Document Type
Article
Publication/Presentation Date
Fall 2025
Abstract/Description
This assignment is designed to help EGR120 – Graphical Communication students understand, interpret, and apply dimensional tolerances in engineering drawings. It is structured into four main parts: Pre-assessment, AI-supported learning, application and calculation, and final reflection. In the Pre-assessment, students begin by reflecting on their initial understanding of dimensional tolerances and how parts fit together, which promotes critical thinking and activates prior knowledge. The AI-supported learning phase involves using tools like CoPilot or ChatGPT to explore and clarify key concepts such as tolerance, types of fit between mating components, nominal values, and real-world examples. This fosters responsible AI use as a learning support tool. The application and calculation phase combines both AI and non-AI tasks, where students create their own mechanical part fit scenario, assign appropriate tolerances, perform detailed calculations, and use AI to confirm their fit type, later verifying the AI’s output against a provided technical chart. The final reflection phase requires students to consider what they learned, the role AI played in their understanding, and how this knowledge applies to real engineering contexts.
This assignment supports students in developing technical, conceptual, and digital literacy skills. It enables them to interpret mechanical drawings with tolerance, distinguish between types of fit (clearance, interference, transition), and perform relevant calculations. Conceptually, they recognize the functional importance of dimensional accuracy and the role of tolerances in assembly and performance. Furthermore, it encourages digital literacy by practicing responsible and critical use of AI tools to support learning rather than replace it. To replicate this activity, educators should emphasize when students should use or avoid AI to encourage authentic reflection and calculation. Class time should be allocated to allow thoughtful completion of each step, and instructors should actively engage with students to prompt deeper thinking during the activity. Visual aids or physical models can help ground abstract concepts, while creativity should be encouraged during the mechanical part fit scenario task. Collaboration among peers is also recommended, especially for the later stages, and sharing anonymized student reflections can spark discussion and enhance learning.
Required Publisher’s Statement
CC BY-NC-SA: You are welcome to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator. If you remix, adapt, or build upon the material, you must license the modified material under identical terms.
Scholarly Commons Citation
Liberati, N. (2025). Class Activity, Understanding and Applying Tolerances. , (). Retrieved from https://commons.erau.edu/ai_engineering/1
Word Document Version of the Resource
Additional Information
Audience: AI Beginners