Research Wednesday | November 5, 2025
Differentiation, Depth of Knowledge, and Artificial Intelligence: Integrating Frameworks for Rigorous and Responsive Instruction
Guest Contributor - Peter Noonan
Effective differentiation remains one of the most powerful yet challenging practices in contemporary classrooms. Grounded in the principle that instruction should be adapted to students’ readiness, interests, and learning profiles, differentiation ensures that all learners engage meaningfully in the pursuit of shared academic goals (Tomlinson, 2014). The integration of Webb’s Depth of Knowledge (DOK) framework with adaptive technologies such as artificial intelligence (AI) offers a promising approach to achieving this goal by balancing cognitive complexity with accessibility.
Webb’s (1997) DOK model delineates four levels of cognitive demand: recall and reproduction (Level 1), skills and concepts (Level 2), strategic thinking (Level 3), and extended thinking (Level 4). These levels help educators move beyond the notion of “harder versus easier” work toward designing learning experiences that deepen conceptual understanding (Hess, 2022). Differentiating instruction “up” the DOK scale increases rigor by emphasizing reasoning, synthesis, and application, while differentiating “down” maintains conceptual integrity by strategically reducing cognitive load through scaffolds, modeling, and structured supports (Fisher et al., 2016).
Artificial intelligence enhances this process by offering adaptive, immediate, and personalized supports that align with DOK levels. AI tools can generate tiered assignments, translate complex texts to more accessible reading levels, or provide visual and linguistic scaffolds that maintain content fidelity (Luckin et al., 2016; Holmes et al., 2022). Such technology expands teachers’ capacity to engage in real-time formative assessment and to adjust instruction responsively (Darling-Hammond et al., 2020).
Critically, rigorous differentiation is not synonymous with increased workload or exclusive access for advanced students. Rather, it is a form of equity work ensuring that every learner has access to high levels of thinking through appropriately scaffolded pathways (Tomlinson & Jarvis, 2014). When educators use frameworks like DOK in conjunction with AI-enabled tools, they can design tasks that invite multiple modes of engagement, encourage transfer of learning, and promote student agency within a cognitively rich environment.
In sum, blending differentiation, DOK, and AI represents a convergence of enduring pedagogy and emerging innovation. This integration empowers educators to sustain rigor while personalizing instruction, ensuring that depth and complexity are not reserved for a few, but accessible to all. The following is an article from Edutopia that leverages these ideas even further: https://www.edutopia.org/article/using-ai-tools-differentiated-instruction/
Here is a 2025 study, Use of Artificial Intelligence in Differentiated Instruction, retrieved from https://dl.acm.org/doi/10.1145/3744367.3744427
References
Darling-Hammond, L., Flook, L., Cook-Harvey, C., Barron, B., & Osher, D. (2020). Implications for educational practice of the science of learning and development. Applied Developmental Science, 24(2), 97–140. https://doi.org/10.1080/10888691.2018.1537791
Fisher, D., Frey, N., & Hattie, J. (2016). Visible learning for literacy: Implementing the practices that work best to accelerate student learning. Corwin.
Hess, K. (2022). Deeper learning through depth of knowledge: Frameworks for meaningful instruction and assessment. Corwin.
Holmes, W., Bialik, M., & Fadel, C. (2022). Artificial intelligence in education: Promises and implications for teaching and learning. Center for Curriculum Redesign.
Luckin, R., Holmes, W., Griffiths, M., & Forcier, L. B. (2016). Intelligence unleashed: An argument for AI in education. Pearson.
Tomlinson, C. A. (2014). The differentiated classroom: Responding to the needs of all learners (2nd ed.). ASCD.
Tomlinson, C. A., & Jarvis, J. M. (2014). Teaching gifted students in the regular classroom. ASCD.
Webb, N. L. (1997). Criteria for alignment of expectations and assessments in mathematics and science education. National Institute for Science Education.
News from Creative Leadership Solutions
Fearless Schools Podcast In the latest episode of the Fearless Schools Podcast, we welcome Katie Powell, a passionate advocate for middle school education. We discuss Katie's journey from a curious student to a dedicated educator, her insights on engaging students through creative teaching strategies, and the importance of emotional safety in the classroom. Katie shares her experiences that influenced her book, Boredom Busters, and she also examines the need for differentiation among educators, and the role of school leaders in supporting teachers. The conversation emphasizes the significance of seeing students (particularly middle school students) as individuals and investing in their emotional and academic growth. Apple Podcasts Spotify iHeart Podcasts
CLS Newsletter November offers us the opportunity to embrace gratitude. We pause to reflect on the people, partnerships, and moments that have shaped our work. Gratitude is more than a feeling; it is a practice that strengthens our schools, our teams, and our leadership. CLICK HERE
CLS Services CLICK HERE to learn more about what makes us different and how we can help your team.
Fearless Instruction Our latest book, Fearless Instruction, has been released! It features a dynamic collection of voices united by a common purpose: to carry forward and evolve the foundational work of the 90/90/90 schools. Grounded in research and rich with practical strategies, this book is for educators ready to lead with clarity, collaborate with purpose, and teach with courage. Fearless Instruction can be purchased from Amazon by CLICKING HERE.