Content Showcase: Closed Captioned Videos

Closed Captioned Videos

 

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Number of Resources: 406
Title Thumbnail Image Description

Closed Captioned Video: Solving a Cubic

Closed Captioned Video: TI-Nspire Mini-Tutorial: (CAS) Solving a Cubic Algebraically and Graphically

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: TI-Nspire Mini-Tutorial: (CAS) Solving a Quadratic Algebraically and Graphically

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: TI-Nspire Mini-Tutorial: (CAS) Solving a System of Two Linear Equations

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: TI-Nspire Mini-Tutorial: (CAS) Testing If One Polynomial Is a Factor of Another

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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: TI-Nspire Mini-Tutorial: (CAS) Trig Identities: Addition and Subtraction Identities for Sine and Cosine

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

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

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.