students are motivated to learn by external (often grade-oriented) reasons that lack any direct link to the field of study in general. Students have greater interest in concrete problems and special cases than abstract or general results.
Students are motivated by both internal (e.g., intrigued by the problem) and external reasons. Students still prefer concrete concepts to abstractions, even if the abstraction is more useful.
Students have both internal and external motivation. Internal motivation comes from an interest in the problems from the field, not just applications. Students appreciate both concrete and abstract results.
Confidence
Students are unlikely to spend more than 5 minutes on a problem if they cannot solve it. Students don't try a new approach if first approach fails. When given a derivation or proof, they want minor steps explained. They are rarely complete problems requir
Students spend more time on problems. They will often spend 10 minutes on a problem before quitting and seeking external help. They may consider a second approach. They are more comfortable accepting proofs with some steps "left to the reader" if they hav
Students will spend a great deal of time on a problem and try more than one approach before going to text or instructor. Students will disbelieve answers in the back of the book if the answer disagrees with something they feel they have done correctly. S
Cognitive Acclimation Competence Proficiency
FactualStudents start to become aware of basic facts of the topic.
Students have working knowledge of the facts of the topic, but may struggle to access the knowledge.
Students have quick access to and broad knowledge about the topic.
ProceduralStudents start to become aware of basic procedures. Can begin to mimic procedures from the text.
Students have working knowledge of the main procedures. Can access them without referencing the text, but may make errors or have difficulty with more complex procedures.
Students can use procedures without reference to external sources or struggle. Students are able to fill in missing steps in procedures.
SchematicStudents begin to combine facts and procedures into packets. They use surface level features to form schema.
Students have working packets of knowledge that tie together ideas with comon theme, method, and/or proof.
Students have put knowledge together in packets that correspond to common theme, method, or proof, together with an understanding of the method.
StrategicStudents use surface level features of problems to choose between schema, or they apply the most recent method.
Students choose schema to apply based on a few heuristic strategies.
Students choose schema to apply based on many different heuristic strategies. Students self-monitor and abandon a nonproductive approach for an alternate.
Epistemic
Students begin to understand the common notions 'evidence' of the field. They begin to recognize that a valid proof cannot have a counterexample, they are likely to believe based on 5 examples, however, they may be skeptical at times
Students are more strongly aware that a valid proof cannot have counterexamples. They use examples to decide on the truth of a statement, but require a proof for certainty.
Students recognize that proofs don't have counterexamples, are distrustful of 5 examples, see that general proofs apply to special cases, and are more likely to use "hedging" words to describe statements they suspect to be true but have not yet verified.
![Page 30: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/30.jpg)
Implications for teaching/learning
• Students are not yet experts by graduation
e.g., they lack the confidence shown by experts
• Interrelation of components means an increase in one can result in a poorer performance
• Interest & confidence play critical roles
• Acclimating students have special needs
![Page 31: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/31.jpg)
What we learned aboutMATH 190/191
• Cited more often in proof alouds– By students farthest along
• Partial solutions to homework problems– Promote mathematical discussion– Shared responsibility for problem solving– Build community
![Page 32: The Trouble with 5 Examples SoCal-Nev Section MAA Meeting October 8, 2005 Jacqueline Dewar Loyola Marymount University.](https://reader035.fdocuments.us/reader035/viewer/2022062518/56649de85503460f94ae25a9/html5/thumbnails/32.jpg)
With thanks to Carnegie co-investigator,
Curt Bennett
and Workshop course co-developers,
Suzanne Larson and Thomas Zachariah.
The resources cited in the talk and the Knowledge Expertise Grid can be found at
http://myweb.lmu.edu/jdewar/presentations.asp