Abstract
This article presents a conceptual framework for refining instruction in science for students with disabilities. We review the concept of situated cognition as a way to address difficulties students have in retention and generalization, a perennial issue in special education. If a goal for students is real world use of problem-solving strategies, students must have opportunities for contextual learning. The proposed framework suggests that integration of explicit instruction in critical concepts, with cognitively based approaches that emphasize problem-solving skills on real world tasks may allow students with disabilities to be successful The implications this framework has in terms of policy, professional development, and the creation of learning environments that promote retention and transfer are discussed.
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