Geometry 2D
29 Units, 68 Skills
Geometry - Shape Classification (2D) - Intro
Unit 1
Geometry - Angle Basics
Unit 2
Geometry - Triangle Classification - Practice
Unit 3
Geometry - Shape Classification (2D) - Practice
Unit 4
Perimeter Intro
Unit 5
Cartesian Grid Foundations
Unit 6
Area Intro
Unit 7
Area and Perimeter Basic Shapes
Unit 8
Geometry - Shape Classification (2D) - Advanced
Unit 9
Geometry - Angles and Transformations - Intro
Unit 10
Triangle Area - Intro
Unit 11
Cartesian Grid Basics - Intro
Unit 12
Cartesian Grid Basics - Practice
Unit 13
Geometry - Angles and Transformations - Practice
Unit 14
Geometry - Circle Circumference - Intro
Unit 15
Geometry - Shape Classification (3D) - Intro
Unit 16
Area and Perimeter Complex Shapes
Unit 17
Triangle Area - Practice
Unit 18
Geometry - Circle Area - Intro
Unit 19
Geometry - Shape Classification (3D) - Practice
Unit 20
Area and Perimeter Logic - Intro
Unit 21
Geometry - Isosceles and Equilateral Triangles
Unit 22
Cartesian Grid Geometry Logic - Intro
Unit 23
Geometry - Intersecting, Parallel, and Perpendicular Lines
Unit 24
Cartesian Grid Geometry Logic - Practice
Unit 25
Area and Perimeter Logic - Practice
Unit 26
Cartesian Grid Distance - Intro
Unit 27
Geometry - Intermediate - Intro
Unit 28
Geometry - Intermediate - Practice
Unit 29
This math unit begins with understanding how to interpret Cartesian coordinates to identify vector directions and magnitudes on a grid. Initially, students learn to determine directional movements from given coordinate changes and how to move from one point to another using vectors. As the unit progresses, the focus shifts to calculating vectors based on direction descriptions (angles or cardinal directions), and identifying these from multiple-choice options. Students further practice deriving directions and angles by analyzing changes between two points and also learn to calculate distances between coordinates that lie on a straight line. Towards the end of the unit, the emphasis is on applying these concepts to compute vectors between points shown on diagrams, enhancing their ability to identify necessary coordinate changes to describe movement from one point to another. The unit consistently develops spatial reasoning and vector manipulation skills, fundamental for understanding geometry and navigation within a Cartesian space.
Skills you will learn include:
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