Arquivo do Autor: lucaslongo

Beyond Bits and Atoms – Week 4 – Class Notes 1

This week the reading group (Camila, Anastasia, Edrik) presented a summary of the week’s readings – Freire & Blikstein.

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We then did a group exercise on creating a new makerspace – our group’s constrain was to be in an informal environment. We thought of a space in a shopping mall with several making stations and prototyping materials with a monthly topic/challenge such as water conservation to inspire projects and solutions for it. Introductory activities are available separated into distinct suggested durations of 5, 10, or 30 mintues.

We then had a very interesting talk with Dr. Dor Abrahamson, Associate Professor, Cognition & Development, University of California, Berkeley. 


Design by Theory, Theory by Design: Evolution of a Design-Based Research Project / Dor Abrahamson, 2016-01-28 TLTL, Stanford

Designing educational artifacts can be more than engineering, fabricating, and evaluating products. Rather, the practice of design can serve as a context for pursuing unresolved questions from educational scholarship relating to phenomena of learning and teaching with artifacts. In this presentation, I will survey an on-going design-based research project that seeks to illuminate relations between physical action and conceptual learning. The project, which began in Fall 2008, has gone through multiple iterations using different technologies. Currently the key build, the Mathematical Imagery Trainer, consists of an interactive NUI system in which students learn to move their hands in a new coordination as their solution to the problem of manipulating virtual objects in accord with an assigned task objective. Only once they have developed this new “choreography,” we introduce into the problem space various tools for mathematical modeling, such as a grid and numbers. I will share empirical data from eye-tracking experiments, in which we see students mentally construct new objects on the screen; these objects are then used to explain proportional relations. I will comment on the relevance of this work more broadly for understanding how higher-order reasoning emerges from sensorimotor interaction as well as what all this might mean, moving forward, for educational design.

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Curriculum Construction – Week 4 – Reading Notes

Short summary of Ralph Tyler’s Basic Principles of Curriculum and Instruction

  • Four fundamental questions to be answered when developing any curriculum
    • What educational purposes should the school seek to attain?
    • What educational experiences can be provided that are likely to attain these purposes?
    • How can these educational experiences be effectively organized?
    • How can we determine whether these purposes are being attained? (Tyler, 1950, 1-2)
  • Content and ideologically agnostic

Wiggins, G., & McTighe, J. (2005). Understanding By Design. (Expanded 2nd edition) Alexandria, VA: Association for Supervision and Curriculum Development. pp. 13-34, and 105-133.

  • Three stages of backwards design & Template
    • Identify desired results
      • Established Goals
      • Essential Questions
      • Understandings: Students will understand that…
      • Students will know
    • Determine acceptable evidence
      • Performance tasks
      • Other Evidence
    • Plan learning experiences and instruction
      • Learning Activities
        • W = help the students know Where the unit is going and What is expected. Help the teacher know Where the students are coming from (prior knowledge, interests…)
        • H = Hook all students and Hold the interests
        • E = Equip students, help them Experience the key ideas and Explore the issues
        • R = Provide opportunities to Rethink and Revise the understandings and work
        • E = Allow students to Evaluate their work and its implications
        • T = Be Tailored (personalized) to the different needs, interests, and abilities of learners
        • O = Be Organized to maximize initial and sustained engagement as well as effective learning
  • Standards contribute to the design work in 3 ways:
    • As a reference point during design
    • For use in self-assessment and peer reviews of draft designs
    • For quality control of completed designs
  • The UbD design matrix (column headers with rows for each stage of backwards design)
    • Key Design Questions
    • Chapters of the Book
    • Design Considerations
    • Filmes (Design Criteria)
    • What the Final Design Accomplishes
  • Essential Questions: Doorways to Understanding
    • Four connotations of what an essential question is:
      • Important questions that recur throughout all our lives
      • Core ideas and inquiries within a discipline
      • Helps students effectively inquire and make sense
      • Will most engage a specific and diverse set of learners
    • The importance of intent – not only the question has to be essential but the intent of it should be clear
    • Topical vs Overarching questions
      • Topical are more content specific questions
      • Overarching are generalized question about the content
      • Define the intent then create overarching and topical questions
  • Question starters based on the Six Facets of Understanding
    • Explanation
    • Interpretation
    • Application
    • Perspective
    • Empathy
    • Self-knowledge
  • Crafting Understandings
    • Examples and non-examples of understanding
    • Definition
      • Inference stated as specific and useful generalization
      • Transferable – enduring value beyond a specific topic
      • Abstract, counterintuitive, and easily misunderstood ideas
      • Acquired by ‘uncovering’ and ‘doing’ – developed inductively, coconstructed by learners, using ideas is realistic setting and with real-world problems
      • Summarizes important strategic principles in skill areas
    • Topical and overarching understandings
    • Understandings vs Factual Knowledge

Mukai, G. (2000). Anatomy of a Curriculum Development Project. Unpublished paper. Stanford Program on International and Cross- Cultural Education. pp. 1-21.

  • Example of curriculum for teaching migration, looking at Japanese migration in the Americas as a base
  • Sections of the curriculum design process
    • Needs assessment
    • Conceptualizations
      • Activities
      • Organizing Questions
      • Objectives
      • Strategies
      • Materials
      • Assessment
    • Curriculum Research and Writing
      • Multiple intelligences
        • Verbal-linguistic intelligence
        • Logical-mathematical intelligence
        • Spatial intelligence
        • Bodily-kinesthetic intelligence
        • Musical intelligence
        • Interpersonal intelligence
        • Intrapersonal intelligence
      • Small group activities
      • Constructivism
        • Teachers seek and value their student’s points of view
        • Classroom activities challenge student’s suppositions
        • Teachers pose problems of emerging relevance
        • Teachers build lessons around primary concepts and ‘big’ ideas
        • Teachers asses student learning in the context of daily teaching
      • Emphasis on multiple perspectives, balance, and diversity in exploring any issue
      • Utilizing content experts and teachers
    • Evaluation
      • Edit curriculum for particular context
    • Dissemination
      • Spread the word

Gardner, H. (1999). The Disciplined Mind. New York: Penguin Books. pp. 115-137.

  • Designing Education for Understanding
    • University of Phoenix – designed to get a job
  • Plan backwards – determine what kind of person you want to produce, then design education accordingly
  • Neither breadth nor depth – but understanding the underlying principles of a discipline
  • Difficulties of Understanding – need deep content knowledge from teacher
  • Obstacles to Understanding – erroneous engravings on a young child’s mind – hard to change
  • Disciplinary Expertise
  • Four Approaches to Understanding
    • Learning from Suggestive Institutions
    • Direct Confrontations of Erroneous Concepts
    • A Framework That Facilitates Understanding
      • Performance of understanding – how to assess it?
    • Multiple Entry Point to Understanding
  • Other players
    • Well-trained, Enthusiastic Teachers
    • Students Prepared and Motivated to Learn
    • Technology as Helper
    • Supportive Community

Beyond Bits and Atoms – Week 4 – Maker Space Observation

Screen Shot 2016-01-27 at 11.46.04 AM.pngWent to Barron Elementary School today to observe their Maker Space. Barron is a public school with around 300 students – supposedly the ‘

poorest’ school in the district… if this is the poorest, I cannot imagine what the richest schools look like!

We spoke to the incredible Smita Kolhatkar who idealized and implemented the Maker Space in the school – now all schools in the district are using her work as a model. Inspiring. Here’s her 1to1 iPad blog and her EdTech blog.

Now off to write the report on the visit.

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Curriculum Construction – Week 4 – Class Notes

Great class again lead by our ‘master-teacher’ Denise Pope.

  • Housekeeping
    • Group sites – arrange a meeting
    • Write your Curriculum Rationale (see photo)
    • Be aware of your site’s ideology for curriculum construction
    • 1 to 2 pages – max 3 pages
  • Definition of Understanding
    • Being able to explain it
    • Apply underlying concepts onto other situations or disciplines
  • Has to be hands-on but even more so minds-on

During class we practiced create “Essential Questions” and “Essential Understandings” for a hypothetical lesson on the US Bill Of Rights

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Assignment for next week – Curriculum Rationale

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After class our group (Celine Zhagn, Lisa Jiang, Mohamad Haj Hasan) went to speak to Allison O’Hair from the Graduate School of Business (GSB). She is helping redesign their Data and Decisions course for next winter incorporating a blended-learning approach. It is a perfect opportunity for us the help design a curriculum at its conception. 

 

EdClub – dinner at my place

Edrick, Camila, James, Sherry, and Corinne came over to my place to talk about EdTech Adoption in schools. Cooked Chicken Stogonoff for the first time following some YouTube recipees – it worked! Adopting EdTech in the house – that’s what I did 🙂

And here’s the aftermath 🙂

Great discussion guys!

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Brazilian Education – Week 4 – Class Notes

We had the honor to have one of the authors from – “Educational Performance of the Poor: Lessons from Rural Northeast Brazil” by Harbison and Hanushek (1992) and David Plank who wrote a review about the book. 

The book covers the socioeconomic context of the Northeast at the time (1981-1987), and the challenges faced in the implementation and evaluation of the EDURURAL Project. 

Very interesting discussion. Main take-aways:

  • They were unable to find a relation between student performance and the teacher’s educational level or years of experience – the conclusion is that, at least quantitatively, it is impossible to pinpoint what a good teacher is – it seems like it is an art.
  • Pouring money into education works if it is to build schools but no one really know how to spend this money once it comes down to improving the quality of education.
  • Brazil has come a long way in educational infrastructure but now it’s time to talk about quality.

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Teacher PD – Week 4 – Class Notes

Today we went over the research papers we read about Math PD. We reconstructed the LHS framework through the lens of different researchers – hard mental exercice but gave us a good grip on the different foci each one has.

  • Differentiation amongst teachers
    • “Students of treatment teachers whose mathematics knowledge was below that threshold did worse than students of control teachers with comparable knowledge.” (Givvin & Santagata, 2011, p.445)
  • Requirement to do the PD
    • Research
      • + More data
      • – Less engagement
  • Change from one year to the other
  • Pre-diagnose the teachers

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Curriculum Construction – Week 3 – Reading Reflection 1 Assignment

Prompt

These short papers (approximately 2-3 pages) are intended to help students reflect on the experience of curriculum development, and to help us assess student understanding of concepts and ideas gleaned from the readings and class sessions. To maximize the benefits of the reading reflections, students should write papers that address topics of real concern. Each “RR” should reference specific reading assignments and make substantive connections between the text(s) and the curriculum development process and/or classroom discussions and site experiences. 

Response

A curriculum is a distilled reflection of the multi-tiered struggle of the educational process; a struggle between cultural values, ideologies, interests, power, human relations, to name a few. It is also a conflict between the macro and the micro, intention and interpretation, and by definition, plural. The topic that is in eternal evolution and a central driver in the growth of our society. “What we call the curriculum is a multifaceted whole made up of the relationships between content, purpose, time, and individual and institutional actions as perceived and interpreted by various parties.”, (Walker, 1989, p.7) The sheer volume of factors that influence a curriculum design, its effectiveness, its purpose, and implementation lends itself to be a challenging endeavor and to be precisely defined. “So long as people disagree about what kind of education is best for humanity, they will prefer different definitions of curriculum” , (Walker, 1989, p.6) Curriculum construction is a daunting task involving several stakeholders, with varying interests, resources, and knowledge of the current research and best practices.

Let’s imagine that all the countries in the world joined forces to create a Global Curriculum. What would it look like? Who would decide what disciplines would be taught, how, and at what developmental stage of the learner? How would it be implemented in different contexts, with differing resources and widely varying levels of teacher’s and student’s previous knowledge? Is it possible that global guidelines be implemented inside a particular setting, with a specific teacher, for a specific learners?

“All that you get now with a position of authority over curriculum decisions is a seat at the “game” of curricular influence – and you have to play that position into influence over what happens in schools and classrooms. To do this you have to know where the floating crap game is today, what the current rules of the game are, who are the other pairs, what’s at stake, and how to play the game.”, (Walker, 1989, p.22)

Walker not only speaks of the process of influencing what a curriculum will look like, but also delineates seven important characteristics of curriculum practice, which lead me to reflect on the vast scope and power of curricula. Freire would say that  curricula can be an instrument of control designed to oppress. As a mind-altering device (Eisner, 1994), one must be aware of the tacit implications a curriculum has in our children. Yet how do we come up with an agreement on how we should alter their mind? “For some the government has no business supporting the arts, and for others the school has no business teaching adolescents about sex.” (Eisner, 1994, p.48) In an ever more diverse society, these questions and issues permeate the curriculum design process.

Several curriculum ideologies guide this design process influencing what is taught, how it’s taught, and why. Religious Orthodoxy for example might inadvertently shy students away from being inquisitive in an attempt to avoid them being ‘exposed’ to differing values. “The claim that man rationality at its best is incapable of fully understanding God’s plan: only arrogance and ignorance would suppose otherwise.” (Eisner, 1994, p.62) Progressivism on the other hand, believes that we as rational organisms trying to best adapt to our environment. We are not a designed by a ‘God’ but we evolve as we adapt and grow in the world.

“Dewey’s work is rooted in a biological conception of the human being. By this I mean that he regards the human being as a growing organism whose major developmental task is to come to terms, thought adaptation or transformation, with the environment in which he or she lives.” (Eisner, 1994, p.67)

Gardner (1999) also gives us a synthetic list of struggles to consider:

• Breadth vs depth of content

• Accumulation vs. construction of knowledge

• Utilitarian vs. intellectual growth’s sake goals

• Uniform vs. individualized education

• Private vs public education

• Multidisciplinary vs mastery of one

• Assessments – all in or none at all

• Relative or universal standards

• Technocentric vs Homocentric

• Student-centric vs teacher-centric approach

The list of ideologies goes on and builds upon previous theories, research and beliefs. Each ideology focuses on core concepts that guide curriculum construction, which in turn, are implemented by teachers through their own ideologies, interpretations, and understanding. The school and/or the district will also have their own preferences, and so will the organizations and people funding educational projects. So how can we ensure that the best curriculum is designed and implemented? “Critical Theorists, in the main, tell the world what schooling suffers from, but they have a tendency to emphasize criticism rather that construction.” (Eisner, 1994, p.76) How might we navigate in the midst of these power and ideological struggles? Shall we using Noding’s (1992) care framework or focus on Gardner’s ‘truth, beauty and good’ trilogy? How do we manage Dewey’s suggestion of causing ‘disequilibrium’, balancing internal and objective conditions, and promote ‘positive’ growth?

I believe that curriculum has to be constructed grounded on the main takeaways from each ideology, the current context, target audience, and specific learning outcomes. The art of the task is to balance all the factors influencing the design, content, and relevance. We must learn how to construct curricula, and we know from research that the best way to learn is to do it. The opposing views and multitude of layers of curricula cannot shy us away from this necessary task central to education – be at the global, national, state, district, school, classroom, or student level.

References

Bruner, J. (1960). The Process of Education. Cambridge: Harvard University Press.  pp. 1-32, 43-54.

Dewey, J. (1938/1997). Experience and Education. New York: Simon & Schuster. pp. 25-50.

Eisner, E. (1994). The Educational Imagination: On the Design and Evaluation of School Programs. (3rd. Edition). New York: MacMillan. pp. 47-86.

Freire, P. (2005). Pedagogy of the Oppressed. New York: Continuum. pp. 71-86.

Gardner, H. (1999). The Disciplined Mind. New York: Penguin Books. pp. 15-40.

Meek, A. (March 1991). On Thinking about Teaching: A Conversation with Eleanor Duckworth. Educational Leadership, pp. 30-34.

Noddings, N. (1992). The Challenge to Care in Schools. New York: Teachers College Press. pp. 44-62.

Walker, D. (1989). Fundamentals of Curriculum. Fort Worth, TX: Harcourt Brace. pp. 2- 33.

Ed 208B

Winter 2016


Feedback

Lucas,

This was an interesting topic for a reflection paper. It is clear that you have given a lot of thought to the way competing forces within society affect the construction of curriculum. While this is true, I am left wondering what exactly your the main purpose or thesis was in this work. I found a couple of places in the text that hinted at a main idea or argument, which I marked with comments. To strengthen this work, you might get explicit about the exact argument you are trying to make and make sure each paragraph is directly tied to this point. You writing has improved a lot since last quarter and it is nice to see this progress. Moving forward, you must give some time before writing to the identification of your main point and the organization of your ideas around this point.

Molly

Teacher PD – Week 4 – Reading Notes

Givvin, K.B. & Santagata, R. (2011). Toward a common language for discussing the features of effective professional development: the case of a US mathematics program, Professional Development in Education, 37:3, 439-451

  • Paper on decisions made in a math PD program in low-performing urban schools
  • Consensus of desirable features
    • Increasing teacher’s PCK
    • Ample time
    • COP
  • Lacks guides for practice
  • Driven by
    • well-defined image of effective classroom learning and teaching
    • provides opportunities for teachers to build their PCK
    • provides opportunities for teachers to examine practice
    • research based
    • engages teachers as adult learners in the learning approaches they will use with their students
    • provides opportunities for teachers to collaborate with colleagues and other experts to improve their practice
    • supports teachers to serve in leadership roles
    • links other parts of the education system
    • has a design based on student learning data
    • continuously evaluated and improved.
  • Teaching math
    • teaching underlying concepts vs procedural trick lead to better learning outcomes
  • Beliefs in teaching methodology
    • “Some teachers (and participating administrators) held firmly to the belief that demonstrating problems and allowing time to practice them was the ideal, and in PD sessions they argued (sometimes vehemently) for this more traditional form of instruction.” (Givvin & Santagata, 2011, p.444)
  • PD affected negatively teachers with poor content knowledge
    • “Students of treatment teachers whose mathematics knowledge was below that threshold did worse than students of control teachers with comparable knowledge.” (Givvin & Santagata, 2011, p.445)
  • Assessing for understanding is much harder
    • “analysis of student work for understanding was novel (and difficult) for all participants. Teachers were accustomed to assessing quality of student work only in terms of correctness (Santagata 2009).” (Givvin & Santagata, 2011, p.445)
  • Sharing teaching practices is not common
    • “We found that participating teachers had little experience of collaborating to improve practice…” (Givvin & Santagata, 2011, p.446)
  • Suggestions for future PD programs
    • Spend ample time developing a shared image of desired practices.
    • Pay attention to teachers’ thinking so that their individual needs can be met (Gersten et al. 1995, Putnam and Borko 1997, Wilson and Berne 1999)
    • Teachers need to learn how to collaborate.

Loucks-Horsley, S., Stiles, K. E., Mundry, S., Love, N., & Hewson, P. W. (2009). Chapter 1: A framework for designing professional development. Designing professional development for teachers of science and mathematics. Corwin Press, 17-58

  • Framework for PD
  • Inputs into the design process
    • Knowledge and beliefs
      • Learners and learning
      • Teachers and teaching
      • The Nature of Science and Mathematics
      • Adult Learning and Professional Development
      • The Change Process
    • Context
      • Students and Their Learning Needs
      • Teacher and Their Learning Needs
      • Curriculum, Instruction, Assessment Practices, and the Learning Environment
      • Organizational Culture and Professional Learning Communities
      • Leadership
      • National, State, and Local Policies
      • Families and Communities
    • Critical issues
      • Building capacity for Sustainability
      • Making Time for Professional Development
      • Developing Leadership
      • Ensuring Equity
      • Building a Professional Learning Culture
      • Garnering Public Support
      • Scaling Up
    • Strategies for Professional Learning
      • Immersion in Content, Standards, and Research
        • Curriculum Topic Study
        • Immersion in Inquiry in Science and Problem Solving Mathematics
        • Content Courses
      • Examining Teaching and Learning
        • Examining Student Work and Thinking
        • Demonstration Lessons
        • Lesson Study
        • Action Research
        • Case Discussion
        • Coaching
        • Mentoring
      • Aligning and Implementing Curriculum
        • Instructional Materials Selection
        • Curriculum Implementation
      • Professional Development Structures
        • Study Groups
        • Workshops, Institutes, and Seminars
        • Professional Networks
        • Online Professional Development
  • The Design and Implementation Process
    • Commit to Vision and Standards
    • Analyze Student Learning and Other Data
    • Set Goals
    • Plan
    • Do
    • Evaluate Results
    • Reflect and Revise

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Santagata, R. (2009). Designing video-based professional development for mathematics teachers in low-performing schools. Journal of Teacher Education, 60, 38-51

  • Problematic topics
    • Basic understanding of target mathematics topics
    • Knowledge of their students’ understanding
    • Ability to analyze students’ work and reasoning beyond classification into right and wrong answers.
  • Video-based PD
    • Attending to content-specific understanding
    • Scaffolding analysis of student thinking
    • Modeling a discourse of inquiry and reflection on the teaching and learning process
  • Teacher’s beliefs in low-performing schools
    • They do not think they are able to affect students’ learning.
    • They tend to have low expectations for their students.
    • They are more likely to hold an emergency creden- tial or being asked to teach outside their subject matter area
    • Pressured to improve students’ performance on standardized tests
  • Failures
    • “As professional development designers and facilitators, we overestimated our teachers’ abilities to analyze the teaching and learning process through a content lens.” (Santagata, 2009, p.50)
  • Improvements
    • Content-focused questions became more specific
    • Questions focused on common students’ misconceptions were introduced
    • Facilitators’ planning notes became more structured and the organization of teachers’ interactions was modified to include some work in pairs
    • Guidance in the analysis of student learning from the videotaped lesson was increased
  • Resulting principles
    • Attending to content-specific understanding
    • Scaffolding analysis of student thinking
    • Modeling a discourse of inquiry and reflection on the teaching and learning process

Santagata, R., Kersting, N., Givving, K.B., & Stigler, J.W. (2011). Problem implementation as a lever for change: an experimental study of the effects of a professional development program on students’ mathematics learning. Journal of Research on Educational Effectiveness, 4(1), 1-24

  • Math education is poor due to the teacher’s lack of deep content knowledge
  • PD efforts must supplement these skills not acquired in credential preparation
  • Teachers in better performing countries are able to engage students with the underlying principles
    • “Teachers in higher achieving countries appeared able to implement mathematical problems in a deeper way, using problems as a means of engaging students with core mathematical concepts. Teachers in the United States, in contrast, tended to reduce all problems to sets of procedures that required students only to execute routine steps.” (Santagata, Kersting, Givving, & Stigler, 2011, p.2)
  • Barriers to teaching math by “making the connection”
    • Lack of content and pedagogical content knowledge
    • Lack of models (i.e., knowledge of alternative instructional strategies and how to implement them in the classroom)
    • Lack of contextual support (e.g., instructional materials that support effective use of “making connection” problems)
  • Designed PD with 3 modules
    • Content exploration
    • Lesson analysis
    • Link to practice
  • Results
    • Teachers had a hard time applying what they learned in the classroom
    • Follow-up meetings were not taking seriously – constant rescheduling and mostly no preparation for them
    • Lack of support from administration hindered application of learned concepts
      • They did not trust the teaching for understanding methodology and asked teachers to focus on procedures and test taking techniques once the testing period came along.
  • Teacher profile in low-income areas
    • 67% were fully credentialed
    • 4% held or were in the progress of obtaining a single-subject credential
    • 9% were mathematics majors or minors in college
  • Need to focus on previous knowledge
    • “As a field, we need to conduct more research on middle school teachers’ understanding of key concepts of the mathematics curriculum, so PD developers and researchers can build on that knowledge base to design effective PD.” (Santagata, Kersting, Givving, & Stigler, 2011, p.19)