Content Showcase: Closed Captioned Videos

Our videos are closed captioned. This isn't just an issue of accessibility but instruction. Try captioned videos with all your students. The captioning provides an additional level of support for your students as they work their way through our video library.

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Number of Resources: 406

Title	Thumbnail Image	Description
Closed Captioned Video: Solving a Cubic		Closed Captioned Video: Solving a Cubic In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to find the real and complex roots of a cubic equation. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .
Closed Captioned Video: Solving a Quadratic		Closed Captioned Video: Solving a Quadratic In this TI Nspire tutorial for the TI-Nspire CAS, a quadratic equation is solved algebraically and graphically. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .
Closed Captioned Video: Solving a System		Closed Captioned Video: Solving a System In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to solve a linear system. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .
Closed Captioned Video: Testing a Polynomial		Closed Captioned Video: Testing a Polynomial In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to expand the product of binomials. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .
Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b negative		Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b negative Video Tutorial: The Distributive Property: a(-x + b), a negative, b negative. In this video use the distributive property with an expression of the form a(-x + b), a negative, b negative.
Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b positive		Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b positive Video Tutorial: The Distributive Property: a(-x + b), a negative, b positive. In this video use the distributive property with an expression of the form a(-x + b), a negative, b positive.
Closed Captioned Video: The Distributive Property: a(-x + b), all constants positive		Closed Captioned Video: The Distributive Property: a(-x + b), all constants positive Video Tutorial: The Distributive Property: a(-x + b), all constants positive. In this video use the distributive property with an expression of the form a(-x + b), all constants positive.
Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b negative		Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b negative Video Tutorial: The Distributive Property: a(-x - b), a negative, b negative. In this video use the distributive property with an expression of the form a(-x - b), a negative, b negative.
Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b positive		Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b positive Video Tutorial: The Distributive Property: a(-x - b), a negative, b positive. In this video, we will use the distributive property with an expression of the form a(-x - b), a negative, b positive.
Closed Captioned Video: The Distributive Property: a(-x - b), all constants positive		Closed Captioned Video: The Distributive Property: a(-x - b), all constants positive Video Tutorial: The Distributive Property: a(-x - b), all constants positive. In this video use the distributive property with an expression of the form a(-x - b), all constants positive.
Closed Captioned Video: The Distributive Property: a(bx + c), a negative, b and c positive		Closed Captioned Video: The Distributive Property: a(bx + c), a negative, b and c positive Video Tutorial: The Distributive Property: a(bx + c), a negative, b and c positive. In this video, we will use the distributive property with an expression of the form a(bx + c), a negative, b and c positive.
Closed Captioned Video: The Distributive Property: a(bx + c), all constants negative		Closed Captioned Video: The Distributive Property: a(bx + c), all constants negative Video Tutorial: The Distributive Property: a(bx + c), all constants negative. In this video use the distributive property with an expression of the form a(bx + c), all negative.
Closed Captioned Video: The Distributive Property: a(bx + c), all constants positive		Closed Captioned Video: The Distributive Property: a(bx + c), all constants positive Video Tutorial: The Distributive Property: a(bx + c), all constants positive. In this video use the distributive property with an expression of the form a(bx + c), all constants positive.
Closed Captioned Video: The Distributive Property: a(bx - c), a negative, b and c positive		Closed Captioned Video: The Distributive Property: a(bx - c), a negative, b and c positive Video Tutorial: The Distributive Property: a(bx - c), a negative, b and c positive. In this video use the distributive property with an expression of the form a(bx - c), a negative, b and c positive.
Closed Captioned Video: The Distributive Property: a(bx - c), all constants negative		Closed Captioned Video: The Distributive Property: a(bx - c), all constants negative Video Tutorial: The Distributive Property: a(bx - c), all constants negative. In this video, we will use the distributive property with an expression of the form a(bx - c), all negative.
Closed Captioned Video: The Distributive Property: a(bx - c), all constants positive		Closed Captioned Video: The Distributive Property: a(bx - c), all constants positive Video Tutorial: The Distributive Property: a(bx - c), all constants positive. In this video use the distributive property with an expression of the form a(bx - c), all constants positive.
Closed Captioned Video: The Distributive Property: a(x + b), a negative, b negative		Closed Captioned Video: The Distributive Property: a(x + b), a negative, b negative Video Tutorial: The Distributive Property: a(x + b), a negative, b negative. In this video use the distributive property with an expression of the form a(x + b), a negative, b negative.
Closed Captioned Video: The Distributive Property: a(x + b), a negative, b positive		Closed Captioned Video: The Distributive Property: a(x + b), a negative, b positive Video Tutorial: The Distributive Property: a(x + b), a negative, b positive. In this video, we will use the distributive property with an expression of the form a(x + b), a negative, b positive.
Closed Captioned Video: The Distributive Property: a(x + b), all constants positive		Closed Captioned Video: The Distributive Property: a(x + b), all constants positive Video Tutorial: The Distributive Property: a(x + b), all constants positive. In this video, we will use the distributive property with an expression of the form a(x + b), all constants positive.
Closed Captioned Video: The Distributive Property: a(x - b), a negative, b negative		Closed Captioned Video: The Distributive Property: a(x - b), a negative, b negative Video Tutorial: The Distributive Property: a(x - b), a negative, b negative. In this video, we will use the distributive property with an expression of the form a(x - b), a negative, b negative.
Closed Captioned Video: The Distributive Property: a(x - b), a negative, b positive		Closed Captioned Video: The Distributive Property: a(x - b), a negative, b positive Video Tutorial: The Distributive Property: a(x - b), a negative, b positive. In this video use the distributive property with an expression of the form a(x - b), a negative, b positive.
Closed Captioned Video: The Distributive Property: a(x - b), all constants positive		Closed Captioned Video: The Distributive Property: a(x - b), all constants positive Video Tutorial: The Distributive Property: a(x - b), all constants positive. In this video, we will use the distributive property with an expression of the form a(x - b), all constants positive.
Closed Captioned Video: Trig Identities		Closed Captioned Video: Trig Identities In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator window is used to find the trigonometric identities for addition and subtraction of sine and cosine. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .
Closed Captioned Video: Two-Step Equations: Division and Addition		Closed Captioned Video: Two-Step Equations: Division and Addition Video Tutorial: Two-Step Equations: Division and Addition. In this video, we will solve a two-step equation that involves division and addition.
Closed Captioned Video: Two-Step Equations: Division and Subtraction		Closed Captioned Video: Two-Step Equations: Division and Subtraction Video Tutorial: Two-Step Equations: Division and Subtraction. In this video, we will solve a two-step equation that involves division and subtraction.

Percents: Fraction-Percent Conversion	Measures of Central Tendency: Weighted Mean	Percents: Calculating Tax
Integers: Variable Expressions with Integers	Anatomy of an Equation: Two-Step Equations 11	Integers: Dividing Integers
Slope Formula: Positive Slope, Coordinates in Quadrant IV	Geometry Applications: Transformations, Segment 1: Translations and Rotations.	Algebra Nspirations: Linear Functions, Segment 3
TI-Nspire Mini-Tutorial: Midpoint Formula Template	TI-Nspire Mini-Tutorial: Finding the Median of a Data List	Algebra Nspirations: Rational Functions and Expressions
Geometry Applications: Coordinate Geometry, Segment 1: Longitude and Latitude.	Anatomy of an Equation: Quadratic Equations 4	Geometry Applications: Points and Lines, Segment 1: Introduction
Place Value--Making Tens	Fractions: Multiplying Three Fractions	TI-Nspire Mini-Tutorial: Composite Functions, Linear to Polynomial
Algebra Applications: Data Analysis, Segment 2: What Is a Mortgage?	Algebra Applications: Logarithmic Functions, Segment 2: Hearing Loss	Algebra Applications: Linear Functions, Segment 1: Introduction
Geometry Applications: Polygons, Segment 3: Composite Figures	Anatomy of an Equation: One-Step Multiplication Equations	Algebra Nspirations: Solving Systems of Equations, Segment 1
Rational Numbers: Multiplying Rational Numbers	Algebra Tiles: Solving Two-Step Equations Using Algebra Tiles	Algebra Applications: Rational Functions, Segment 3: Hubble Telescope
Ratios, Proportions, and Percents: Calculating Percents	Ratios: Numerical Models for Ratios	Integers: Integers and Exponents
Measures of Central Tendency: Finding the Mean of a Data Set I	Desmos Geometry Exploration: Points	Algebra Applications: Exponential Functions, Segment 2: What Is an Earthquake?
TI-Nspire Mini-Tutorial: (CAS) Solving a Cubic Algebraically and Graphically	Algebra Applications: Systems of Equations	Slope Formula: Positive Slope, Coordinates in Quadrant II
Algebra Applications: Data Analysis, Segment 3: What Is a What is a Subprime Mortgage?	Algebra Nspirations: Exponents and Exponential Functions	Algebra Nspirations: Solving Systems of Equations, Segment 3
TI-Nspire Mini-Tutorial: Composite Functions, Linear to Rational	Geometry Applications: Transformations	Geometry Applications: 3D Geometry, Segment 2: Pyramids
The Distributive Property: a(x - b), all constants positive	One-Step Equations: Multiplication	Algebra Tiles: Modeling Quadratic Equations Using Algebra Tiles
Ratios and Rates: Rates from Data	TI-Nspire Mini-Tutorial: Composite Functions, Linear to Radical	Desmos Geometry Exploration: Lines, Rays, Segments
Anatomy of an Equation: Quadratic Equations 5	TI-Nspire Mini-Tutorial: Finding the Zeros of a Quadratic Function Using TRACE Feature	Algebra Applications: Rational Functions
The Distributive Property: a(x + b), all constants positive	Anatomy of an Equation: Two-Step Equations 7	TI-Nspire Mini-Tutorial: Creating a Random Number Table
Linear Functions: Negative Slope, Positive y-Intercept	Quadratics: Using the Discriminant to Test for Solutions to Quadratic Equations	Algebra Applications: Quadratic Functions, Segment 4: Medicine
Measures of Central Tendency: Finding the Median of a Data Set	Algebra Applications: Data Analysis, Segment 1: Introduction	Algebra Applications: Functions and Relations, Segment 4: Elliptical Paths
The Distributive Property: a(bx + c), a negative, b and c positive	Geometry Applications--What Are Prisms?	Measures of Central Tendency: The Mean and Normally Distributed Data
Algebra Applications: Systems of Equations, Segment 1: Profit and Loss	Desmos Geometry Exploration: Intersecting Lines and Planes	Place Value--Counting by 10's
Geometry Applications: Quadrilaterals, Segment 3: Parallelograms and Trapezoids	Place Value: Comparing and Ordering Decimals Using Place Value	Measures of Central Tendency: Mean of a Probability Distribution
Percents: The Percent One Number is of Another	Algebra Nspirations: Functions and Relations	TI-Nspire Mini-Tutorial: Exploring Quadratic Functions in Standard Form Using Sliders
Integers: Comparing and Ordering Integers	Algebra Applications: Quadratic Functions, Segment 1: Introduction	One-Step Equations: Subtraction
Fractions: Adding Fractions by Using Equivalent Fractions I	Percents: Applications of Percent -- Grade	Quadratics: Solving Quadratic Equations in Standard Form by Completing the Square
Percents: Percents and Multiples of Numbers	Algebra Nspirations: Inequalities	Geometry Applications--Antiprisms
Slope Formula: Negative Slope, Coordinates in Quadrants III and IV	TI-Nspire Mini-Tutorial: Finding the Intersection Point of Two Graphs	Fractions: Multiplying Two Fractions
TI-Nspire Mini-Tutorial: Finding the Zeros of a Quartic Function Using Function Intersection	TI-Nspire Mini-Tutorial: Matrix Addition and Multiplication (3 x 3 Matrices)	Fractions: Multiplying by Fractions Greater Than 1
Anatomy of an Equation: Two-Step Equations 10	Two-Step Equations: Multiplication and Subtraction	Anatomy of an Equation: One-Step Addition Equations
Fractions: Dividing Unit Fractions by Whole Numbers	Fractions: Adding Mixed Numbers by Using Equivalent Fractions II	Geometry Applications: 3D Geometry
Algebra Applications: Systems of Equations, Segment 3: Ballistic Missiles	Ratios: Equivalent Ratios	TI-Nspire Mini-Tutorial: (CAS) Adding and Subtracting Rational Expressions
TI-Nspire Mini-Tutorial: Graphing a Scatterplot Using a Graphs and Geometry Window	Place Value: Comparing and Ordering Whole Numbers Using Place Value	Algebra Tiles: Solving One-Step Equations Using Algebra Tiles
Anatomy of an Equation: Two-Step Equations 9	Ratios and Proportions: What Are Proportions?	Slope Formula: Negative Slope, Coordinates in Quadrant III
Fractions: Adding Fractions by Using Equivalent Fractions II	The Distributive Property: a(bx - c), all constants negative	Algebra Nspirations: Inequalities, Segment 3
Fractions: Dividing Two Fractions	TI-Nspire Mini-Tutorial: (CAS) Solving a Quadratic Algebraically and Graphically	Fractions: Subtracting Mixed Numbers by Using Equivalent Fractions I
Percents: Calculating Commissions and Tips	TI-Nspire Mini-Tutorial: Graphing a Linear Function	Geometry Applications: Polygons, Segment 1: Introduction
Linear Functions: Positive Slope, Zero y-Intercept	Algebra Nspirations: Variables and Equations, Segment 3	Fractions: Subtracting Mixed Numbers by Using Equivalent Fractions II
Geometry Applications: Transformations, Segment 3: Rotations, Reflections, and Symmetry.	Algebra Applications: Functions and Relations, Segment 2: Parabolic Paths	Algebra Nspirations: Data Analysis and Probability, Segment 1
Percents: Percent Increase	TI-Nspire Mini-Tutorial: Exploring Radical Function Graphs with Sliders	Anatomy of an Equation: Two-Step Equations 5

Content Showcase: Closed Captioned Videos

Our videos are closed captioned. This isn't just an issue of accessibility but instruction. Try captioned videos with all your students. The captioning provides an additional level of support for your students as they work their way through our video library.

(Want to learn more about our subscription packages? Click here.)

Closed Captioned Video: Solving a Cubic In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to find the real and complex roots of a cubic equation. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: Solving a Quadratic In this TI Nspire tutorial for the TI-Nspire CAS, a quadratic equation is solved algebraically and graphically. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: Solving a System In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to solve a linear system. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: Testing a Polynomial In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to expand the product of binomials. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b negative Video Tutorial: The Distributive Property: a(-x + b), a negative, b negative. In this video use the distributive property with an expression of the form a(-x + b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b positive Video Tutorial: The Distributive Property: a(-x + b), a negative, b positive. In this video use the distributive property with an expression of the form a(-x + b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(-x + b), all constants positive Video Tutorial: The Distributive Property: a(-x + b), all constants positive. In this video use the distributive property with an expression of the form a(-x + b), all constants positive.

Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b negative Video Tutorial: The Distributive Property: a(-x - b), a negative, b negative. In this video use the distributive property with an expression of the form a(-x - b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b positive Video Tutorial: The Distributive Property: a(-x - b), a negative, b positive. In this video, we will use the distributive property with an expression of the form a(-x - b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(-x - b), all constants positive Video Tutorial: The Distributive Property: a(-x - b), all constants positive. In this video use the distributive property with an expression of the form a(-x - b), all constants positive.

Closed Captioned Video: The Distributive Property: a(bx + c), a negative, b and c positive Video Tutorial: The Distributive Property: a(bx + c), a negative, b and c positive. In this video, we will use the distributive property with an expression of the form a(bx + c), a negative, b and c positive.

Closed Captioned Video: The Distributive Property: a(bx + c), all constants negative Video Tutorial: The Distributive Property: a(bx + c), all constants negative. In this video use the distributive property with an expression of the form a(bx + c), all negative.

Closed Captioned Video: The Distributive Property: a(bx + c), all constants positive Video Tutorial: The Distributive Property: a(bx + c), all constants positive. In this video use the distributive property with an expression of the form a(bx + c), all constants positive.

Closed Captioned Video: The Distributive Property: a(bx - c), a negative, b and c positive Video Tutorial: The Distributive Property: a(bx - c), a negative, b and c positive. In this video use the distributive property with an expression of the form a(bx - c), a negative, b and c positive.

Closed Captioned Video: The Distributive Property: a(bx - c), all constants negative Video Tutorial: The Distributive Property: a(bx - c), all constants negative. In this video, we will use the distributive property with an expression of the form a(bx - c), all negative.

Closed Captioned Video: The Distributive Property: a(bx - c), all constants positive Video Tutorial: The Distributive Property: a(bx - c), all constants positive. In this video use the distributive property with an expression of the form a(bx - c), all constants positive.

Closed Captioned Video: The Distributive Property: a(x + b), a negative, b negative Video Tutorial: The Distributive Property: a(x + b), a negative, b negative. In this video use the distributive property with an expression of the form a(x + b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(x + b), a negative, b positive Video Tutorial: The Distributive Property: a(x + b), a negative, b positive. In this video, we will use the distributive property with an expression of the form a(x + b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(x + b), all constants positive Video Tutorial: The Distributive Property: a(x + b), all constants positive. In this video, we will use the distributive property with an expression of the form a(x + b), all constants positive.

Closed Captioned Video: The Distributive Property: a(x - b), a negative, b negative Video Tutorial: The Distributive Property: a(x - b), a negative, b negative. In this video, we will use the distributive property with an expression of the form a(x - b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(x - b), a negative, b positive Video Tutorial: The Distributive Property: a(x - b), a negative, b positive. In this video use the distributive property with an expression of the form a(x - b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(x - b), all constants positive Video Tutorial: The Distributive Property: a(x - b), all constants positive. In this video, we will use the distributive property with an expression of the form a(x - b), all constants positive.

Closed Captioned Video: Two-Step Equations: Division and Addition Video Tutorial: Two-Step Equations: Division and Addition. In this video, we will solve a two-step equation that involves division and addition.

Closed Captioned Video: Two-Step Equations: Division and Subtraction Video Tutorial: Two-Step Equations: Division and Subtraction. In this video, we will solve a two-step equation that involves division and subtraction.

Overview: Closed Captioned Videos

Using the Closed Captioned Videos

© Media4Math. All rights reserved

Closed Captioned Video: Solving a Cubic
In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to find the real and complex roots of a cubic equation. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: Solving a Quadratic
In this TI Nspire tutorial for the TI-Nspire CAS, a quadratic equation is solved algebraically and graphically. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: Solving a System
In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to solve a linear system. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: Testing a Polynomial
In this TI Nspire tutorial for the TI-Nspire CAS, the Calculator Window is used to expand the product of binomials. This video supports the TI-Nspire Clickpad and Touchpad. This Mini-Tutorial Video includes a worksheet. .

Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b negative
Video Tutorial: The Distributive Property: a(-x + b), a negative, b negative. In this video use the distributive property with an expression of the form a(-x + b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b positive
Video Tutorial: The Distributive Property: a(-x + b), a negative, b positive. In this video use the distributive property with an expression of the form a(-x + b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(-x + b), all constants positive
Video Tutorial: The Distributive Property: a(-x + b), all constants positive. In this video use the distributive property with an expression of the form a(-x + b), all constants positive.

Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b negative
Video Tutorial: The Distributive Property: a(-x - b), a negative, b negative. In this video use the distributive property with an expression of the form a(-x - b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b positive
Video Tutorial: The Distributive Property: a(-x - b), a negative, b positive. In this video, we will use the distributive property with an expression of the form a(-x - b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(-x - b), all constants positive
Video Tutorial: The Distributive Property: a(-x - b), all constants positive. In this video use the distributive property with an expression of the form a(-x - b), all constants positive.

Closed Captioned Video: The Distributive Property: a(bx + c), a negative, b and c positive
Video Tutorial: The Distributive Property: a(bx + c), a negative, b and c positive. In this video, we will use the distributive property with an expression of the form a(bx + c), a negative, b and c positive.

Closed Captioned Video: The Distributive Property: a(bx + c), all constants negative
Video Tutorial: The Distributive Property: a(bx + c), all constants negative. In this video use the distributive property with an expression of the form a(bx + c), all negative.

Closed Captioned Video: The Distributive Property: a(bx + c), all constants positive
Video Tutorial: The Distributive Property: a(bx + c), all constants positive. In this video use the distributive property with an expression of the form a(bx + c), all constants positive.

Closed Captioned Video: The Distributive Property: a(bx - c), a negative, b and c positive
Video Tutorial: The Distributive Property: a(bx - c), a negative, b and c positive. In this video use the distributive property with an expression of the form a(bx - c), a negative, b and c positive.

Closed Captioned Video: The Distributive Property: a(bx - c), all constants negative
Video Tutorial: The Distributive Property: a(bx - c), all constants negative. In this video, we will use the distributive property with an expression of the form a(bx - c), all negative.

Closed Captioned Video: The Distributive Property: a(bx - c), all constants positive
Video Tutorial: The Distributive Property: a(bx - c), all constants positive. In this video use the distributive property with an expression of the form a(bx - c), all constants positive.

Closed Captioned Video: The Distributive Property: a(x + b), a negative, b negative
Video Tutorial: The Distributive Property: a(x + b), a negative, b negative. In this video use the distributive property with an expression of the form a(x + b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(x + b), a negative, b positive
Video Tutorial: The Distributive Property: a(x + b), a negative, b positive. In this video, we will use the distributive property with an expression of the form a(x + b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(x + b), all constants positive
Video Tutorial: The Distributive Property: a(x + b), all constants positive. In this video, we will use the distributive property with an expression of the form a(x + b), all constants positive.

Closed Captioned Video: The Distributive Property: a(x - b), a negative, b negative
Video Tutorial: The Distributive Property: a(x - b), a negative, b negative. In this video, we will use the distributive property with an expression of the form a(x - b), a negative, b negative.

Closed Captioned Video: The Distributive Property: a(x - b), a negative, b positive
Video Tutorial: The Distributive Property: a(x - b), a negative, b positive. In this video use the distributive property with an expression of the form a(x - b), a negative, b positive.

Closed Captioned Video: The Distributive Property: a(x - b), all constants positive
Video Tutorial: The Distributive Property: a(x - b), all constants positive. In this video, we will use the distributive property with an expression of the form a(x - b), all constants positive.

Closed Captioned Video: Two-Step Equations: Division and Addition
Video Tutorial: Two-Step Equations: Division and Addition. In this video, we will solve a two-step equation that involves division and addition.

Closed Captioned Video: Two-Step Equations: Division and Subtraction
Video Tutorial: Two-Step Equations: Division and Subtraction. In this video, we will solve a two-step equation that involves division and subtraction.