Beyond Cheating: Building AI Literacy, Critical Thinking, and Responsible Classroom Use

Artificial intelligence is already in our classrooms. Students use it for homework, brainstorming, studying, coding, writing, and sometimes avoiding thinking altogether. Many teachers feel caught between two difficult choices: ban AI completely or allow it without clear structure or expectations. Neither approach fully prepares students for the world they are entering.

This session explores how educators can move beyond the simple question of “Is AI cheating?” and instead focus on building AI literacy, critical thinking, and responsible classroom use. Rather than treating AI as either a magic solution or an academic disaster, this presentation focuses on practical ways teachers can help students use AI to support learning without replacing the learning process itself.
Using real classroom examples from Science, STEM, Robotics, and interdisciplinary secondary education, participants will explore strategies for teaching students how to:

  • Evaluate AI-generated information,
  • Recognize hallucinations and bias,
  • Use prompting responsibly,
  • Verify sources and reasoning,
  • Reflect on their own thinking,
  • Maintain ownership of their learning.

The session will also explore how assessment, instruction, and classroom expectations may need to evolve in a world where AI is always available to students. Participants will leave with practical frameworks, classroom-ready ideas, and adaptable policies that can help schools integrate AI in ways that strengthen student learning, curiosity, and independence rather than weaken them.
This presentation is designed for educators, administrators, curriculum leaders, and schools seeking balanced, realistic, and responsible approaches to AI integration in modern classrooms.

Facilitated By

Kenshin Hitengoku

Head of Science and Technology, Khon Kaen Vithes Suksa Bilingual School

Kenshin Hitengoku (H) is an educator and Head of Science and Technology at KKVS in Thailand, where he teaches Physics, Astronomy, STEM, Robotics, and Coding. His work focuses on helping students develop curiosity, critical thinking, and practical problem-solving skills in an increasingly technology-driven world.

He holds academic backgrounds in physics, environmental science, education, and climatology, and is currently pursuing a PhD focused on education and the changing pace of scientific and technological advancement throughout history.

He is especially interested in how artificial intelligence can support learning without replacing student thinking. His classroom work centers on responsible AI use, interdisciplinary learning, and helping students build the critical thinking skills needed to navigate a rapidly evolving technological world.

He is passionate about creating engaging, realistic, and future-focused learning experiences that encourage students to think deeply, question carefully, and use technology responsibly.