• 8th Grade- Course 3 MATHia Curriculum

    Module Name Unit Workspace Number Workspaces
    1- Pre Launch 1- How to work through MATHia M1-1.1 Pre-Launch Protocol
    2- Transforming Geometric Objects 1- Rigid Motion Transformations M2-1.1 Experimenting with Rigid Motions
    M2-1.2 Translating Plane Figures
    M2-1.3 Reflecting Plane Figures
    M2-1.4 Rotating Plane Figures
    M2-1.5 Describing Rigid Motions Using Coordinates
    2- Similar Figures on Coordinate Plane M2-2.1 Defining Similarity
    M2-2.2 Dilating Plane Figures
    M2-2.3 Perfomring One Transformation
    M2-2.4 Performing Multiple Transformations
    M2-2.5 Describing Transformations Using Coordinates
    3- Angles & Triangles M2-3.1 Intro to Triangle Sum & Exterior Angle Theorems
    4- Lines Cut by a Transversal M2-4.1 Classifying Angles Formed by Transversals
    M2-4.2 Reasoning about Angles Formed by Transversals
    M2-4.3 Calcuating Angle Measures Formed by Transversals
    3- Developing Functional Foundations 1- Representing Proportional Relationships M3-1.1 Representing Proportional Relationships Algebraically
    M3-1.2 Modeling the Constant of Proportionality
    M3-1.3 Understanding the Slopes of Lines
    M3-1.4 Graphing Linear Relationships
    2- Linear Models M3-2.1 Multiple Representations of Linear Functions
    M3-2.2 Modeling Linear Functions Using Multiple Representations
    M3-2.3 Calculating Slopes
    3- Writing Equations of a Line M3-3.1 Connecting Slope- Intercept & Point-Slope Forms
    M3-3.2 Writing Equations Given Slope & a Point
    M3-3.3 Writing Equations Given Two Points
    M3-3.4 Modeling Linear Relationships Given an Intitial Point
    M3-3.5 Modeling Linear Relationships Given Two Points
    4- Graphs of Linear Equations in Two Variables M3-4.1 Analyzing Models of Linear Relationships
    M3-4.2 Graphing Given an Integer Slope & y-Intercept
    M3-4.3 Graphing Given a Decimal Slope & y-Intercept
    M3-4.4 Modeling Linear Equations in Standard Form
    M3-4.5 Graphing Linear Equations Using a Given Mothod
    M3-4.6 Graphing Linear Equations Using a Chosen Method
    5- Relations & Functions M3-5.1 Exploring Functions
    M3-5.2 Exploring Graphs of Functions
    M3-5.3 Classifying Relations & Functions
    M3-5.4 Identifying Key Characteristics of Graphs of Functions
    6- Lines of Best Fit M3-6.1 Estimating Lines of Best Fit
    M3-6.2 Using Lines of Best Fit
    7- Categorical Data M3-7.1 Building Marginal Frequency Distributions
    M3-7.2 Analyzing Marginal Frequency Distributions
    M3-7.3 Building Marginal Frequency Distributions
    M3-7.4 Analyzing Marginal Frequency Distributions
    4- Modeling Linear Equations 1- Solving Linear Equations M4-1.1 Exploring Two-Step Equations
    M4-1.2 Solving Multi-Step Equations
    2- Solving Linear Equations with Similar Terms M4-2.1 Solving by Combining Like Variable Terms and a Constant with Integers (No Type In)
    M4-2.2 Solving by Combining Like Variable Terms and a Constant with Integers (Type In)
    M4-2.3 Solving by Combining Like Variable Terms and a Constant with Decimals (No Type In)
    M4-2.4 Solving by Combining Like Variable Terms and a Constant with Decimals (Type In)
    3- Linear Models & the Distributive Property M4-3.1 Analyzing Models of Linear Relationships Involving the Distributive Property
    M4-3.2 Modeling Integer Rates of Change
    M4-3.3 Modeling Fractional Rates of Change
    M4-3.4 Modeling using the Distributive Property over Division
    M4-3.5 Solving with the Distributive Property Over Multiplication
    M4-3.6 Solving with the Distributive Property Over Division
    4- Linear Equations with Variables on Both Sides M4-4.1 Solving with Integers (No Type In)
    M4-4.2 Solving with Integers (Type In)
    M4-4.3 Solving Equations with One Solution, Infinite, and No Solutions
    M4-4.4 Sorting Equations by Number of Solutions
    5- Systems of Linear Equations M4-5.1 Introduction to Systems of Linear Equations
    M4-5.2 Modeling Linear Systems Involving Integers
    M4-5.3 Modeling Linear Systems Involving Decimals
    M4-5.4 Solving Linear Systems Using Substitution
    5- Compound Probability 1- Compound Probability  M5-1.1 Introduction to Compound Events
    M5-1.2 Calculating Compound Probabilities
    M5-1.3 Simulating Compound Events
    6- Expanding Number Systems 1- Rational & Irrational Numbers M6-1.1 Introduction to Irrational Numbers
    M6-1.2 Graphing Real Numbers on a Number Line
    M6-1.3 Ordering Rational and Irrational Numbers
    2- The Pythagorean Theorem M6-2.1 Exploring the Pythagorean Theorem
    M6-2.2 Applying the Pythagorean Theorem
    M6-2.3 Problem Solving Using the Pythagorean Theorem
    M6-2.4 Calculating Distances on the Coordinate Plane
    7- Applying Powers 1- Properties of Whole Number Exponents M7-1.1 Introduction to the Power Rules
    M7-1.2 Using the Product Rule and the Quotient Rule
    M7-1.3 Using the Power to a Power Rule
    M7-1.4 Using the Product to a Power Rule and the Quotient to a Power Rule
    M7-1.5 Using Properties of Exponents with Whole Number Powers
    M7-1.6 Rewriting Expressions with Negative and Zero Exponents
    2- Scientific Notation M7-2.1 Using Scientific Notation
    M7-2.2 Comparing Numbers Using Scientific Notation
    3- Volume M7-3.1 Relating Volumes of Cylinder, Cones, and Spheres
    M7-3.2 Calculating Volume of Cylinders
    M7-3.3 Using Volume of Cylinders
    M7-3.4 Calculating Volume of Cones
    M7-3.5 Using Volume of Cones
    M7-3.6 Calculating Volume of Spheres
    M7-3.7 Using Volume of Spheres