Illustrative Math Alignment: Grade 8 Unit 3

In this graphing calculator activity, have your students explore how to convert linear equations in standard form to a linear function in slope-intercept form. This Desmos template allows students to explore the effect of changes in the values of A, B, and C in the standard form and m and b in the slope-intercept form. A companion downloadable worksheet uses the graphing calculator template to explore the properties of these linear equations and functions. Note: The download is a PDF worksheet.

The following section includes background information on slope. This background also includes video resources and accompanying transcripts.

In this tutorial, learn how to use the point-slope form to find the equation of the line tangent to a function at a given point.

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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To see the complete library of Instructional Resources , click on this link.

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

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To see the complete library of Instructional Resources , click on this link.

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

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To see the complete library of Instructional Resources , click on this link.

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

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To see the complete library of Instructional Resources , click on this link.

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.

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

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To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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.

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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 two-step equation by clicking on various hot spots.

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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.

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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.

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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.

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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.

Library of Instructional Resources

To see the complete library of Instructional Resources , click on this link.

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.

Library of Instructional Resources

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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.

Library of Instructional Resources

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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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