Category Archives: Science

Decolonizing STEM Education through Culturally Based Practices and Indigenous Knowledge

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Presenter/Guest Speaker: Dr. Dawn Wiseman from the School of Education at Bishop’s University in Sherbrooke, Québec, Canada and Dr. Lisa Lunney Borden from St. Francis Xavier University in Antigonish, Nova Scotia
Date: October 17th, 2022
Host: Dr Cynthia Nicol

In the SyMETRI meeting on Oct 17, 2022,

During the meeting, Dr. Dawn Wiseman shared how Indigenous and Western ways of knowing, being, and doing circulate together in STEAM teaching and learning. She also introduced how she involved in the creating of locally relevant STEAM education, unlearning colonialism, and building her role and responsibility of educator in terms of connecting between Indigenous and non-Indigenous people and communities. She walked SyMETRI members through her lived experience by looking at how interactions and interrelationships between policy, practitioners, and practices.

SyMETRI members asked some critical questions of Lisa such as how might we understand the nature of Indigenous knowledge? What are the sources? And what are some ways we as teachers could bring that knowledge into our teaching?Lisa discussed how many Indigenous languages are verb-based rather than English which is more noun-based. She presented her research on decolonizing mathematics education through culturally based practices and experiences that are rooted in Indigenous languages and knowledge systems.

Speaker Bio

Dr. Dawn Wiseman 

Dawn Wiseman is an Associate Professor in the School of Education at Bishop’s University in Ktinékétolékouac (Sherbrooke, Québec, Canada). She has engaged in thinking about STEAM with young people and educators for over three decades, most often alongside Indigenous people, peoples, and communities in what is currently Canada. Her research exams how Western and Indigenous ways of knowing, being, and doing, might circulate together in STEAM education, student-directed STEAM inquiry, the distinctiveness of Canadian science education research, and the possibilities of teaching and learning within the context of human-driven climate change. She teaches courses in science and research methods, interdisciplinary teaching and learning, and teaching and learning in uncertain times.

Dr. Lisa Lunney Borden

Lisa Lunney Borden is a Professor of mathematics education at St. Francis Xavier University in Canada and holds the John Jerome Paul Chair for Equity in Mathematics Education. Having taught 7-12 mathematics in a Mi’kmaw community, she credits her students and the community for helping her to think differently about mathematics teaching and learning. She is committed to research and outreach that focuses on decolonizing mathematics education through culturally based practices and experiences that are rooted in Indigenous languages and knowledge systems. Lisa teaches courses in mathematics education and Indigenous education. Lisa has helped to create the Show Me Your Math program that inspired thousands of Mi’kmaw youth to share the mathematical reasoning inherent in their own community contexts, and an outreach program called Connecting Math to Our Lives and Communities that brings similar ideas to Mi’kmaw and African Nova Scotian youth as an afterschool program.

Research in STEM Teacher Education: Examining Teachers’ Knowledge

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Presenter/Guest Speaker: Prof Marina Milner-Bolotin, Department of Curriculum and Pedagogy, Faculty of Education, UBC
Date: April 28th, 2022
Host: Dr Cynthia Nicol

Marina shared her recently published study on preservice physics teachers’ understanding of sound. In her presentation she discussed three questions:

  1. Why do we study teachers’ knowledge?
  2.  How do we study it?
  3. What do we do with the results?

A few slides from the presentation are below. The full presentation can be found here.

Abstract of the study

This study examines the knowledge for teaching of prospective secondary physics teachers as related to the subject of sound waves, specifically the topics of sound level and sound intensity. The data is comprised from future teachers’ responses to the task in which they had to compose a script for an imaginary dialogue between a teacher and a group of students and provide a commentary elaborating on their instructional choices. The topics selected for the task were chosen intentionally as they provide authentic and rich opportunities to bridge mathematics and science concepts while challenging future teachers to consider logarithmic measurement scale and its role in science. The task provided the beginning of the dialogue, that featured a student’s confusion related to the measurement of the sound level using a decibel scale. Future physics teachers were asked to extend this dialogue through describing envisioned instructional interactions that could have ensued. The instructional interchange related to the relationship between sound intensity and sound level, and particular teachers’ responses to the student ideas related to the meaning of a decibel sound level scale were categorized as featuring superficial or deep, conceptual or procedural knowledge for teaching. We describe each category using illustrative excerpts from the participants’ scripts. We conclude with highlighting the affordances of scriptwriting for teachers, teacher educators, and researchers.

Milner-Bolotin, M., & Zazkis, R. (2021). A study of future physics teachers’ knowledge for teaching: A case of a decibel sound level scale. LUMAT: International Journal on Math, Science and Technology Education, 9(1), 336-365. https://doi.org/10.31129/LUMAT.9.1.1519