Ingredients for Successful Lessons: Challenging Tasks
& Questions that Count
Gail BurrillMichigan State University
The urn
Calculus Nspired, 2010
Increasing at a decreasing rate?
Overview
Challenging tasks– Examples– What makes worthwhile tasks
Questions– Why questions– Examples of “good” questions
The role of technology
Opportunities for discussion
Tasks have to be justified in terms of the learning aims they serve and can work well only if opportunities for
pupils to communicate their evolving understanding are built into the
planning. (Black & Wiliam, 1998)
The Mast
A sailboat has two masts. One is 5m, the other 12m, and they are 24m apart. They must be secured to the same location using one length of rigging. What is the least amount of rigging that can be used?
The mast
12
5
24P
Locate P so AP + PB is a minimum
AB
Measuring/arithmetic
12
5
24P
Locate P so AP + PB is a minimum
AB
AP+BP12 12 30
11 13 30.2
13 11 29.8
14 10 29.6
16 8 29.43
Using algebra
12
5
24P
Locate P so AP + PB is a minimum
AB
Using geometry
12
5
24
P
Locate P so AP + PB is a minimum
AB
C
Reflect B to C over the deck line
Is P’ the solution? Why or why not?
12
5
24
P
Locate P so AP + PB is a minimum
AB
Find D, the intersection of the diagonals, and construct perpendicular from D to the deck at P’.
D
P’
Worthwhile Tasks
Focused on important mathematics; clear mathematical goal (intent & justification)Provide opportunities for discussionProvoke thinking and reasoning about the mathematics; high level of cognitive demandEngage students in the CCSS mathematical practices Create a space in which students “wonder, notice, are curious”
SSTP, 2013
Triangles
Draw a triangle ABCConstruct the perpendicular bisector of side ABConstruct the perpendicular bisector of side BCMake a conjecture about the perpendicular bisector of side AC.Move point AWhat do you observe?
A small park is enclosed by four streets, two of which are parallel. The park is in the shape of a trapezoid. The perpendicular distance between the parallel streets is the height of the trapezoid. The portions of the parallel streets that border the park are the bases of the trapezoid. The height of the trapezoid is equal to the length of one of the bases and 20 feet longer than the other base. The area of the park is 9,000 square feet. a. Write an equation that can be used to find the height of the trapezoid. b. What is the perpendicular distance between the two parallel streets?
The Task?
www.iroquoiscsd.org/cms/lib/NY19000365/Centricity/Domain/105/CN__097_LESSON_13.1.PDF
The task?10. Mrs. Dorn operates a farm in Nebraska. To keep her operating costs down, she buys many products in bulk and transfers them to smaller containers for use on the farm. Often the bulk products are not the correct concentration and need to be custom mixed before Mrs. Dorn can use them. One day she wants to apply fertilizer to a large field. A solution of 55% fertilizer is to be mixed with a solution of 44% fertilizer to form 22 liters of a 47% solution. How much of the 55% solution must she use?
6 L 11L 21L 19L
http://answers.yahoo.com/question/index?qid=20100224163459AASjkx7
A rubric for inquiry math tasks
Harper & Edwards, 2011
Worthwhile tasks involveMultiple representations Multiple strategies for solutionsMultiple solutionsMultiple entry pointsModels to develop conceptsCritical thinkingOpportunity for reflectionMaking connections among strands, concepts
Characteristics of tasks- Urn & the Mast
Multiple representations (urn)Multiple strategies for solutions (mast)Multiple solutionsMultiple entry points (urn, mast)Models to develop concepts (urn)Critical thinking (urn, mast)Opportunity for reflectionMaking connections among strands, concepts (mast)
Characteristics of tasks- Urn & the Mast
Multiple representations (urn)Multiple strategies for solutions (mast)Multiple solutionsMultiple entry points (urn, mast)Models to develop concepts (urn)Critical thinking (urn, mast)OPPORTUNITY FOR REFLECTIONConnections among strands, concepts (mast)
To PROBE or uncover students’ thinking. • understand how students are thinking about the
problem. • discover misconceptions. • use students’ understanding to guide instruction.
To PUSH or advance students’ thinking. • make connections • notice something significant. • justify or prove their thinking.
The only reasons to ask questions are: (Black et al., 2004)
00:04:25 T The thing we're gonna learn about …is exponential growth.00:04:29 T …we have 2 cubes. This would be like 2 to the 1st power.00:04:34 T So if we made it 2 squared, which would be 2 times 2, we would see that it grows to 2 squared. That's two times two, right?00:04:44 T Two cubed is 2, times 2, times 2. 2 to the 3rd power…00:04:53 T Then if we go two to the fourth, you're looking ..00:05:05 T Now two to the fourth is how much?00:05:08 SN Sixteen.00:05:14 T Okay. So two to the fifth would be how much?00:05:17 SN Twenty-five.00:05:18 SN Twenty-five?00:05:19 SN No.00:05:20 SN Twenty.00:05:21 SN Thirty-two.00:05:24 T Two to the fourth is 16….00:05:26 T And we take that and multiply it by two and we get?
NCES TIMSS US Video 1999
Lesson on linear functionT: Zach, what did your group find out? What did you discuss?Z: If you slide the B, it changes the location on the x and y-axis.T: When you slide B?Z: Yeah. And the A, just rotates. It keeps, I think, yeah, the y-axis on the same point. But changes the x-axis.T: What do you mean? Show us what you’re talking about.Z: Here. So this is a.T: And what’s happening?.....…T: Interesting. But how do you know that? I can’t see the y-intercept up there. How do you know it’s rotating around the y-intercept?S: ‘Cause of the sliders.T: What? …. Go back. Go back. How do you KNOW that it’s rotating around the y-intercept without even seeing it?
Functions & sliders , 2012
Inquiry QuestionsExplain what something means; what is …. Choose and evaluate strategies: What advantages does….have?Compare and contrast: How are they alike? How different?Given an action, predict forward: “What would happen if . . ?”Given a consequence, predict backward: “What do I do if I want . . . to happen?” “Is it possible to ... ?”Require analyzing a connection/relationship: “When will . . . be (larger, smaller, equal to, exactly twice, etc.) compared to . . .?”
“When will . . . be as large (small) as possible?”Generalize/make conjectures: “When does . . . work?” “Describe how to find . . .?” “Is this always true?”Justify/prove mathematically: “Why does . . . work?”Change assumptions inherent in the problem Interpret information, make and justify conclusion: “The data support… ; “This… will make ….happen because…”
Dick & Burrill, 2009
Unpredictability and Predetermination
Deliberate: Clear intent and justification- about what we do in teaching, not just about what we expect but also about what we do as teachers in organizing and implementing a lesson– Lessons that enable students to learn are not
“accidents” or “good” days; careful and intentional planning goes a long way
Practice the role of teachingTake risks -
*Active 2013
NFL Quarterback Passing Ranking
Burrill & Hopfenberger, 1998
Step 1: Complete passes divided by pass attempts. Subtract 0.3, then divide by 0.2 Step 2: Passing yards divided by pass attempts. Subtract 3, then divide by 4. Step 3: Touchdown passes divided by pass attempts, then divide by .05. Step 4: Start with .095, and subtract interceptions divided by attempts. Divide the product by .04.The sum of each step cannot be greater than 2.375 or less than zero. Add the sum of Steps 1 through 4, multiply by 100, and divide by 6.
An Alternate Formula?
Responding to questions‘In composing a useful response, the teacher has to interpret the thinking and the motivation that led the pupil to express the answer. It helps if the teacher first asks the pupil to explain how he or she arrived at that answer, then accepts any explanation without comment and asks others what they think. This gives value to the first answer, and draws the class into a shared exploration of the issue. In doing this the teacher changes role, from being an interviewer of pupils on a one-to-one basis to being a conductor of dialogue in which all may be involved.’(Black, 2009).
Procedures as worthwhile tasks
JeopardyA solution is 3+2i.Concave up for x>2 and x<-1 and an asymptote at x=-1.Has an axis of symmetry at x=3 and passes through (2,1)Solution is π/4 + 2nπ
Procedures as worthwhile tasks
Sortquadratic equations (by form, by number of solutions, by common x-intercept, …)trig equations (by form, number of solutions, …)
Analyze “student” work for correct solutions
Good questions engage students in the mathematical practices
Make sense of problems and persevere in solving themReason abstractly and quantitativelyConstruct viable arguments and critique the reasoning of othersModel with mathematicsUse appropriate tools strategicallyAttend to precisionLook for and make use of structureLook for and express regularity in repeated reasoning
CCSS, 2010
Use appropriate tools strategicallymake sound decisions about using tools, recognizing both the insight to be gained and their limitations
use technology to visualize the results of varying assumptions, explore consequences, and compare predictions with data
use technological tools to explore and deepen understanding of concepts.
identify relevant external mathematical resources and use them to pose or solve problems
CCSS 2010
As a tool for doing mathematics - a servant role to perform computations, make graphs, …As a tool for developing or deepening understanding of important mathematical concepts
The role of technology
Dick & Burrill, 2009
Functions/area
AP Calculus AB 2003
Item No.
Correct Answer
Percentage Correct by
Grade
Total
Percent Correct
5 4 3 2 1
From characteristics of f ’to f to f ”
Calculus AB 2003
4.Assume that y = log2 (8x) for each positive realnumber x. Which of the following is true?
A) If x doubles, then y increases by 3.B) If x doubles, then y increases by 2.C) If x doubles, then y increases by 1.D) If x doubles, then y doubles.E) If x doubles, then y triples.
Algebra and Precalculus Concept Readiness Alternate Test (APCR alternate) – August 2013
2. Suppose = . If 𝐴 𝑙𝑜𝑔𝐵 B changes from x to 𝑥2, how does A change?
A. A changes to 𝐴2.B. A changes to 2A.C. A changes to (1/2)A.D. A changes to A/(log 2).E. A changes to A + log 2.
Algebra and Precalculus Concept Readiness Alternate Test (APCRalternate) – August 2013
25. Which of the following defines f −1 for f (t ) = ln(t + 2) ?
A) f −1(t) = et − 2B) f −1(t) = et+2
C) f −1(t) = et−2
D) f −1(t) = et/2E) f −1(t) = et + 2
Algebra and Precalculus Concept Readiness Alternate Test (APCR alternate) – August 2013
Life timevs income
Gapminder
Logarithms
Logarithmic scale Linear scaleGapminder
A special sequence
Handshakes
How many handshakes are possible with 3 people? With 5?
Find a general rule for the number of handshakes for n people and verify your rule.
How many handshakes?
People Handshakes1 02 13 34 6
How many handshakes?
n(n-1)
n = 1 n = 2 n = 3 n(n+1)2
H =
or
2H =
?????
A task
Choose two whole numbers a and b (not too large)
Compute a2 +b2 =
a2 - b2 =
2ab =
a,b to produce a2-b2, 2ab, a2+b2
Geometry Nspired, 2009
Pythagorean Triples
3 4 55 12 137 24 259 40 4111 60 6113 84 8515 112 11317 144 14519 180 18121 220 221
Chips & Probability
1. You have a bag with 6 chips in two different colors, red and blue. You draw two chips from the bag without replacement.a. What is the probability the chips are the same color? b. What is the probability you have one of each color?2. You have a bag with two different colors of chips, red and blue. If you draw two chips from the bag without replacement, how many of each color chip do you need to have in the bag for the probability of getting two chips of the same color to equal the probability of getting two chips, one of each color
Tasks we give and questions we ask should ensure students
are actively involved in choosing and evaluating strategies, considering assumptions, and receiving feedback.
encounter contrasting cases- notice new features and identify important ones.
struggle with a concept before they are given a lecture
develop both conceptual understandings and procedural skills
National Research Council, 1999; 2001
“taking mathematics is not enough”Students should acquire the habit of puzzling over mathematical relationships - why is a formula true; why was a definition made that way? It is the habit of questioning that will lead to understanding of mathematics rather than merely to remember it, and it is this understanding that college courses require. The ability to wrestle with difficult problems is far more important than the knowledge of many formulae or relationships. More important than the knowledge of a specific mathematical topic is the willingness to tackle new problems.
Harvard University
“Teaching” Practices
Think deeply about simple things. Ross
Never say anything a kid can say. Reinhart
If the class ends after the students have explained their work, there is no need for a teacher. Takahashi
When students don’t seem to understand something, my instinct is to consider how I can explain more clearly. A better way is to think “They can figure this out. I just need the right question.” Kennedy
I know what they have learned when I observe them in a place where they have never been. Cuoco
Algebra and Precalculus Concept Readiness (APCR). (2013). Using Research to Shape Instruction and Placement in Algebra and Precalculus MAA Director of Placement Testing, Bernard Madison. Mathematics Association of America. Black, P. (2009). Looking again at formative assessment. Learning and Teaching Update, 30.Black, P. & Wiliam, D. (1998). “Inside the Black Box: Raising Standards Through Classroom Assessment”. Phi Delta Kappan. Oct. pp. 139-148.Black, P. Harrison, C., Lee, C., Marshall, E., & Wiliam, D. (2004). “Working Inside the Black Box: Assessment for Learning in the Classroom,” Phi Delta Kappan, 86 (1), 9-21.Burrill, G. & Hopfensperger, P. (1997). Exploring Linear Relations. Palo Alto CA: Dale Seymour Publications.Calculus Nspired. (2010). Math Nspired. Texas Instruments Education Technology. www.ti-mathnspired.com/login/?next=/
References
College Board (2003) AP Calculus AB Free-Response Questions. apcentral.collegeboard.com/apc/members/exam/exam_questions/2003.htmlCommon Core Standards. College and Career Standards for Mathematics 2010). Council of Chief State School Officers (CCSSO) and (National Governor’s Association (NGA)Cuoco, A. (2003). Personal correspondenceDick, T., & Burrill, G. (2009). Presentation at Annual Meeting of National Council of Teachers of Mathematics. Washington DC Functions & Sliders. (2012). Video Clip from T-Cubed Common Core State Standards Professional Development Workshop. Brennan, B., Olson J. & the Janus Group. Curriculum Research & Development Group. University of Hawaii at Manoa, Honolulu HI (2011).Gapminder World. http://www.gapminder.org/world/Geometry Nspired. (2009). Math Nspired. Texas Instruments Education Technology. www.ti-mathnspired.com/Harper, S., & Edwards, T. (2011). A new recipe: No more cookbook lessons. The Mathematics Teacher. 105(3). Pp 180-188.Harvard University. http://collegeapps.about.com/gi/o.htm?zi=1/XJ&zTi=1&sdn=collegeapps&cdn=education&tm=54&f=10&su=p897.11.336.ip_&tt=2&bt=1&bts=1&zu=http%3A//www.admissions.college.harvard.edu/apply/preparing/index.html%23math
Kennedy, D. (2002). Talk at National Council of Teachers of Mathematics Annual Meeting. Boston MA.National Center for Education Statistics (NCES). (2003).Third International Mathematics and Science Study (TIMSS), Video Study. U.S. Department of Education. http://nces.ed.gov/timss/video.aspNational Research Council. (1999). How People Learn: Brain, mind, experience, and school. Bransford, J. D., Brown, A. L., & Cocking, R. R. (Eds.). Washington, DC: National Academy Press. National Research Council (2001). Adding It Up. Kilpatrick, J., Swafford, J., & Findell, B. (Eds.) Washington DC: National Academy Press. Also available on the web at www.nap.edu.Reinhart, Steven C., (2000). Never say anything a kid can say! Mathematics Teaching in the Middle School. Apr. 2000, 478–83.Ross, A. In interview with Jackson, A. (2001). Interview with Arnold Ross, Notices of the American Mathematical Society, pp. 691-698.Summer School Teachers Program. (2013). Reflecting on Practice Course. Park City Mathematics Institute. Institute for Advanced StudyTakahashi, A. (2008). Presentation at Park City Mathematics Institute Secondary School Teachers Program
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