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# Seeing Structure in Expressions - Factoring Higher Order Polynomials

Lesson 1 of 15

## Objective: SWBAT extend their quadratic factoring skills in order to write polynomial expressions in factored form.

## Big Idea: Like quadratic expressions, some higher order polynomial expressions can be rewritten in factored form to reveal values that make the expression equal to zero.

*95 minutes*

#### Warm Up

*15 min*

To begin our second unit on polynomials, I ask my students to warm-up by performing some polynomial multiplication problems in Warm up Multiplying Polynomials. Students practiced this skill in the previous unit and here they work with some "special products" that will introduce them to methods of factoring the sum of two cubes, difference of two cubes, and other common factoring patterns [MP7].

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#### Structured Discussion

*15 min*

Because today is the first day of our third unit, I take a few minutes to provide students with an overview of the unit. I remind them of the formal definition of a polynomial and point out that they are now very familiar with first and second degree polynomials. In this unit, they will become familiar with the behavior of polynomials with degree three or more.

After the general overview, I focus in on what they should be able to do by the end of the day's lesson: factor some special polynomials that have a degree greater than 2.

After the introduction, I ask my students to pair up with a student near them to compare answers to the Warm-up. After they have agreed on the answers I invite them to find some problems that seem to turn out in a similar way. After 5 minutes or so, I use a random name generator to select a few students to share their findings with the class. I hope that students will see that problems #1 - 4 all turn out as the sum or difference of two cubes, 5 and 6 are both the difference of two squares and 7 and 8 are perfect square trinomials.

I then ask students to perform the following multiplication problems in their notebooks:

**(a-b)(a ^{2}+ab+b^{2})**

**(a+b)(a ^{2}-ab+b^{2})**

I ask a volunteer or two to articulate what it means to factor. I have asked this question several times before and hope that students can easily relate factoring to setting up an expression as a multiplication problem. We then discuss the special form of the two multiplications problems they completed - all the middle terms cancel leaving just the sum or difference of two cubes. Through questioning, I lead the discussion to the idea that factoring a sum or difference of two cubes is the reverse process of the multiplication they did above.

I discuss the idea that in later topics studied in Algebra 2, Precalculus and Calculus, the process of factoring a polynomial will be a "sub-procedure" in other, larger problems. I invite students who have studied computer programming to explain the concept of a sub-procedure to the other students in the class. This can lead to a great discussion about the role of computational thinking in math class if there are enough programmers in the room [MP2]!

#### Resources

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I ask my students to now take some formal notes on factoring that they can refer to later.

**Factoring Higher Order Polynomials**

*1. Special patterns*

*:*

**a**^{3}-b^{3}=(a-b)(a^{2}+ab+b^{2})*:*

**a**^{3}+b^{3}=(a+b)(a^{2}-ab+b^{2})*:*

**a**^{2}-b^{2}=(a-b)(a+b)*:*

**a**OR^{2}-2ab+b^{2}=(a-b)^{2 }**a**^{2+}2ab+b^{2}=(a+b)^{2}I use a similar approach with two other types of factoring: quadratic patterns and factoring by grouping. I ask students to complete the multiplication problems on the back of Warm up Multiplying Polynomials, pair up to discuss similarities in problem types and then share their findings with the group. In their notebooks, they then add notes on the second two types of factoring.

*2. Quadratic patterns*

- When possible, make a substitution so that a higher order polynomial can be rewritten as a quadratic trinomial. I call this a "u-substitution" to connect it to the terminology they will eventually use in Calculus.
- I demonstrate this technique to students and then write out a few examples of using these patterns to factor.

*3. Factoring by grouping*

- When a polynomial has an even number of terms, it is sometimes possible to create groups of terms that have a common factor.
- Factoring out this GCF can be helpful in writing the expression in factored form.
- I demonstrate this technique to my students and remind them that they already used this method as part of the process of factoring a quadratic trinomial. I write out a few examples of factoring by grouping.

In general, I hope that by the end of this lesson, my students will understand that in order factor a polynomial expression, we need to figure out the structure of the expression and then use the structure to rewrite it in a form that better illustrates factors or terms. I find that this lesson provides a good opportunity to talk with my Algebra 2 students about Mathematical Practice 7.

#### Resources

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#### Independent Practice

*40 min*

After introducing today's new content, I ask students to work in table groups to complete WS Factoring High Polynomials. This worksheet is a collection of conceptual questions together with practice in factoring and solving polynomials. While I have not explicitly taught my students how to solve solve polynomial equations by factoring, I anticipate that they will connect their new factoring skills to the method they used in the previous unit of applying the **Zero Product Property** to determine solutions [MP1]. If they are not able to make this connection, I will help them individually at their tables, using the 3 Cup System to determine which groups need instruction.

When groups have had ample time to complete the worksheet, we go over the answers as a class and take time to discuss any problems that were difficult.

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#### Exit Ticket and Homework

*10 min*

To make sure that students have reached the day's goal of being able to rewrite special higher order polynomials in factored form, I send them Factor Solve Polys Quick Poll, which includes questions about factoring and solving polynomials. I discuss how I use quick polls for formative assessment in the video Formative Assessment - Quick Poll. I show the results of this poll to the class so that we all have information about how the class is progressing in their understanding of factoring higher order polynomials [MP7].

For homework, students will complete a factoring puzzle, Factoring Droodle. This includes practice in all the forms we studied today along with a riddle to solve.

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- LESSON 1: Seeing Structure in Expressions - Factoring Higher Order Polynomials
- LESSON 2: Proving Polynomial Identities
- LESSON 3: Polynomial Long Division and Solving Polynomial Equations
- LESSON 4: The Remainder Theorem
- LESSON 5: The Fundamental Theorem of Algebra and Imaginary Solutions
- LESSON 6: Arithmetic with Complex Numbers
- LESSON 7: Review of Polynomial Roots and Complex Numbers
- LESSON 8: Quiz and Intro to Graphs of Polynomials
- LESSON 9: Graphing Polynomials - End Behavior
- LESSON 10: Graphing Polynomials - Roots and the Fundamental Theorem of Algebra
- LESSON 11: Analyzing Polynomial Functions
- LESSON 12: Quiz on Graphing Polynomials and Intro to Modeling with Polynomials
- LESSON 13: Performance Task - Representing Polynomials
- LESSON 14: Review of Polynomial Theorems and Graphs
- LESSON 15: Unit Assessment: Polynomial Theorems and Graphs