- About
- Events
- Inquiry Support
- Workshops & Programs
- SoTL 101: Introduction to SoTL and Teaching + Learning Inquiry
- SoTL 102: Formulating an Inquiry Project
- SoTL Thoughts
- Coffee + Conversation
- Tools for Inquiry: Conducting Inquiry Using CES
- Amundsen Fellowship Program
- Decolonial Teaching + Learning Seminar Series
- Decolonizing and Indigenizing Curricula
- Disrupting Colonialism through Teaching Program
- Exploring Well-being in Learning Environments: An Integrated Seminar Series + Grants Program
- Inquiring into Your Multilingual Classroom: An Integrated Seminar Series + Grants Program
- New Ways of Teaching, New Ways of Learning: Supporting Learning in Online Environments
- Open Education Grant Pilot Program
- Teaching and Learning Development Grant Program
- Project Archive
- Amundsen Fellowship Program
- Disrupting Colonialism through Teaching Program
- Exploring Well-being in Learning Environments Program
- Inquiring into Your Multilingual Classroom Projects
- New Ways of Teaching, New Ways of Learning
- Teaching and Learning Development Grant Program
- Beedie
- EDUC
- Education: Charles Bingham
- Education: Lynn Fels
- Education: David Kaufman
- Education: Patrice Keats
- Education: Carolyn Mamchur
- Education: Margaret MacDonald
- Education: John Nesbit
- Education: Sepideh Fotovatian
- Education: Susan Barber
- Education: Michèle Schmidt
- Education: Natalia Gajdamaschko
- Education: Carolyn Mamchur
- Education: Kieran Egan
- Education: Susan Barber
- Education: David Zandvliet
- Education: Lannie Kanevsky
- Education: Paula Howarth
- Education: Heesoon Bai
- Education: Dolores van der Wey
- Education: Joel Heng Hartse
- Education: Carolyn Mamchur
- Education: Dolores van der Wey
- Education: Charles Bingham
- Education: Sean Chorney
- Education: Elizabeth Marshall
- Education: Pooja Dharamshi
- Education: Susan Barber
- Education: David Zandvliet
- Education: Heesoon Bai
- Education: Stephen Smith
- Education: Rina Zazkis
- Education: Roumi Ilieva
- Education: Gillian Judson
- Education: Angel Lin
- FAS
- Engineering Science: Glenn Chapman
- Engineering Science: Atousa Hajshirmohammadi
- Computing Science: Ted Kirkpatrick
- Engineering Science: Carolyn Sparrey
- Computing Science: Diana Cukierman
- Engineering Science: Carolyn Sparrey
- Engineering Science: Ivan Bajić
- Engineering Science: Michael Sjoerdsma
- Engineering Science: Fabio Campi
- Engineering Science: Atousa Hajshirmohammadi
- Mechatronic Systems Engineering: Krishna Vijayaraghavan
- Computing Science: Cynthia Xie
- Computing Science: Cynthia Xie
- Engineering Science: Krishna Vijayaraghavan
- Engineering Science: Maureen Hindy
- Computing Science: Angela Lim
- Engineering Science: Atousa Hajshirmohammadi
- Mechatronic Systems Engineering: Carolyn Sparrey
- Sustainable Energy Engineering: Taco Niet
- Computing Science: Ouldooz Baghban Karimi
- Sustainable Energy Engineering: Taco Niet
- Sustainable Energy Engineering: Vivian Neal
- Computing Science: Janice Regan
- Computing Science: Diana Cukierman
- FHS
- Health Sciences: Mark Lechner
- Health Sciences: Laurie Goldsmith
- Health Sciences: Tim Takaro
- Health Sciences: Tim Takaro
- Health Sciences: Maya Gislason
- Health Sciences: Nienke van Houten
- Health Sciences: Denise Zabkiewicz
- Health Sciences: Mark Lechner
- Health Sciences: Maya Gislason
- Health Sciences: Tun Myint
- Health Sciences: Paola Ardiles
- Health Sciences: Diego Silva
- Health Sciences: Ruth Lavergne
- Health Sciences: Tun Myint
- Health Sciences: Nienke van Houten
- Health Sciences: Shira Goldenberg
- Health Sciences: Susan Erikson
- Health Sciences: Paola Ardiles
- Health Sciences: Angela Kaida
- Library
- Scholarship of Teaching + Learning Projects
- Conferences & Calls for Proposals
- Teaching with AI: April 7, 2026 [April 07-16, 2026]
- Cfp: 2026 DPI Conference [Deadline: April 13, 2026]
- 2026 UCalgary Conference on Postsecondary Learning and Teaching [Deadline: April 19, 2026]
- BCCampus: Introduction to Offline GenAI [April 20, 2026]
- Teaching with AI: April 20, 2026 [April 20-29, 2026]
- FLO MicroCourse: AI-Resilient Assessment Design Sprint [April 27 - May 1, 2026]
- Faculty Experiences with Open Pedagogy and Social Justice [April 30, 2026]
- Cfp: 2026 SoTL Symposium [Deadline: May 4, 2026]
- Teaching with AI: May 5, 2026 [May 05-14, 2026]
- 3rd Annual Thompson-Okanagan Teaching and Learning Conference [May 13-14, 2026]
- SoTL Canada Journal Club: Developing a SoTL Identity [May 19, 2026]
- Teaching with AI: May 19, 2026 [May 19-28, 2026]
- 2026 Annual STLHE/SAPES Conference [Deadline: May 25, 2026]
- ETUG Spring 2026 Workshop: Collaboration, Co-creation, and Creativity in EdTech [May 28-29, 2026]
- Teaching with AI: June 1, 2026 [June 01-10, 2026]
- 2026 DPI Conference [August 18-20, 2026]
- 2026 SoTL Symposium Conference [October 22-24, 2026]
- For Research Personnel
- News + Stories
Using Physical Systems to Enhance Learning of Dynamics Concepts
Grant program: Teaching and Learning Development Grant Program
Grant recipient: Carolyn Sparrey, School of Mechatronic Systems Engineering
Project team: Ken Van Wieren and James Shoults, Research Machinist Shop, Faculty of Science
Timeframe: March 2019 to June 2020
Funding: $6000
Course addressed: MSE 222 – Introduction to Kinematics and Dynamics
Description: Mechatronics (and engineering) students learning dynamics often struggle to visualize how different mechanical systems move. This leads to frustration, inability to understand problems, and poor performance in the class. Mechanical systems are shown in the textbook and example problems as 2D images. In this study we want to explore the effectiveness of 3D physical representations that match example problems, allowing students to physically manipulate the mechanisms, in improving their understanding, confidence and comfort in addressing these problems. There are numerous studies highlighting the importance of strong spatial-visualization skills for engineering disciplines but fewer discuss strategies to support those who may not be as strong in their spatial understanding.
Questions addressed:
- Do students better understand kinematics and dynamics problems after being able to see and handle 3D representations of the problem?
- Is there an interaction between the impact of the 3D representation on student performance and their field of interest and/or their spatial visualization skills?
- Do students feel more comfortable or confident with the course material after having access to the 3D representations?
- How do students interact with the 3D representations? Which students interact with them?
- Can the models withstand student use?
Knowledge sharing: Results of the study will be presented at the annual Teaching and Learning Symposiums at ÌìÃÀmvÌìÃÀ. Results will also be shared with colleagues in Mechatronics through conversations with other faculty members who teach mechanical focused topics.
The tools developed in this project could be used by other colleagues in Mechatronics as they teach similar courses and the approach could more be used more broadly to assist students who may not be as proficient with spatial understanding. The results of the student demographics questionnaire and the spatial visualization test may also highlight differences within the Mechatronic Student Cohorts that could assist in planning and providing support for students with different strengths and interests. Finally, the results of this work will be shared through an academic journal paper (likely IEEE) to ensure the results are broadly distributed to the engineering teaching community.