Description
Do you want to make K-2 math visible and meaningful for every student? Are you looking for practical ways to use manipulatives with purpose so children move from hands-on exploration to confident problem solving? Jerome Bruner’s concrete, representational, abstract progression supports hands-on learning before symbolic abstraction, and research summarized by the National Council of Teachers of Mathematics shows that manipulatives improve retention and understanding when used intentionally. In this course, Chrissy Romano shows you how to select the right tools, move from concrete to drawings to equations, and manage materials effectively so young learners build durable concepts and clear math talk, with ready to implement strategies and step by step guidance for K-2 classrooms.
Objectives
Define the concrete, representational, abstract model and list two benefits of using manipulatives in early math.
Describe how moving from concrete tools to drawings to equations supports conceptual understanding and retention.
Plan a short K-2 lesson that uses a chosen manipulative and a matching visual to model a target skill.
Identify common misuse patterns with base ten blocks and other tools and propose corrections that maintain accuracy.
Use student work and observation notes to judge when to fade manipulatives and shift to drawings or equations.
Design a classroom toolkit and rotation routine with clear roles, visual cues, and storage that support daily hands-on learning.
