Main content
Math
- Number and Quantity: The Real Number System
- Algebra: Seeing Structure in Expressions
- Algebra: Arithmetic with Polynomial Expressions
- Algebra: Creating Equations
- Algebra: Reasoning with Equations and Inequalities
- Functions: Interpreting Functions
- Functions: Building Functions
- Functions: Linear, Quadratic, and Exponential Models
- Geometry: Expressing Geometric Properties with Equations
- Statistics and Probability: Interpreting Categorical and Quantitative Data
- Number and Quantity: The Real Number System
- Number and Quantity: The Complex Number System
- Algebra: Seeing Structure in Expressions
- Algebra: Arithmetic with Polynomial and Rational Expressions
- Algebra: Creating Equations
- Algebra: Reasoning with Equations and Inequalities
- Functions: Interpreting Functions
- Functions: Building Functions
- Geometry: Congruence
- Geometry: Similarity, Right Triangles, and Trigonometry
- Statistics and Probability: Making Inference and Justifying Conclusions
- Statistics and Probability: Conditional Probability and the Rules for Probability
- Number and Quantity: The Complex Number System
- Algebra: Seeing Structure in Expressions
- Algebra: Arithmetic with Polynomial and Rational Expressions
- Algebra: Creating Equations
- Algebra: Reasoning with Equations and Inequalities
- Functions: Interpreting Functions
- Functions: Building Functions
- Functions: Linear, Quadratic, and Exponential Models
- Functions: Trigonometric Functions
- Geometry: Congruence
- Geometry: Circles
- Geometry: Expressing Geometric Properties with Equations
- Geometry: Geometric Measurement & Dimension
- Geometry: Modeling with Geometry
- Statistics and Probability: Making Inference and Justifying Conclusions
North Carolina Math
Math 1: Algebra: Arithmetic with Polynomial Expressions
Perform arithmetic operations on polynomials.
NC.M1.A-APR.1
Mostly covered
- Add & subtract polynomials
- Add polynomials (intro)
- Adding and subtracting polynomials review
- Adding polynomials
- Binomial special products review
- Multiply binomials by polynomials
- Multiply binomials by polynomials: area model
- Multiply binomials: area model
- Multiply monomials
- Multiply monomials by polynomials
- Multiply monomials by polynomials: area model
- Multiply monomials by polynomials: Area model
- Multiply perfect squares of binomials
- Multiplying binomials by polynomials
- Multiplying binomials by polynomials review
- Multiplying binomials by polynomials: area model
- Multiplying binomials intro
- Multiplying binomials: area model
- Multiplying monomials
- Multiplying monomials by polynomials
- Multiplying monomials by polynomials review
- Multiplying monomials by polynomials: area model
- Polynomial special products: difference of squares
- Polynomial special products: difference of squares
- Polynomial special products: perfect square
- Polynomial special products: perfect square
- Polynomial subtraction
- Subtract polynomials (intro)
- Subtracting polynomials
Understand the relationship between zeros and factors of polynomials.
NC.M1.A-APR.3
Fully covered
- Graphs of polynomials
- Graphs of polynomials: Challenge problems
- Multiplicity of zeros of polynomials
- Positive & negative intervals of polynomials
- Positive & negative intervals of polynomials
- Quadratics by factoring
- Quadratics by factoring (intro)
- Solve equations using structure
- Solving quadratics by factoring
- Solving quadratics by factoring
- Solving quadratics by factoring review
- Solving quadratics by factoring: leading coefficient ≠ 1
- Vertex form introduction
- Zeros of polynomials (factored form)
- Zeros of polynomials (multiplicity)
- Zeros of polynomials (multiplicity)
- Zeros of polynomials (with factoring)
- Zeros of polynomials (with factoring): common factor
- Zeros of polynomials (with factoring): grouping
- Zeros of polynomials & their graphs
- Zeros of polynomials introduction
- Zeros of polynomials: matching equation to graph
- Zeros of polynomials: matching equation to zeros
- Zeros of polynomials: plotting zeros