Project Based Instruction - PowerPoint PPT Presentation

1 / 26
About This Presentation
Title:

Project Based Instruction

Description:

Project Based Instruction A UTeach Conference Course Overview Fl vio Azevedo Jill Marshall flavio_at_austin.utexas.edu STEM Education University of Texas at Austin – PowerPoint PPT presentation

Number of Views:130
Avg rating:3.0/5.0
Slides: 27
Provided by: GailCa4
Category:

less

Transcript and Presenter's Notes

Title: Project Based Instruction


1
Project Based Instruction
  • A UTeach Conference Course Overview
  • Flávio Azevedo
  • Jill Marshall
  • flavio_at_austin.utexas.edu
  • STEM Education
  • University of Texas at Austin

2
Project Based Instruction
  • What do you know?
  • What do you want/need to know?

3
What is PBI?
  • In project-based science classrooms, students
    investigate and collaborate with others to find
    solutions to real-world questions. Using
    technology make products to show what they have
    learned. This method of teaching science
    motivates young learners to learn and explore,
    and it meets the national goals for and standards
    of science education. Because project-based
    science parallels what scientists do, it
    represents the essence of inquiry and the nature
    of science. (Krajcik Czerniak, 2007, p. 25)

4
Why PBI?
  • In PBI, students are prepared to do things they
    might actually do in life.
  • Research has demonstrated that students in
    project-based learning classrooms get higher
    scores than students in traditional classrooms
  • (Krajcik Blumenfeld, 2006, p. 318)

5
Essential elements of PBI
  • Some sort of driving question or problem, for
    which the answer is not readily known.
  • Complex, extended, collaborative, situated
    inquiry.
  • Data gathering from multiple sources required for
    solution.
  • Scaffolding in the form of benchmark lessons,
    opportunities for assessment, social structure
  • Use of cognitive tools

6
History of PBI
  • Originates in home project movement beginning in
    vocational agricultural ed in the early 20th
    Century.
  • Looked to the immediate needs and interests of
    students in order to engage them in the hearty
    purposeful act (Kilpatrick, 1918, p.320).
  • But did not teach future citizens what they
    needed to know (Charters, 1922 cited in
    Kliebard, 1995, p.141) and that learning limited
    to this method was too discontinuous, too random,
    and too haphazard, too immediate in its function
    (Bode, 1927, cited in Kliebard, 1995, p.152).
    Vanished by the 1950s.

7
The new PBI
  • Undergoing a resurgence with student-centered
    reforms
  • Outcomes-driven, theoretically-grounded design
    process addresses main objections (lack of focus
    cognitive overload)
  • Tied to appropriate learning goals, scaffolding
    (Barron, B., Schwartz, D. L., Vye, N. J., Moore,
    A., Petrosino, A. J., Zech, L., Bransford,
    J.D.1998).

8
Overview
  • Course originally developed by Tony Petrosino
  • Housed in Dept of Curriculum Instruction
  • Field-based course 3 4 day field experience,
    plus several classroom observations.
  • Master teacher sets up field experience
  • Mentor teachers paid stipends

9
Capstone course
  • Prerequisites STEP 1-2, Knowing and Learning,
    Classroom Interactions
  • Last course before Apprentice Teaching
  • Preliminary portfolio due during PBI

10
Course Goals
  • 1) To support the UTeach students development by
    building a deep understanding of PBL, including
    differentiating between strong and weak
    theoretical approaches to PBL, and between PBL
    and other inquiry-based approaches.

11
Course Goals
  • 2) To enhance UTeach students ability to design
    or adapt activities, lesson plans and a complete
    project-based unit following theoretical
    frameworks of PBL

12
Course Goals
  • 3) To build UTeach students capacity to
    critically reflect on their own and others
    lesson plans and enactment.

13
Course Goals
  • 4) To increase UTeach students ability to
    measure student learning through the appropriate
    use of formative and summative assessment, and
    respond instructionally to the assessment
    information.

14
Course Goals
  • 5) To incorporate and synthesize work from
    Knowing and Learning, Classroom Interactions, and
    STEP courses into a meaningful capstone
    experience integrating theory and practice.

15
Course goals
  • Students experience an engineering design
    challenge and evaluate this mode of instruction.

16
PBI and equity
  • Contextualized around your own students
    experiences
  • Everyone gets to do high-level thinking, develop
    21st century skills
  • Need-to-know created for facts and skills
  • Addressing the other 90

17
Major components
  • Read and discuss literature on PBI
  • Experience and/or learn about several PB units
    (Design challenge)
  • Create and implement a project-based unit at a
    local high school (groups of 2-3)
  • Analyze the implementation and suggest
    improvement (individual, written assignmt)
  • Design a 2-4 week unit based on topics in state
    standards in their AT semester

18
Components of PBI
Field Experience
Theory
Unit Development
Reflective Analysis
19
Semester Flow Spring 2012
Weeks 1-4 Weeks 5-9 Weeks 10-15
Presentation and analysis of PB units (including experiencing one as learners) Plan, create, and implement field experience unit in close collaboration with teacher Analysis and reflections on field experience ----------------------- Portfolio
Engagement with literature (including creating and critiquing examples) Design of final project 2-4 week unit, additional literature planned for AT
20
Logistics and Classroom Practices Policies
  • Class meetings 3 hours weekly
  • Outside preparation (7-10 hours, some during
    class)
  • Class Agenda and Activities displayed in
    PowerPoint and archived on Blackboard/Canvas
  • Course assignments (guidelines, rubrics),
    resources posted on Blackboard/Canvas
  • Online discussion board for reading
    accountability, input to discussion

21
Field experience
  • Format has varied historically
  • Master teacher arranges placement
  • Does it have to be a PB school? No, but students
    should have access to PB instruction to observe
  • Meeting between students, mentor teachers
    observations
  • Spring 14
  • one 90-min class period, field trip (school day),
    two 90-min class periods
  • Student groups identified sites for their field
    trip
  • E.g, natural history museum local caverns, F1
    track

22
Components of unit design process (Krajcik,
McNeill, Reiser, 2008)
  • Identify and unpack standards
  • Generate learning performances
  • Create concept maps showing relationships
  • Craft driving question
  • Iteratively, define anchor activity and final
    product
  • Craft assessment and learning activities to reach
    learning performances and scaffold final product
  • Create calendar
  • ----------------------
  • Upload all to webpage

23
Driving Questions
  • feasible
  • worthwhile (aligns with standards)
  • contextualized (real-world)
  • meaningful (interesting)
  • Ethical (Krajcik Blumenfeld, 2006)
  • Sustainable (Krajcik Czerniak, 2007)
  • How can I smell things at a distance?
  • How can machines help me build big things?
  • Anchoring experience can make the D Q more
    meaningful

24
Anchoring experience
  • Bransford et al., 1990 Kumar, 2010
  • A story (video) of a situation that puts a
    problem in real-world context
  • Scaffolds students, embedded information, models
    approaches
  • Great resource Petrosino and Dickinson website
    (http//www.edb.utexas.edu/anchorvideo/howto.php)

25
Final product
  • Performance (presentation) or product (wildlife
    sanctuary plan, physical or computer model,
    report, video, etc.)
  • Addresses driving question
  • Embodies students learning
  • Supports students in developing understanding
  • Encourages connections between ideas, disciplines
  • Realistic

26
Resources
  • Example projects at http//www.uteach.utexas.edu/P
    BI
  • Blog at http//pbispring2012.wordpress.com/
  • Legacy cycle webpage at http//www.edb.utexas.edu/
    visionawards/petrosino/
  • Anchor video (Petrosino) http//www.edb.utexas.edu
    /anchorvideo/theory.php
Write a Comment
User Comments (0)
About PowerShow.com