Content Showcase: Video Library
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Media4Math's Video Library is a collection of videos on key topics in pre-algebra and algebra. Each video includes several worked-out examples that clearly explain the key concept. All videos include real-world applications of math.This is a growing collection of resources, so keep coming back!(Want to learn more about our subscription packages? Click here.)
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Video Library
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Closed Captioned Video: Solving a Quadratic |
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Closed Captioned Video: Solving a QuadraticIn 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 |
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Closed Captioned Video: Solving a SystemIn 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 |
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Closed Captioned Video: Testing a PolynomialIn 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 |
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Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b negativeVideo 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 |
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Closed Captioned Video: The Distributive Property: a(-x + b), a negative, b positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(-x + b), all constants positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b negativeVideo 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 |
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Closed Captioned Video: The Distributive Property: a(-x - b), a negative, b positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(-x - b), all constants positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(bx + c), a negative, b and c positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(bx + c), all constants negativeVideo 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 |
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Closed Captioned Video: The Distributive Property: a(bx + c), all constants positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(bx - c), a negative, b and c positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(bx - c), all constants negativeVideo 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 |
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Closed Captioned Video: The Distributive Property: a(bx - c), all constants positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(x + b), a negative, b negativeVideo 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 |
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Closed Captioned Video: The Distributive Property: a(x + b), a negative, b positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(x + b), all constants positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(x - b), a negative, b negativeVideo 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 |
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Closed Captioned Video: The Distributive Property: a(x - b), a negative, b positiveVideo 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 |
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Closed Captioned Video: The Distributive Property: a(x - b), all constants positiveVideo 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 |
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Closed Captioned Video: Trig IdentitiesIn 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 |
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Closed Captioned Video: Two-Step Equations: Division and AdditionVideo 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 |
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Closed Captioned Video: Two-Step Equations: Division and SubtractionVideo Tutorial: Two-Step Equations: Division and Subtraction. In this video, we will solve a two-step equation that involves division and subtraction. |
Closed Captioned Video: Two-Step Equations: Multiplication and Addition |
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Closed Captioned Video: Two-Step Equations: Multiplication and AdditionVideo Tutorial: Two-Step Equations: Multiplication and Addition. In this video, we will solve a two-step equation that involves multiplication and addition. |
