6: Demonstrate and apply a knowledge and sense of numbers, including numeration and operations (addition, subtraction, multiplication, division), patterns, ratios and proportions.

6.A: Demonstrate knowledge and use of numbers and their representations in a broad range of theoretical and practical settings.

6.A.5: Perform addition, subtraction and multiplication of complex numbers and graph the results in the complex plane.

Points in the Complex Plane

8: Use algebraic and analytical methods to identify and describe patterns and relationships in data, solve problems and predict results.

8.A: Describe numerical relationships using variables and patterns.

8.A.5: Solve mathematical problems involving recursive patterns and use models that employ such relationships.

Arithmetic Sequences
Geometric Sequences

8.B: Interpret and describe numerical relationships using tables, graphs and symbols.

8.B.5: Use functions including exponential, polynomial, rational, parametric, logarithmic, and trigonometric to describe numerical relationships.

Compound Interest
Exponential Functions
General Form of a Rational Function
Graphs of Polynomial Functions
Logarithmic Functions
Polynomials and Linear Factors
Quadratics in Factored Form
Rational Functions

8.C: Solve problems using systems of numbers and their properties.

8.C.5: Use polynomial, exponential, logarithmic and trigonometric functions to model situations.

Compound Interest
Exponential Functions
Introduction to Exponential Functions

9: Use geometric methods to analyze, categorize and draw conclusions about points, lines, planes and space.

9.C: Construct convincing arguments and proofs to solve problems.

9.C.5b: Apply physical models, graphs, coordinate systems, networks and vectors to develop solutions in applied contexts (e.g., bus routing, areas of irregular shapes, describing forces and other physical quantities).

Points in the Coordinate Plane

10: Collect, organize and analyze data using statistical methods; predict results; and interpret uncertainty using concepts of probability.

10.B: Formulate questions, design data collection methods, gather and analyze data and communicate findings.

10.B.5: Design a statistical experiment to answer a question about a realistic situation, conduct the experiment, use statistics to interpret the data, and communicate the results, individually and as members of a team.


10.C: Determine, describe and apply the probabilities of events.

10.C.5a: Compute conditional probabilities and the probabilities of independent events.

Binomial Probabilities
Independent and Dependent Events

10.C.5b: Compute probabilities in counting situations involving permutations and combinations.

Binomial Probabilities
Permutations and Combinations

10.C.5c: Make predictions using probabilities associated with normally distributed events.

Polling: City

Correlation last revised: 5/10/2018

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