### 2: Solve problems involving maximum or minimum values of functions by using linear programming procedures.

Linear Programming - Activity A

### 3: Graph conic sections, centered at and rotated about the origin, given the equations.

#### 3.1: Determining equations of conic sections from their graphs

Circles

Ellipse - Activity A

Hyperbola - Activity A

Parabolas - Activity A

Quadratics in Factored Form

### 4: Graph polynomial functions.

#### 4.1: Approximating zeros using Descartes' Rule of Signs and the bisection method

Polynomials and Linear Factors

#### 4.2: Describing the end behavior of a polynomial function given its degree and leading coefficient

Cubic Function Activity

Fourth-Degree Polynomials - Activity A

Quadratics in Factored Form

Quadratics in Polynomial Form - Activity A

### 5: Solve systems of linear and quadratic equations and inequalities.

Systems of Linear Inequalities (Slope-intercept form) - Activity A

### 8: Plot points in a polar coordinate system given their coordinates in polar form, a table of values, or an equation.

Complex Numbers in Polar Form

Points in Polar Coordinates

Using Tables, Rules and Graphs

### 9: Compare summary statistics for sets of data represented in a graph, a stem-and-leaf chart, a box-and-whisker graph, a histogram, a linear or quadratic equation of best fit of a scatterplot, and a frequency distribution.

Box-and-Whisker Plots

Correlation

Histograms

Lines of Best Fit Using Least Squares - Activity A

Populations and Samples

Solving Using Trend Lines

Stem-and-Leaf Plots

### 10: Calculate descriptive statistics of univariate data, including measures of central tendency, measures of dispersion, and measures of position.

#### 10.2: Comparing descriptive statistics for samples of varying sizes generated by simulation

Populations and Samples

Probability Simulations

### 11: Interpret relationships of bivariate data using linear or quadratic regression and linear correlation.

#### 11.1: Testing a hypothesis by displaying a scatterplot of experimental data, determining the regression coefficient and equation, and determining the correlation coefficient

Correlation

Lines of Best Fit Using Least Squares - Activity A

Solving Using Trend Lines

### 14: Determine the probability of an event using a frequency distribution curve.

#### 14.1: Comparing the terms of a binomial expansion to the terms of a binomial probability distribution

Binomial Probabilities

Correlation last revised: 3/17/2015