AFDA.1: The student will investigate and analyze function (linear, quadratic, exponential, and logarithmic) families and their characteristics. Key concepts include

AFDA.1.b: local and absolute maxima and minima;

 Quadratics in Factored Form
 Zap It! Game

AFDA.1.c: domain and range;

 Exponential Functions
 Function Machines 3 (Functions and Problem Solving)
 Introduction to Functions
 Logarithmic Functions
 Radical Functions

AFDA.1.d: zeros;

 Cat and Mouse (Modeling with Linear Systems)
 Exponential Functions
 Introduction to Exponential Functions
 Linear Functions
 Logarithmic Functions
 Modeling the Factorization of x2+bx+c
 Polynomials and Linear Factors
 Quadratics in Factored Form
 Quadratics in Polynomial Form
 Roots of a Quadratic
 Zap It! Game

AFDA.1.e: intercepts;

 Cat and Mouse (Modeling with Linear Systems)
 Exponential Functions
 Introduction to Exponential Functions
 Linear Functions
 Logarithmic Functions
 Points, Lines, and Equations
 Quadratics in Factored Form
 Quadratics in Polynomial Form
 Roots of a Quadratic
 Slope-Intercept Form of a Line
 Zap It! Game

AFDA.1.g: end behaviors; and

 Exponential Functions
 General Form of a Rational Function
 Graphs of Polynomial Functions
 Hyperbolas
 Introduction to Exponential Functions
 Logarithmic Functions
 Rational Functions
 Zap It! Game

AFDA.1.h: asymptotes.

 Exponential Functions
 General Form of a Rational Function
 Introduction to Exponential Functions
 Logarithmic Functions
 Rational Functions

AFDA.2: The student will use knowledge of transformations to write an equation, given the graph of a function (linear, quadratic, exponential, and logarithmic).

 Absolute Value with Linear Functions
 Exponential Functions
 Introduction to Exponential Functions
 Translating and Scaling Functions
 Translations

AFDA.4: The student will transfer between and analyze multiple representations of functions, including algebraic formulas, graphs, tables, and words. Students will select and use appropriate representations for analysis, interpretation, and prediction.

 Exponential Functions
 Function Machines 1 (Functions and Tables)
 Function Machines 2 (Functions, Tables, and Graphs)
 Function Machines 3 (Functions and Problem Solving)
 Introduction to Exponential Functions
 Introduction to Functions
 Points, Lines, and Equations
 Quadratics in Factored Form
 Quadratics in Polynomial Form
 Radical Functions

AFDA.5: The student will determine optimal values in problem situations by identifying constraints and using linear programming techniques.

 Linear Programming

AFDA.6: The student will calculate probabilities. Key concepts include

AFDA.6.a: conditional probability;

 Independent and Dependent Events

AFDA.6.b: dependent and independent events;

 Independent and Dependent Events
 Theoretical and Experimental Probability

AFDA.6.c: addition and multiplication rules;

 Independent and Dependent Events
 Theoretical and Experimental Probability

AFDA.6.d: counting techniques (permutations and combinations); and

 Binomial Probabilities
 Permutations and Combinations

AFDA.6.e: Law of Large Numbers.

 Theoretical and Experimental Probability

AFDA.7: The student will analyze the normal distribution. Key concepts include

AFDA.7.a: characteristics of normally distributed data;

 Polling: City
 Populations and Samples
 Real-Time Histogram
 Sight vs. Sound Reactions

AFDA.7.d: area under the standard normal curve and probability.

 Polling: City

AFDA.8: The student will design and conduct an experiment/survey. Key concepts include

AFDA.8.a: sample size;

 Polling: City
 Polling: Neighborhood

AFDA.8.b: sampling technique;

 Polling: City

AFDA.8.c: controlling sources of bias and experimental error;

 Polling: City
 Polling: Neighborhood

AFDA.8.d: data collection; and

 Describing Data Using Statistics
 Real-Time Histogram

AFDA.8.e: data analysis and reporting.

 Polling: City
 Real-Time Histogram

Correlation last revised: 1/20/2017

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