PC.1: Complex Numbers and Transformations

PC.1.A: A Question of Linearity

 Points in the Complex Plane

PC.1.C: The Power of the Right Notation

 Points in the Complex Plane
 Roots of a Quadratic

PC.2: Vectors and Matrices

PC.2.B: Linear Transformations of Planes and Space

 Adding Vectors
 Vectors

PC.2.C: Systems of Linear Equations

 Solving Linear Systems (Matrices and Special Solutions)

PC.2.D: Vectors in Plane and Space

 Adding Vectors
 Vectors

PC.2.E: First-Person Video Games—Projection Matrices

 3D and Orthographic Views

PC.3: Rational and Exponential Functions

PC.3.A: Polynomial Functions and the Fundamental Theorem of Algebra

 Graphs of Polynomial Functions
 Polynomials and Linear Factors
 Quadratics in Factored Form

PC.3.B: Rational Functions and Composition of Functions

 Function Machines 1 (Functions and Tables)
 General Form of a Rational Function
 Rational Functions

PC.3.C: Inverse Functions

 Function Machines 3 (Functions and Problem Solving)
 Logarithmic Functions

PC.4: Trigonometry

PC.4.A: Trigonometric Functions

 Cosine Function
 Sine Function
 Tangent Function

PC.4.C: Inverse Trigonometric Functions

 Cosine Function
 Sine Function
 Tangent Function
 Translating and Scaling Sine and Cosine Functions

PC.5: Probability and Statistics

PC.5.A: Probability

 Binomial Probabilities
 Estimating Population Size
 Independent and Dependent Events
 Permutations and Combinations
 Probability Simulations
 Theoretical and Experimental Probability

PC.5.B: Random Variables and Discrete Probability Distributions

 Estimating Population Size
 Independent and Dependent Events
 Polling: City

PC.5.C: Using Probability to Make Decisions

 Binomial Probabilities
 Geometric Probability
 Independent and Dependent Events
 Polling: City
 Probability Simulations
 Theoretical and Experimental Probability

Correlation last revised: 8/3/2017

This correlation lists the recommended Gizmos for this state's curriculum standards. Click any Gizmo title below for more information.