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Getting Students to Take Initiative when Learning

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Title: Getting Students to Take Initiative when Learning


1
Getting Students to Take InitiativewhenLearning
Doing Mathematics
John Mason Oslo Jan 2009
2
Do You Know Any Students Who
  • do the minimum to get through a lesson?
  • wait to be told what to do?
  • finish quickly and then mess around?
  • are content to assent to what is said and done,
    but rarely assert mathematically?

3
When Do You Take Initiative?
  • When you are interested, engaged, involved
  • When you have a stake in getting something
    finished
  • When you are surprised or intrigued
  • When something is or becomes real for you

4
Fraction Construction
  • Write down two numbers that differ by 3/7
  • and another pair
  • and another pair
  • And another pair that make the difference as
    obscure as possible

5
Decimal Construction
  • Write down
  • A decimal number between 3 and 4
  • that does not use the digit 5
  • and that does use the digit 7
  • and that is as close to 7/2 as possible

6
Line Construction
  • Write down the equation of a straight line that
    passes through the point (1,0)
  • and another
  • and another
  • Write them all down!

7
More Line Constructions
  • Sketch the graph of two straight lines whose
  • x-intercepts differ by 2 and another
  • y-intercepts differ by 2 and another
  • slopes differ by 2 and another
  • Sketch the graph of two straight lines meeting
    all three constraints

8
Max-Min
  • In a rectangular array of numbers, calculate
  • The maximum value in each row, and then the
    minimum of these
  • The minimum in each column and then the maximum
    of these
  • How do these relate to each other?
  • What about interchanging rows and columns?

9
Raise your hand when you can see
  • Something which is 2/5 of something
  • Something which is 3/5 of something
  • Something which is 2/3 of something
  • What others can you see?
  • Something which is 2/5 of 5/3 of something 3/5
    of 5/3 of something
  • Something which is 2/5 of 5/3 of something
  • What part is it of your whole?
  • Something which is 1/3 of 3/5 of something
  • What part is it of your whole?
  • Something which is 5/3 of 3/5 of something
  • Something which is 2/3 of 3/2 of something

10
Getting Others To See
1/4 1/5 1/20
1/4 1/20 1/5
1/5 1/20 1/4
1/a 1/b ?
11
Doing Undoing
  • What operation undoes adding 3?
  • What operation undoes subtracting 4?
  • What operation undoes subtracting from 7?
  • What are the analogues for multiplication?
  • What undoes multiplying by 3?
  • What undoes dividing by 2?
  • What undoes dividing by 3/2?
  • What undoes multiplying by 3/2? Now do it
    piecemeal!
  • What undoes dividing into 12?

12
Remainder Construction
  • Write down a number that leaves a remainder of 1
    on dividing by 3
  • and another
  • and another
  • Write down two, multiply them together, and find
    the remainder on dividing by 3

What is special about the 3?
What is special about the 1?
13
Distributed Examples
  • Write down a number that leaves a remainder of 1
    when divided by 7
  • Now write down one which is easy to see leaves a
    remainder of 1 on dividing by 7
  • Multiply by your number by the number of someone
    sitting beside you
  • Does the product have the same property?

14
Remainders of the Day
  • Write down a number which when you subtract 1 is
    divisible by 2
  • and when you subtract 1 from that quotient, the
    result is divisible by 3
  • and when you subtract 1 from that quotient the
    result is divisible by 4
  • Why must any such number be divisible by 3?

15
Remainders of the Day
  • Write down a number which is 1 more than a
    multiple of 2
  • and which is 2 more than a multiple of 3
  • and which is 3 more than a multiple of 4

16
Making Sense of the World
17
More Or Less Whole Part
? of 35 is 21
Part
Whole
3/4 of 40 is 30
3/5 of 35 is 21
6/7 of 35 is 30
4/5 of 30 is 24
18
DifferenceDivisions
4 2 4 2
How does this fit in?
19
Differences
AnticipatingGeneralising
Rehearsing
Checking
Organising
20
Up Down Sums
1 3 5 3 1
3 x 4 1
22 32


See generalitythrough aparticular
Generalise!
1 3 (2n1) 3 1

n (2n2) 1
(n1)2 n2

21
Kites
22
Reacting Responding
  • Do you know any students who jump at the first
    idea that comes to mind?
  • Do you know any students who react negatively
    when challenged by something unfamiliar?
  • Assenting gt Asserting
  • conjecturing, trying, reasoning,

23
When Do You Take Initiative?
  • When you are interested, engaged, involved
  • When you have a stake in getting something
    finished
  • When you are surprised or intrigued
  • When something is or becomes real for you

24
When is Real-ity
  • Sense of purpose (engagement)
  • Sense of utility (present or future)
  • Use of own powers

25
Strategies
  • Learners Making Significant Mathematical Choices
  • Learner Constructed Examples of Mathematical
    Objects
  • Learner Constructed Examples of Exercises
  • Learners deciding which exercises need doing
  • Distributed example construction

26
ZPD
  • When students are ready to shift from
  • Reacting to cues and triggers
  • to initiating actions for themselves
  • Scaffolding Fading
  • Directed, prompted, spontaneoususe of
    strategies, powers, concepts, techniques

27
Task Design
  • expert awareness is converted into instruction
    in behaviour
  • transposition didactique

28
Task Activity
  • A task is what an author publishes, what a
    teacher intends, what learners undertake to
    attempt.
  • These are often very different
  • What happens is activity
  • Teaching happens in the interaction occasioned
    by activity

Teaching takes place in timeLearning takes place
over time
29
Tasks
  • Learners encounter variation
  • Learners build up example spaces
  • Learners rehearse other techniques while
    exploring
  • Learners encounter disturbances and surprises

30
Purpose Utility
Ainley Pratt
  • whose purposes?
  • whose utility?
  • mathematics is useful
  • planning from objectives leads to dull
    lessonsplanning from tasks may mean avoidance
    of mathematical ideas, thinking, etc.
  • Issue how much do you tell learner in advance?
  • Inner and outer aspects of tasks

31
Teacher Aims and Goals
  • students to
  • make use of their powers
  • experience mathematical themes
  • encounter mathematical concepts, topics
  • develop facility and fluency with techniques
  • use technical terms to express their conjectures
    and understandings

32
Learner Aims Goals
  • As learners, to
  • do as little as necessary to complete tasks
    adequately
  • attract as little (or as much) attention as
    possible
  • be stimulated, inspired, engaged

33
Task Dimensions
  • How initiated
  • in silence through phenomenon (shown or
    imagined)
  • How sustained
  • Group discussion distributed tasks individual
  • How concluded
  • How structured
  • Simple to complex Particular to general
  • Complex simplified General specialised

34
MGA
35
Reflection
  • What did you notice happening for you
    mathematically?
  • What might you be able to use in an upcoming
    lesson?
  • Imagine yourself in the future, using or
    developing or exploring something you have
    experienced this morning!

36
More Resources
  • Questions Prompts for Mathematical Thinking
    (ATM Derby primary secondary versions)
  • Thinkers (ATM Derby)
  • Mathematics as a Constructive Activity (Erlbaum)
  • Designing Using Mathematical Tasks (Tarquin)
  • http //mcs.open.ac.uk/jhm3
  • j.h.mason _at_ open.ac.uk
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