1. How People Learn
What do you notice?
What do you wonder?
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How (You Can Help) People Learn (Biology)
impaled by Yersinia on flickr CC-BY-NC-SA
2. slides available at tinyurl.com/HPLBiologyWi14
HOW PEOPLE LEARN
Peter Newbury, Ph.D.
Center for Teaching Development,
University of California, San Diego
pnewbury@ucsd.edu
@polarisdotca
ctd.ucsd.edu
#ctducsd
January 27, 2014
4. Survey
Which of these do you associate with a typical
university lecture?
A) listening
B) absorbing
C) note-taking
D) learning
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How (You Can Help) People Learn (Biology)
5. The traditional lecture is based on the
transmissionist learning model
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How (You Can Help) People Learn (Biology)
(Image by um.dentistry on flickr CC)
6. Let’s have a learning experience…
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How (You Can Help) People Learn (Biology)
7. Here is an important new number
system. Please learn it.
1=
7=
2=
5=
8=
3=
7
4=
6=
9=
How (You Can Help) People Learn (Biology)
8. Test
What is this number?
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How (You Can Help) People Learn (Biology)
9. Scientifically Outdated, a Known Failure
We must abandon the tabula rasa
“blank slate” and “students as
empty vessels” models of teaching
and learning.
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How (You Can Help) People Learn (Biology)
10. New Number System: tic-tac-toe code
1
3
4
5
6
7
10
2
8
9
How (You Can Help) People Learn (Biology)
11. What is this number?
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How (You Can Help) People Learn (Biology)
12. Constructivist Theory of Learning
New learning is based on knowledge
you already have.
You store things in long term memory
through a set of connections that are
learning is done
made with your existing memories.
by individuals
Creating memories (aka learning) involves
having neurons fire and link up in networks
or patterns. (fMRI is allowing us to observe
learning as it happens.)
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How (You Can Help) People Learn (Biology)
(Images by Rebecca-Lee on flickr CC)
13. What are the patterns of
how people learn?
How do we use them?
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How (You Can Help) People Learn (Biology)
14. How People Learn
National Research Council (2000).
How People Learn: Brain, Mind,
Experience, and School: Expanded
Edition. J.D. Bransford, A.L Brown
& R.R. Cocking (Eds.), Washington,
DC: The National Academies
Press.
Available for free as PDF
www.nap.edu/catalog.php?record_id=9853
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How (You Can Help) People Learn (Biology)
15. Key Finding 1
Students come to the classroom with preconceptions about
how the world works. If their initial understanding is not
engaged, they may fail to grasp the new concepts and
information that are taught, or they may learn them for
the purposes of a test but revert to their preconceptions
outside of the classroom.
(How People Learn, p 14.)
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How (You Can Help) People Learn (Biology)
16. Key Finding 2
To develop competence in an area, students must:
a) have a deep foundation of factual knowledge,
b) understand facts and ideas in the context of a
conceptual framework, and
c) organize knowledge in ways that facilitate
retrieval and application.
(How People Learn, p 16.)
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How (You Can Help) People Learn (Biology)
17. Key Finding 3
A “metacognitive” approach to instruction can help
students learn to take control of their own learning by
defining learning goals and monitoring their progress in
achieving them.
(How People Learn, p 18.)
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How (You Can Help) People Learn (Biology)
18. Aside: metacognition
Metacognition refers to one’s knowledge concerning one’s
own cognitive processes or anything related to them.
For example, I am engaging
in metacognition if I notice
that I am having more
trouble learning A than B.
([2], [3])
meta cognition
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How (You Can Help) People Learn (Biology)
19. Key Finding 3
A “metacognitive” approach to instruction can help
students learn to take control of their own learning by
defining learning goals and monitoring their progress in
achieving them.
(How People Learn, p 18.)
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How (You Can Help) People Learn (Biology)
20. Please gather into groups of 2-3
Each set of colored cards has
3 Key Findings
3 Implications for Teaching
3 Designing Classroom
Environments
TASK: Match the cards into
Key Finding
3 sets of 3 cards
2
Key Finding
3
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How (You Can Help) People Learn (Biology)
Designing
Classroom
Environment
Implications
for Teaching
22. Key Finding 1
Students come to the classroom with preconceptions about
how the world works. If their initial understanding is not
engaged, they may fail to grasp the new concepts and
information that are taught, or they may learn them for
the purposes of a test but revert to their preconceptions
outside of the classroom.
(How People Learn, p 14.)
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How (You Can Help) People Learn (Biology)
23. Implications for Teaching 1
Teachers must draw out and work with the preexisting
understandings that their students bring with them.
(How People Learn, p 19.)
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How (You Can Help) People Learn (Biology)
24. New Coding System
Please memorize this code:
1=
4=
7=
1
2
3
2=
5=
8=
4
5
6
3=
6=
9=
7
8
9
unsupported, unfamiliar content
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How (You Can Help) People Learn (Biology)
built on pre-existing
knowledge
(tic-tac-toe board)
25. Classroom Environments 1
Schools and classrooms must be learner centered.
(How People Learn, p 23.)
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How (You Can Help) People Learn (Biology)
27. Learning requires interaction
Learning gain:
100%
0.50
0
27
% of class time
NOT lecturing
How (You Can Help) People Learn (Biology)
pre-test
post-test
[4]
28. Learning requires interaction
52 classes of sizes 25 to >100 students, at
2- and 4-yr colleges and research
universities across US, wrote an astronomy
pre- and post-test. Each point shows a
class’ learning gain.
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How (You Can Help) People Learn (Biology)
[4]
30. Key Finding 2
To develop competence in an area, students must:
a) have a deep foundation of factual knowledge,
b) understand facts and ideas in the context of a
conceptual framework, and
c) organize knowledge in ways that facilitate
retrieval and application.
(How People Learn, p 16.)
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How (You Can Help) People Learn (Biology)
32. Implications for Teaching 2
Teachers must teach some subject matter in depth,
providing many examples in which the same concept is
at work and providing a firm foundation of factual
knowledge.
(How People Learn, p 20.)
Classroom Environments 2
To provide a knowledge-centered environment, attention
must be given to what is taught (information, subject
matter), why it is taught (understanding), and what
competence or mastery looks like.
(How People Learn, p 24.)
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How (You Can Help) People Learn (Biology)
41. Why Your Students Don’t Understand You
Expert brains differ from novice brains because novices:
lack rich, networked connections so they cannot make
inferences, cannot reliably retrieve information
have preconceptions that distract, confuse, impede
lack automization, resulting in cognitive overload
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How (You Can Help) People Learn (Biology)
42. Key Finding 3
A “metacognitive” approach to instruction can help
students learn to take control of their own learning by
defining learning goals and monitoring their progress in
achieving them.
(How People Learn, p 18.)
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How (You Can Help) People Learn (Biology)
43. Implications for Teaching 3
The teaching of metacognitive skills should be
integrated into the curriculum in a variety of subject
(How People Learn, p 21.)
areas.
Classroom Environments 3
Formative assessments — ongoing assessments designed
to make students’ thinking visible to both teachers and
(How People Learn, p 24.)
students — are essential.
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How (You Can Help) People Learn (Biology)
46. peer instruction with clickers
interactive demonstrations
What do you notice?
What do you wonder?
surveys of opinions
reading quizzes
worksheets
discussions
videos
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How (You Can Help) People Learn (Biology)
student-centered instruction
47. Clicker Question
The molecules making up the dry mass of wood that
forms during the growth of a tree largely come from
A) sunlight.
B) the air.
C) the seed.
D) the soil.
Question credit: Bill Wood
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How (You Can Help) People Learn (Biology)
48. Typical Episode of Peer Instruction (PI)
1. Instructor poses a conceptually-challenging
multiple-choice question.
2. Students think about question on their own and vote
using clickers, colored ABCD cards, smartphones,…
3. The instructor asks students to turn to their neighbors
and “convince them you’re right.”
4. After that “peer instruction”, the students vote again
and the instructor leads a class-wide discussion
concluding with why the right answer(s) is right and
the wrong answers are wrong.
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How (You Can Help) People Learn (Biology)
49. In effective peer instruction
students teach each other while
they may still hold or remember
their novice preconceptions
students discuss the concepts in their
own (novice) language
students learn
and practice
how to think,
communicate
like experts
each student finds out what s/he does(n’t) know
the instructor finds out what the students know (and
don’t know) and reacts, building on their initial
understanding and preconceptions.
49
How (You Can Help) People Learn (Biology)
50. peer instruction with clickers
interactive demonstrations
What do you notice?
What do you wonder?
surveys of opinions
reading quizzes
worksheets
discussions
videos
50
How (You Can Help) People Learn (Biology)
student-centered instruction
51. Chemistry Day 4 by pennstatenews on flickr CC-BY-NC
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How (You Can Help) People Learn (Biology)
52. Clicker question
A ball is rolling around
the inside of a circular
track. The ball
leaves the track
at point P.
C
B
A
D
P
Which path
does the ball
follow?
52
How (You Can Help) People Learn (Biology)
(adapted from Mazur)
E
53. peer instruction with clickers
interactive demonstrations
What do you notice?
What do you wonder?
surveys of opinions
reading quizzes
worksheets
discussions
videos
53
How (You Can Help) People Learn (Biology)
student-centered instruction
54. What do you notice?
What do you wonder?
54
How (You Can Help) People Learn (Biology)
impaled by Yersinia on flickr CC-BY-NC-SA
55. peer instruction with clickers
interactive demonstrations
What do you notice?
What do you wonder?
surveys of opinions
reading quizzes
worksheets
discussions
videos
55
How (You Can Help) People Learn (Biology)
student-centered instruction
57. Active Learning in Discussion Sections
peer instruction with clickers, colored ABCD cards, ABCDE
pdf on smartphones,…
1-Minute papers: What is most confusing right now?
Problem Solving in Groups
Provide scaffold/structure
Ask what steps would you take to solve problem
(versus actually solving them)
Critique or “fix” sample work/problem
overhead slides, document cameras, board?
If there’s a skill expert biologists have (drawing,
identifying structures in diagram, etc.) give students a
worksheet which gives them practice doing it.
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How (You Can Help) People Learn (Biology)
58. How People Learn
Learning is not about what the
instructor does. It’s about what
students do for themselves.
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How (You Can Help) People Learn (Biology)
59. How People Learn
Learning is not about what the
instructor does. It’s about what
students do for themselves.
Students need to encounter safe yet challenging
conditions in which they can try, fail, receive feedback,
and try again without facing summative evaluation.
(What the best college teachers do [6], p.108)
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How (You Can Help) People Learn (Biology)
60. How People Learn
Learning is not about what the
instructor does. It’s about what
students do for themselves.
Students will not learn (just) by
listening to the instructor explain.
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How (You Can Help) People Learn (Biology)
61. How People Learn
Learning is not about what the
instructor does. It’s about what
students do for themselves.
Students will not learn (just) by
listening to the instructor explain.
BE LESS HELPFUL
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How (You Can Help) People Learn (Biology)
62. If in doubt, ask yourself…
Who is doing the work,
you or the students?
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How (You Can Help) People Learn (Biology)
63. References
1.
2.
Flavell, J. H. (1976). Metacognitive aspects of problem solving. In L. B. Resnick
(Ed.), The nature of intelligence (pp.231-236). Hillsdale, NJ: Erlbaum.
3.
Brame, C. (2013). Thinking about metacognition. [blog] January, 2013,
Available at: http://cft.vanderbilt.edu/2013/01/thinking-aboutmetacognition/ [Accessed: 14 Jan 2013].
4.
Prather, E.E, Rudolph, A.L., Brissenden, G., & Schlingman, W.M. (2009). A
national study assessing the teaching and learning of introductory astronomy.
Part I. The effect of interactive instruction. Am. J. Phys. 77, 4, 320-330.
5.
Sprague, J., & Stuart, D. (2000). The speaker’s handbook. Fort Worth, TX:
Harcourt College Publishers.
6.
63
National Research Council (2000). How People Learn: Brain, Mind, Experience,
and School: Expanded Edition. J.D. Bransford, A.L Brown & R.R. Cocking
(Eds.),Washington, DC: The National Academies Press.
Bain, K. (2004). What the best college teachers do. Cambridge, MA: Harvard
University Press.
How (You Can Help) People Learn (Biology)