2010/02/26

Exploring kindergarten teachers' pedagogical content knowledge of mathematics

Last week, an interesting article was published online in the International Journal of Early Childhood. The article is entitled Exploring Kindergarten Teachers’ Pedagogical Content Knowledge of Mathematics, and it has been written by Joohl Lee. The combination of teachers knowledge of mathematics and kindergarten is very interesting, and while a lot of research has been done to learn more about the type of knowledge mathematics  teachers need in school, little has been done to learn more about this in kindergarten. This is also mentioned by Lee in the article. As the title of the article reveals, Lee builds upon Shulman's traditional framework of teachers' professional knowledge. What I don't understand, however, is how it is possible to write an article about teachers' pedagogical content knowledge of mathematics without making any reference to the MKT (Mathematical Knowledge for Teaching) framework, or any of the work done by Deborah Ball and her colleagues at the University of Michigan. I understand that this article has a focus on kindergarten, but still... I also think there should be some mention of how the teachers in the study were selected. 81 kindergarten teachers were assessed in the study, and 55% of these had a master's degree. I would like to know more about how representative this sample was. Still, I think it is an interesting article, and I think it is a good thing that the issue of kindergarten teachers' knowledge of mathematics is addressed.

Here is the abstract of the article:
The purpose of this study was to assess 81 kindergarten teachers’ pedagogical content knowledge of mathematics on six subcategory areas such as number sense, pattern, ordering, shapes, spatial sense, and comparison. The data showed participants possessed a higher level of pedagogical content knowledge of “number sense” (M = 89.12) compared to other mathematics pedagogical content areas. The second highest scores among six subcategories of pedagogical content knowledge of mathematics was for the pedagogical content area of “pattern” (M = 82.33). The lowest scores among those six subcategories of kindergarten teachers’ pedagogical content knowledge were obtained from the subcategory of “spatial sense” (M = 44.23), which involved the means to introduce children to spatial relationships. The second lowest score was obtained for the subcategory of “comparison” (M = 50.40) which involved the means to introduce the concept of graphing and the use of a balance scale for measurement.



2010/02/24

Teachers attending to students' reasoning

John M. Francisco and Carolyn A. Maher have written an article about Teachers attending to students’ mathematical reasoning: lessons from an after-school research program. This article was published online in Journal of Mathematics Teacher Education last Thursday. This article is interesting in several respects, amongst others because awareness of and knowledge about students' mathematical reasoning is something teachers need, and it should be part of every mathematics teacher's professional knowledge. Theoretically, it builds upon Shulman's classic framework, but they also make interesting links to a focus on practitioner-researcher collaboration. The article reports on a study that was made of "elementary and middle school teachers who participated as interns in the 1-year NSF-funded Informal Mathematical Learning Project (IML)". Here is a copy of the abstract of their article:
There is a documented need for more opportunities for teachers to learn about students’ mathematical reasoning. This article reports on the experiences of a group of elementary and middle school mathematics teachers who participated as interns in an after-school, classroom-based research project on the development of mathematical ideas involving middle-grade students from an urban, low-income, minority community in the United States. For 1 year, the teachers observed the students working on well-defined mathematical investigations that provided a context for the students’ formation of particular mathematical ideas and different forms of reasoning in several mathematical content strands. The article describes insights into students’ mathematical reasoning that the teachers were able to gain from their observations of the students’ mathematical activity. The purpose is to show that teachers’ observations of students’ mathematical activity in research sessions on students’ development of mathematical ideas can provide opportunities for teachers to learn about students’ mathematical reasoning.



2010/02/16

Busy days...

The last couple of weeks have been extremely busy - for many reasons - and I haven't been able to follow up on all the latest articles and news in the field. I apologize for this, and I hope that all the readers of the blog have patience with me! I promise that I will catch up :-)

In the meantime, you always have a couple of good options in order to stay really up-to-date:
These two sites are a bit easier for me to update, and when I don't manage to update my blog as often as I would, I will probably continue to push new updates to these two other services. Still, as soon as I get my head above water again, I will keep providing you with information here as well :-)

2010/02/09

Mathematically based and practically based explanations

Esther Levenson, Pessia Tsamir and Dina Tirosh have written an interesting article about Mathematically based and practically based explanations in the elementary school: teachers’ preferences. Their article was published online in Journal of Mathematics Teacher Education on Friday. In this article, the authors make interesting connnections between research on teachers' knowledge and beliefs. Although their focus is on knowledge and beliefs in relation to the use of explanations (and they distinguish between mathematically and practically based explanations) in the classroom, the article makes a nice contribution to extending our understanding of the way these concepts are related. The part of teachers' knowledge (and beliefs) that the authors discuss is related to students' thinking, or even a sub-category of that. In this respect, they make valuable contributions to what Deborah Ball and her colleagues refer to as Knowledge of Content and Students, but their focus is also in the borderline of what is referred to as Knowledge of Content and Teaching. The links to research concerning teachers' beliefs is also interesting, althought the authors don't go into great detail here. They are, of course, aware of this, and explain that they have only given "a glimpse into the complexity of the relationship between teachers' knowledge and beliefs", in particular with focus on teachers' use of explanations.

Here is the abstract of their article:
This article focuses on elementary school teachers’ preferences for mathematically based (MB) and practically based (PB) explanations. Using the context of even and odd numbers, it explores the types of explanations teachers generate on their own as well as the types of explanations they prefer after reviewing various explanations. It also investigates the basis for these preferences. Results show that teacher-generated explanations include more MB explanations than PB explanations. However, many still choose to use mostly PB explanations in their classrooms, believing that these explanations will be most convincing to their students. The implications for teacher education are discussed.



2010/02/03

ZDM, February, 2010

A new issue of ZDM - The International Journal on Mathematics Education has been published. This issue has a special focus on Historical aspects of the use of technology and devices in ICMEs and ICMI, and guest editors have been Maria G. Bartolini Bussi and Marcelo C. Borba. The issue contains 15 articles which covers many aspects of the theme, from historical perspectives on the use of technology to a social perspective on technology enhanced learning. Here is an overview of the contents of this issue: