Illustrative Math Alignment: Grade 8 Unit 3

In this interactive, look at the solution to a two-step equation by clicking on various hot spots.

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In this PowerPoint presentation, analyze the solution to a multi-step equation of the form: ax + b = cx + d.

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In this PowerPoint presentation, analyze the solution to a multi-step equation of the form: ax + b = cx - d.

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In this PowerPoint Presentation, analyze the steps in converting a linear equation in Standard Form to a linear function in Slope-Intercept Form. In this Interactive we work with this version of the Standard Form: AX + By = -C.

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In this PowerPoint Presentation, analyze the steps in converting a linear equation in Standard Form to a linear function in Slope-Intercept Form. In this Interactive we work with this version of the Standard Form: AX + By = C.

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In this interactive, look at the solution to a two-step equation by clicking on various hot spots.

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In this PowerPoint presentation, analyze the solution to a multi-step equation of the form: ax - b = -cx + d.

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In this PowerPoint presentation, analyze the solution to a multi-step equation of the form: ax - b = -cx - d.

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In this interactive, look at the solution to a two-step equation by clicking on various hot spots.

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In this PowerPoint presentation, analyze the solution to a multi-step equation of the form: ax - b = cx + d.

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In this PowerPoint presentation, analyze the solution to a multi-step equation of the form: ax - b = cx - d.

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In this PowerPoint Presentation, analyze the steps in converting a linear equation in Standard Form to a linear function in Slope-Intercept Form. In this Interactive we work with this version of the Standard Form: AX - By = -C.

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In this PowerPoint Presentation, analyze the steps in converting a linear equation in Standard Form to a linear function in Slope-Intercept Form. In this Interactive we work with this version of the Standard Form: AX - By = C.

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In this PowerPoint presentation, analyze the steps in solving a quadratic equation with two roots. In this Interactive we work with this version of the quadratic equation: ax^2 + bx + c = 0.

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In this PowerPoint presentation, analyze the steps in solving a quadratic equation with two roots. In this Interactive we work with this version of the quadratic equation: ax^2 + bx - c = 0.

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In this PowerPoint presentation, analyze the steps in solving a quadratic equation with two roots. In this Interactive we work with this version of the quadratic equation: ax^2 - bx + c = 0.

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In this PowerPoint presentation, analyze the steps in solving a quadratic equation with two roots. In this Interactive we work with this version of the quadratic equation: ax^2 - bx - c = 0.

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In this interactive, look at the solution to a polynomial equation of degree 3 using synthetic division. The equation is of the form ax^3 + bx^2 - cx - d = 0 and has three integer solutions.

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In this interactive, look at the solution to a polynomial equation of degree 3 using synthetic division. The equation is of the form ax^3 - bx^2 + cx - d = 0 and has three integer solutions.

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In this interactive, look at the solution to a polynomial equation of degree 3 using synthetic division. The equation is of the form ax^3 + bx^2 + cx + d = 0 and has three integer solutions.

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In this interactive, look at the solution to a polynomial equation of degree 3 using synthetic division. The equation is of the form ax^3 + bx^2 + cx - d = 0 and has three integer solutions.

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In this Slide Show, look at the solution to a one-step equation.

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In this Slide Show, look at the solution to a one-step equation.

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In this Slide Show, look at the solution to a one-step equation.

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In this Slide Show, look at the solution to a one-step equation.

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In this Slide Show, use the Desmos graphing calculator to explore the point-slope form. To see the complete collection of Desmos Resources click on this link.

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The complete set of 13 examples that make up this set of tutorials.

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The complete set of 29 examples that make up this set of tutorials.

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This PowerPoint includes the 22 Tutorials on the topic of converting Linear Equations in Standard Form to Slope-Intercept Form.

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The complete set of 20 examples that make up this set of tutorials.

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The complete set of 8 examples that make up this set of tutorials.

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In this Slide Show, create a template for determining the equation of a line given a point and the slope of the line. This presentation requires the use of the TI-Nspire iPad App. Note: the download is a PPT.

<h1>INSTRUCTIONAL RESOURCE: Tutorial: The Point-Slope Form</h1><p>In this Slide Show, learn about thepoint-slope form. </p><h3> This is part of a collection of tutorials on a variety of math topics. To see the complete collection of these resources, <a href="https://www.media4math.com/instructional-resources?field_la_display_tit… on this link.</u></strong></a> </h3>

<h3> Note: The download is a PPT file. </h3><

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This slide show shows how to write equations in slope-intercept form for parallel and perpendicular lines. This slide show also includes some sample SAT-style questions.

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INSTRUCTIONAL RESOURCE: Tutorial: Point-Slope Form (SAT Prep)

This slide show shows how to use the point-slope form to write a linear equation in slope-intercept form. This slide show also includes some sample SAT-style questions.

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An equation shows a relationship between two quantities. The download is a PDF.

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An equation shows a relationship between two quantities. Note: The download is a PDF.

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In this Slide Show, learn about variables and variable expressions.

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This interactive crossword puzzle tests knowledge of key terms on the topic of the slope intercept form.

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In this drag-and-drop game, match a one-step equation to its solution. Includes Addition, subtraction, multiplication, and division one-step equations.

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In this drag-and-drop game, match a two-step equation to its solution. Includes all four operations.

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This lesson is the first in a six-part series designed to introduce middle school students to the concept of slope. Through interactive digital resources from Media4Math, students will explore how slope represents the ratio of vertical change to horizontal change between two points on a line.

Key learning objectives include:

The lesson includes engaging digital media, practice problems, and guided activities to help students develop a strong conceptual understanding. This resource is aligned with educational standards, making it an essential part of any middle school math curriculum.

Subscribers to Media4Math can download PDF versions of the lesson plan for easy classroom use.

This lesson is the second installment in Media4Math's comprehensive six-part series on understanding slope in mathematics. It explores the relationship between slope and similar triangles, providing students with a geometric perspective on why the slope between any two distinct points on a non-vertical line remains constant.

This lesson is the third installment in Media4Math's comprehensive six-part series on understanding slope in mathematics. It focuses on helping students visualize and comprehend slope by engaging in hands-on activities that involve plotting points on a coordinate plane and analyzing the resulting lines.

This lesson is the fourth installment in Media4Math's comprehensive six-part series on understanding slope in mathematics. It focuses on helping students differentiate among the four types of slope: positive, negative, zero, and undefined. Through interactive activities and visual aids, students will analyze how each type of slope affects the direction of a line on a graph.

This lesson is the fifth installment in Media4Math's comprehensive six-part series on understanding slope in mathematics. It introduces students to the slope formula, a fundamental tool in algebra for determining the steepness and direction of a line between two points on a coordinate plane.

Topic

Linear Functions

Description

This example demonstrates how to graph a linear function with a slope of 2 and a y-intercept of 3. The process involves three key steps: first, plotting the y-intercept at (0, 3); second, using the slope to find another point on the line; and finally, connecting these points to form the line.

Topic

Linear Functions

Description

This example illustrates the process of graphing a linear function with a slope of -4 and a y-intercept of 0. The method involves three main steps: plotting the y-intercept at the origin (0, 0), using the slope to determine a second point on the line, and connecting these points to create the linear graph.

Topic

Linear Functions

Description

This example demonstrates the process of graphing a linear function with a slope of 0 and a y-intercept of 5. The procedure involves three key steps: plotting the y-intercept at (0, 5), recognizing that a slope of 0 results in a horizontal line, and drawing the line parallel to the x-axis through the y-intercept.

Topic

Linear Functions

Description

This example illustrates the process of graphing a linear function with a slope of 0 and a y-intercept of -5. The method involves three main steps: plotting the y-intercept at (0, -5), recognizing that a slope of 0 results in a horizontal line, and drawing the line parallel to the x-axis through the y-intercept.