Thinking with AI: The Teacher Workshop
Source: Nick Potkalitsky Substack
Author: Nick Potkalitsky
Original source: https://nickpotkalitsky.substack.com/p/thinking-with-ai-the-teacher-workshop
Private backup: the full article text is archived in the private repository at archives/articles/nickpotkalitsky-substack-com-thinking-with-ai-the-teacher-workshop.source.md. It is not published on the public Quartz site.
Summary
Potkalitsky introduces teacher-facing workshop materials for disciplinary AI literacy: a 1.5-hour introductory workshop, a 3-hour deep dive, and six cross-disciplinary sample lessons for grades 6–12. The core design principle is that AI should not do the thinking for students. Students should first write, read, frame, argue, or otherwise commit to their own thinking before AI enters the activity. Each lesson ends with reflection on what students accepted from AI, what they rejected, and why.
Big ideas
- AI literacy has to be taught inside real subjects
- Learning still needs some struggle, even when AI can make things easier
- Schools should start with learning values before choosing AI tools
- AI literacy requires different kinds of AI interaction
- District AI work is a long-term redesign project
Claims
- AI literacy takes system capacity, not just tool access
- AI literacy only works when it is connected to subject-area knowledge
- AI can undermine learning when students use it without guidance
- In an AI world, assessment should focus on watching students think
Key evidence and examples
- The workshop formats include “Same Technology. Different Trajectories” and “Designing for Student Thinking in an AI-Rich World.”
- The resource suite includes six sample lessons across ELA, social studies, science, and math for grades 6–12.
- A repeated sequence asks students to think, write, read, frame, or argue before AI enters.
- Final reflection asks students what they accepted from AI, what they rejected, and why.
Education relevance
High relevance for K–12 AI professional learning, disciplinary AI literacy, curriculum design, visible student cognition, and teacher-led lesson implementation.