7978 Views (as of 05/2023)
  1. Sarah Sword
  2. Senior Research Scientist
  3. Presenter’s NSFRESOURCECENTERS
  4. Education Development Center
  1. Courtney Arthur
  2. Presenter’s NSFRESOURCECENTERS
  3. Education Development Center
  1. Al Cuoco
  2. Distinguished Scholar
  3. Presenter’s NSFRESOURCECENTERS
  4. Education Development Center
  1. Miriam Gates
  2. Researcher
  3. Presenter’s NSFRESOURCECENTERS
  4. Education Development Center
  1. Ryota Matsuura
  2. Associate Professor of Mathematics
  3. Presenter’s NSFRESOURCECENTERS
  4. St. Olaf College
  1. Glenn Stevens
  2. http://math.bu.edu/people/ghs/index.html
  3. Professor of Mathematics
  4. Presenter’s NSFRESOURCECENTERS
  5. Boston University

Assessing Secondary Teachers' Algebraic Habits of mind

NSF Awards: 1222496, 1222426, 1222340

2017 (see original presentation & discussion)

Grades 9-12

In this video, presenters will share research outcomes from an assessment of secondary teachers' algebraic habits of mind. Outcomes include relationships between teacher practice and score on the assessment as well as changes in teachers' scores after participating in professional development projects. 

This video has had approximately 521 visits by 423 visitors from 153 unique locations. It has been played 326 times as of 05/2023.
Click to See Activity Worldwide
Map reflects activity with this presentation from the 2017 STEM for All Video Showcase: Research and Design for Impact website, as well as the STEM For All Multiplex website.
Based on periodically updated Google Analytics data. This is intended to show usage trends but may not capture all activity from every visitor.
show more
Discussion from the 2017 STEM for All Video Showcase (13 posts)
  • Icon for: Andrew Izsak

    Andrew Izsak

    Researcher
    May 15, 2017 | 02:51 p.m.

    Have you found that some practices are more difficult to support than others? In our work in content courses for future middle and secondary teachers, we have noticed that some begin to reason from definitions more quickly than others. This fits under SMP3. Have you also noticed that teachers have trouble developing this practice? 

     
    2
    Discussion is closed. Upvoting is no longer available

    Miriam Gates
    Sarah Sword
  • Icon for: Glenn Stevens

    Glenn Stevens

    Co-Presenter
    Professor of Mathematics
    May 16, 2017 | 05:41 p.m.
    Hi Andrew,   This is a very interesting and important question.  In fact, it’s related to one of my favorite themes, namely the habit of using language productively and with appropriate precision, what we call “good use of language”.  Yes, we do see that the process of using language productively takes time for just about everyone  “to get into the bones” (students, teachers, and research mathematicians alike).     In her response to Rob (below), Sarah describes beautifully the habits of "offering students concrete experiences before moving to general or abstract definitions or ideas, letting students in on development of ideas and not just finished mathematical products, and modeling clear use of mathematical language.”   Her comments point to the dependence of SMP3 (Construct viable arguments ...) on SMP7 (Look for and make use of structure).   When we started working together on this project, we summed up this process with the acronym SUDS — Seeing, Using, and Describing Structure.   We believe people learn best from experience.  Experience is something we can have alone or within a community.  Our attempt to understand experience brings us naturally to the need for language to describe the structures we’ve seen (i.e.to develop definitions that describe their features, and then to use those features in order to reason about them).   Something that we have noticed repeatedly in our work with teachers (and students — and research mathematicians if we are honest) is that we all struggle mightily to put into words the things that we instinctively know.   So it’s not really surprising that people don’t necessarily feel for themselves the meaning of definitions that were constructed through the (usually hidden) struggles of others.  Without an internal understanding of the meaning of things it’s pretty tough for any of us to construct viable arguments about them.      No doubt there are many ways of addressing these challenges.  The habits Sarah describes are among them.
     
    2
    Discussion is closed. Upvoting is no longer available

    Miriam Gates
    Sarah Sword
  • Icon for: Rob Wieman

    Rob Wieman

    Assistant Professor; Subject Matter Education, Mathematics
    May 15, 2017 | 04:26 p.m.

    Are there particular pedagogical moves that teachers seem to take up, that are connected to particular habits of mind?  Are you able to disentangle the effect of their mathematical knowledge from their experience of instruction in terms of their take-up of specific pedagogical practices (i.e. how do you know that they are more likely to teach in a particular way because of their newfound mathematical habit of mind or because they were taught that way in the project?)  Is it possible to teach to particular habit of mind if I am still working to cultivate it in myself?  

     
    2
    Discussion is closed. Upvoting is no longer available

    Miriam Gates
    Sarah Sword
  • Icon for: Sarah Sword

    Sarah Sword

    Lead Presenter
    Senior Research Scientist
    May 16, 2017 | 01:01 p.m.

    Hi Rob - the last question feels like the easiest: in general, I don't think any of thinks a habit is ever "cooked" - you get better and better at identifying and using (for example) mathematical structure over the course of your mathematical life, even if you're doing mathematics research. So in some sense, everyone is always working to cultivate habits in themselves. My suspicion is that it's possible to teach a habit of mind if you find that habit interesting, relevant, and useful. Having said that, we see teachers who do have strong habits - and who also believe that students can develop those habits - doing fairly amazing things with their students in terms of fostering habits in their students.

    As for pedagogical moves - I'm not sure what counts as a move, but we do see certain approaches associated with mathematical habits - teachers who offer students concrete experiences before moving to general or abstract definitions or ideas, letting students in on development of ideas and not just finished mathematical products, and modeling clear use of mathematical language. 

    As for disentangling mathematical knowledge, experience, and other factors... you know how hard that is. We've been immersed in studying the habits and practices of teachers in one very large high school - the teachers work closely together, they share a lot of common practices, and they've shared a lot of common habits-of-mind-based PD. It would be impossible for any one program to "take credit" for the practices that we see in those teachers. But they have had coherent PD experiences as a department, they work closely together, they constantly learn from each other, and it shows. 

     

     

     
    1
    Discussion is closed. Upvoting is no longer available

    Miriam Gates
  • Icon for: Al Cuoco

    Al Cuoco

    Co-Presenter
    Distinguished Scholar
    May 16, 2017 | 05:32 p.m.

    Hi Rob,

    Like Sarah, I'm not sure what counts as a pedagogical move, but I have seen teachers with whom we work shift focus and emphasis away from simply using  results  towards a more balanced treatment between using and establishing.

    For example, in algebra classes some teachers (not all) are hammering at the habit of abstracting regularity from numerical examples in order to build equations and functions that model situations.  Students practice [sic] this practice in everything from setting up equations to model word problems to finding Cartesian equations for geometric objects, and these folks  explicitly call out this habit when it comes up in student work.  

    I think I know the school to which School Sarah refers, and I can vouch for the fact that the incoming  mathematical backgrounds and  dispositions are all over the place.  They have the luxury of getting together once a month to work on problems, and, yes, some are much more facile with mathematical thinking than others.  But they all appreciate the approach of experience before formality (because, well, they experience it)  and cite reasons that range from ``the kids get it'' to ``it saves time in class'' to ``fewer methods to learn.''

    Al

     
    2
    Discussion is closed. Upvoting is no longer available

    Miriam Gates
    Sarah Sword
  • Icon for: Heidi Larson

    Heidi Larson

    Facilitator
    Project Director
    May 16, 2017 | 12:18 a.m.

    Thanks for your video -- very interesting! I hope it will help to recruit teachers for your field testing.

    How are schools using this assessment with their teachers? Once they have administered it, what happens then? 

     
    1
    Discussion is closed. Upvoting is no longer available

    Sarah Sword
  • Icon for: Sarah Sword

    Sarah Sword

    Lead Presenter
    Senior Research Scientist
    May 16, 2017 | 01:04 p.m.

    Hi Heidi, thank you for your questions. There are two main ways programs have used the assessment: one is diagnostically - determining where groups of teachers could use more support in developing mathematical habits of mind. The other way we've seen it used is as a pre- post- measure of PD programs success in fostering mathematical habits of mind. In each case, we can provide summaries of groups of teachers' scores across each of three dimensions: language, seeking structure, and using structure. 

     
    2
    Discussion is closed. Upvoting is no longer available

    Heidi Larson
    Miriam Gates
  • Icon for: Miriam Gates

    Miriam Gates

    Co-Presenter
    Researcher
    May 17, 2017 | 03:04 p.m.

    It is also notable that in cases where the instrument has been used diagnostically, it can also lead to some really rich discussions among teachers in a district or school. As highlighted in the video, the tasks are designed to lend themselves to multiple approaches. We have heard from teachers that using the instrument as a vehicle for discussion can be instructive, provide opportunities to discuss the different approaches with colleagues, and be fodder for interesting classroom practice discussions.

     
    2
    Discussion is closed. Upvoting is no longer available

    Heidi Larson
    Sarah Sword
  • Icon for: Jennifer Yurof

    Jennifer Yurof

    Facilitator
    May 17, 2017 | 09:02 a.m.

    Thanks for sharing your project - very interesting work! Do you offer resources for teachers to alter their habits of mind?

     
    1
    Discussion is closed. Upvoting is no longer available

    Sarah Sword
  • Icon for: Miriam Gates

    Miriam Gates

    Co-Presenter
    Researcher
    May 18, 2017 | 08:24 a.m.

    Hi Jennifer, Thanks for the question. 

    While our project was designed to measure the impact of programs that would seek to impact these habits, there are a number of programs that do target these habits. In the realm of in person professional development opportunities, two intensive summer mathematics experiences would be Promys for Teachers (a piece of which is shown in the video) and PCMI’s Teacher Program.

    In terms of written resources that focus on these ideas, the PCMI materials have recently been published with facilitator notes, solution sets, and discussions of how the ideas fit into the mathematical landscape. The Developing Mathematical Ideas series also focuses on the big ideas of mathematics at K-8 and can serve to support teachers in developing mathematical ideas and think about their application to the classroom.

     

     
    3
    Discussion is closed. Upvoting is no longer available

    Heidi Larson
    Steven Rogg, Ph.D.
    Sarah Sword
  • Icon for: Steven Rogg

    Steven Rogg

    Facilitator
    Associate Professor of Education - STEM
    May 17, 2017 | 10:51 p.m.

     With the diagnostic and PD applicaitons that you cited, I'm curious if anyone has coupled the assessment with Lesson Study in mathematics?  The focus of lesson study being on student response in a lesson, it would add a dimension of understanding, I think, to also have a companion tool for teacher habits of mind. Perhaps?

  • Icon for: Sarah Sword

    Sarah Sword

    Lead Presenter
    Senior Research Scientist
    May 18, 2017 | 01:30 p.m.

     This is really interesting, Steve, because all of our work on the assessment has come from one kind of "teacher response" or another - most of the items were taken from interesting things we saw in teachers' classrooms, and all of the rubrics were built from teacher responses and interview data that we collected early in the project. But also: one of the most fun things we've done in the project is debrief with teachers after they've taken the assessment - it's fun to talk about habits of mind/Standards for Mathematical Practice, and how teachers see those standards and habits represented in the assessment items. 

    Do you have a sense of what such a tool would look like? 

     

    Thanks for your comment and question! 

     
    1
    Discussion is closed. Upvoting is no longer available

    Steven Rogg, Ph.D.
  • Icon for: Steven Rogg

    Steven Rogg

    Facilitator
    Associate Professor of Education - STEM
    May 18, 2017 | 07:58 p.m.

    Thanks, for your reply, Sarah. I am intrigued by the emergent design from teacher response which then cycles back as feedback when debriefing the assessment. To answer your question, I'd serve you better to refer you to my good colleagues Tom McDougal and Akihiko Takahashi at info@LSAlliance.org. I look forward to watching your work inspire algebraic habits of mind!

  • Further posting is closed as the event has ended.