A beginner's guide to identifying basic 2D shapes and their properties, specifically focusing on sides and corners.

A hands-on exploration of comparing fractions that share the same denominator, using visual models and physical manipulatives to understand size relationships.

A beginner's guide to identifying basic 2D shapes and their properties, specifically focusing on sides and corners.

A fast-paced remediation lesson focused on identifying US coins and mastering the skill of counting mixed change up to one dollar.

A fundamental geometry lesson for identifying and counting the properties of basic polygons.

Students dive into equivalent fractions and solve interactive word problems that require creative drawing and visual representation of fractional concepts.

Students master multiplication facts up to 10 through artistic Color by Number challenges featuring butterflies, flowers, and spring scenes.

A comprehensive introduction to the distributive property using whole numbers, focusing on area models and decomposing factors to simplify multiplication. Students will learn to 'break apart' numbers to solve problems more efficiently.

A comprehensive lesson on understanding and generating equivalent fractions using visual models, with a specific focus on fractions greater than one. Students explore the concept through the lens of architectural blueprints and precision building.

A beginner-friendly introduction to the distributive property using visual area models, themed around planning flower gardens. Includes a slide deck for instruction, a scaffolded worksheet for practice, and an answer key.

This lesson helps 3rd-grade students master the area of rectilinear shapes by teaching them to decompose complex shapes into simpler rectangles using horizontal and vertical splits.

A foundational introduction to perimeter for 3rd graders, focusing on defining perimeter as the distance around a shape and calculating it by adding all side lengths.

A 3rd-grade space-themed lesson where students solve 2-step addition and subtraction problems involving 3-digit numbers using the 5-step Mission Control protocol.

A practice-focused lesson designed to reinforce multiplication fluency for facts up to 12 through engaging, arcade-themed activities and drills.

A foundational lesson on the distributive property for 3rd-5th graders, using area models and the 'breaking apart' strategy to simplify complex multiplication.

A three-part introductory lesson on decimals that uses visual models and real-world scenarios to connect fractions with denominators of 10 and 100 to their decimal forms.

A comprehensive lesson on solving multi-step word problems using all four operations, framed within a detective mystery theme to engage students in critical thinking and algebraic reasoning.

A comprehensive lesson on multiplication facts 1-12 using arrays and skip counting strategies, styled as architectural blueprints.

A comprehensive lesson focused on identifying, naming, and comparing fractions using visual models, number lines, and real-world applications. Students move from basic identification to complex comparisons of fractional parts.

A comprehensive introduction to simplifying fractions using a 'Shrink-O-Matic' lab theme. Students learn to identify common factors and divide to reach the simplest form through differentiated practice and visual models.

A lesson focused on decoding word problems using addition, subtraction, multiplication, and division facts through a detective-themed investigation. Students learn to identify key operations and solve tiered challenges of increasing complexity.

An introductory lesson on fractions for 3rd grade, focusing on equal parts, naming fractions, and visual representations using circles and rectangles. Students act as 'Factory Inspectors' to ensure all parts are equal and correctly labeled.

A cross-curricular lesson for 1st-3rd graders that combines basic rhythm notation with addition and subtraction. Students decode musical patterns to solve "math mysteries" and perform rhythms.

A hands-on lesson where students measure various 'specimens' to the nearest half-inch and organize their data into a line plot to identify patterns.

A multi-sensory math and art lesson for 1st and 2nd graders to explore 2D shape attributes through tactile creation and observation. Students identify shapes by sides and vertices while building textured geometric masterpieces.

A lesson focused on mental math strategies for double-digit addition, specifically exploring how to maintain a sum while changing addends (conservation) and how to efficiently add increments of tens and ones.

Compose new shapes from smaller shapes and decompose larger shapes into smaller ones.

Identify and distinguish 3D shapes (cubes, cones, cylinders, spheres) and find them in the real world.

Identify and describe 2D shapes (circles, triangles, squares, rectangles) by their sides and vertices.

A 3rd-grade math expedition where students solve 2-step addition and subtraction word problems using a 5-step safari protocol: Jungle Scan, Expedition Goal, Scout the Trail, Mapping the Model, and Final Report.

Final mastery check of AZ 3.G.A.2 skills: partitioning shapes, identifying unit fractions, and explaining the relationship between parts and the whole area.

Students explore how the same shape can be partitioned into equal areas in multiple ways, reinforcing that fractional parts must have equal area but not necessarily identical shapes.

Students partition circles, rectangles, and squares into 2, 3, 4, 6, and 8 equal parts with precision, meeting the partitioning requirements of the AZ standards.

Students express the area of one part as a unit fraction (1/b) of the whole, connecting partitioning to numerical notation as required by AZ 3.G.A.2.

Students define equal shares and identify them in circles and quadrilaterals, establishing the foundation for AZ 3.G.A.2 by distinguishing area from shape.

A final review and assessment of all skills learned throughout the Fraction Factory unit.

Exploring different ways to partition the same shape into equal areas, reinforcing that shapes can look different but have the same fractional area.