Abstract
The publication of A Framework for K-12 Science Education (National Research Council, 2012) and the Next Generation Science Standards (NGSS Lead States, 2013) have created a need for new alternate content standards and alternate assessments in science that are linked to the new general education science standards. This article describes how a consortium of four states used Evidence-Centered Design (Mislevy, Steinberg, & Almond, 2003) and Universal Design for Learning (CAST, 2012) to develop alternate science content standards and assessments. A set of 43 alternate science content standards was created and an alternate assessment at each of three grade spans. Evidence that supports appropriateness of the alternate standards for students with SCD and fidelity of representation of the Framework is presented. One cycle of testlet/item development was conducted. Results of a pilot test (251 items; 1,606 students) are presented. Evidence for validity and accessibility of the alternate assessment is presented. Major findings include that the assessment items met accessibility, bias and sensitivity, and content requirements, and that students were able to understand and respond to assessment items. Data from a pilot assessment provided evidence of the accessibility of the standards and assessments. The implications of this work for teaching science to students with SCD and preliminary efforts to develop supports for teachers are discussed.
Highlights
Little research exists regarding how students with significant cognitive disabilities (SCD) learn or understand science concepts (Browder et al, 2012, Courtade, Spooner, & Browder, 2007), even though science content that is linked to grade-level, general education science standards has been mandated for these students since 2004 (Individuals With Disabilities Education Improvement Act [IDEIA], 2004)
This paper describes new alternate science standards and alternate assessments for students with SCD, as well as the implications of these changes for science instruction
The first research question was: How can the science disciplinary core ideas, crosscutting concepts, and science and engineering practices described in A Framework for K-12 Science Education be made accessible to students with SCD?
Summary
Little research exists regarding how students with significant cognitive disabilities (SCD) learn or understand science concepts (Browder et al, 2012, Courtade, Spooner, & Browder, 2007), even though science content that is linked to grade-level, general education science standards has been mandated for these students since 2004 (Individuals With Disabilities Education Improvement Act [IDEIA], 2004). Limited expectations have been observed in the enacted science curriculum for students with SCD (Karvonen et al, 2011) and in the methods used for science instruction (e.g, Browder et al, 2014). Science content for students with SCD has focused on life skills rather than science concepts, and science instructional methods are based on behavioral changes
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