EDUC 6470 Final Project

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For EDUC 6470, a project to examine innovative teaching, to search the literature, and to develop ideas.

Possible projects

What is important about the sequence of classes in a unit?

This semester I've been teaching electronics. I taught an 8 week class that included lessons normally put off until after "the basics" of electronic components were "presented." For the next 8 weeks I'm offering a components class that might be more recognizable as an introduction to the basics of electronics. Many students are taking both. Unstudied first arguments might be either of these opposites:

  1. Students who build circuits first before reviewing the basics of each component will be more motivated to learn the basics of each component.
  2. Students who build circuits first won't understand enough about each component to understand the circuit as a system of components.

I will examine these concerns as I teach the second course, and see if there's any literature on this subject of sequencing within a unit. I will build a concept map to examine my own "pedagogical content knowledge" and count chunks per meeting.

Assessment

I've created a survey using Student Assessment of Learning Gains (s:14911,p:diode). I can use concept maps to assess students' development of concepts.

Parallels

I like to draw parallels to teaching in non-science subjects. In this case, I can draw a parallel between the dichotomies of basics to contextualized understandings in both subjects. For example, in english, specifically poetry, we could call iambs, troches, and rhymes the basics, and creative writing and literary analysis of an epic poem the contextualized understandings.

Related questions
  • Should engineering be a part of K-12 science education, or treated separately, as in Massachusetts?
  • Can we avoid mistakenly separating "applied science" from "pure science"? <bibref>Rowland:1883</bibref>
  • Is the literature on sequencing only for long-term sequencing of concepts, as in Atlas of Science Literacy?
  • Will this work have any translation to long-term sequencing, such as the sequencing of introductory undergraduate science?

Meta-study of PHYSLRNR

PHYSLRNR is an e-mail list for the education research group of the American Association of Physics Teachers.

Questions
  • What interests people on PHYSLRNR?
    • Are my interests in curriculum change ever addressed on PHYSLRNR, any more or less than in other PER venues?
  • How many people post on PHYSLRNR, how often?
    • Are PHYSLRNR posts representative of the diversity of physics education research?
  • Do new ideas appear on PHYSLRNR?
  • Are readers affected by what is posted on PHYSLRNR, or is it merely a soapbox?
Methods
  • Count posts.
  • Find and count keywords.
    • Reiterate as we discover patterns.
  • Measure impact by replies
  • Survey readers

Relationships between innovative teaching and innovative curriculum

Driving question
How can the powerful movement in innovative teaching be brought to help the movement in innovative curriculum?
Questions
  1. What innovations in curriculum are documented?
  2. What innovations in teaching are documented?
  3. What innovations in teaching are closely linked to considerations of content?
  4. What innovations in teaching are specific to physics?
  5. What innovations in teaching are specific to science?
  6. What innovations in teaching are specific to my audiences?
Considerable Issues
  1. There is a tension between getting more people to follow the traditional science curriculum, often touted as a path to equity and to prosperity, and changing the curriculum to address the needs of more modern people. This tension is made manifest in the efforts to open the most traditional curricula of physics and engineering to more females. [?]
Pedagogical Reforms
  1. Guided inquiry
  2. Computer aided simulations
  3. Teaching what you don't know. Discussed in a book of the same name by Therese Huston, this is the situation where experts in their subject are teaching something new to themselves. <bibref>Huston:2009Teaching-what-yAA</bibref> Although this situation may merely be an expedient for schools that can't find a teacher for a new subject, I will consider it here as a reform, since it will be required when we want to teach new curricula.
    1. One benefit of teaching new topics is described by John Bean, professor of English at Seattle University, quoted by Huston: "Each time I've taught a literature course I've wanted to have different readings. The teaching that I try to do is not simply the expert giving information to the novice; I'm teaching them how to make knowledge out of stuff that's confusing." (p. 12)

Maybe start with the document File:BruceWilson2002InnovativeCurriculum.pdf as an innovation in curriculum? Bruce Wilson wrote that we need to reduce the amount of required concepts in standards documents, in favor of allowing students to work on essential concepts so well that they learn them well. Leaving off issues of who gets to say what those essential concepts are, what innovative teaching is compatible with such a reform, and what innovative teaching necessitates such reform?

References

See Week 10 notes on Donald French's 2006 paper. <bibreferences />