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UDL Implementation in the Math Classroom

This resource will be on how the flexible differentiation that UDL generates can help all learners, especially those struggling or receiving services for disabilities, gain the access to quality mathematics learning at high levels that they may otherwise be denied.

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About: 

It is relatively simple to articulate the three broad core principles of Universal Design for Learning to the PK–12 mathematics educator: Provide multiple means of engagement, multiple means of representation, and multiple means of action and expression for all students on a regular basis. Application of these principles, however, is arguably more difficult, particularly when one attends to the detailed guidelines they encompass or attempts to focus exclusively on the teaching of a specific content area. Educators and their contexts are as unique as fingerprints, and the idea of differentiating instruction in UDL-inspired ways on a consistent basis in every aspect of teaching within the confines of those unique contexts can be quite challenging. This resource will provide practical examples to educators attempting to apply core UDL tenets to their teaching of mathematics at all levels of PK–12 education. The emphasis will be on how the flexible differentiation that UDL generates can help all learners, especially those struggling or receiving services for disabilities, gain the access to quality mathematics learning at high levels that they may otherwise be denied.

Creative Commons Licence

Authors/Creators: 
Amy McDonald, Harold Campbell

Organization/Publishers: 
UDL-IRN

Category Quick Find:

Teaching Resource
Implementation

PreK-12 Subject Area:

Math

Accessibility:

WCAG v2.0 A

Research & Academic:

Implications for Teaching & Practice

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Posted date:

December 12, 2018
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Resource Fee: 
$0.00