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Factoring Methods
Polynomial Division
End Behavior
Root Behavior
Misc
100

The opposite of distribution is....

Factoring!

100
When you polynomial divide, how do you know you're finished with the problem?

You get zero at the end!

100

Describe end behavior in your own (team's) words.

Answers vary

100

What are the three kinds of root behaviors?

Cross, Bounce, Wiggle
100

If you take two square numbers and multiply them, the result is also a square. Why?

Ex:  4\cdot 9= 36, 25*81=2025  .

Because, 

a^2\cdot b^2=(ab)^2

200

The following quadratic is unfactorable, explain why in detail: 

x^2+8x+3

Because there are no factors of 3 that can be combined to equal 8

200

Simplify: 

\frac(4x^3)(2x), \frac(20x^5)(4x^3), \frac(100x)(20)

2x^2, 5x^2, 5x

200

Why is a linear equation considered odd? Does it have odd end behavior?

Linear functions have x to the power of 1. Which is an odd number, so it is considered an odd polynomial.
200

What kind of exponents give each kind of root?

Cross--> exponent is 1

Bounce --> exponent is 2, or even

Wiggle --> exponent is 3, or odd

200

The rational root theorem says the factors of the constant divided by the factors of the leading coefficient gives you a list of POSSIBLE rational roots. 

Given the following, create the list of possible rational roots: 

g(x)=28x^3-179x^2+200x-25

The list includes positive and negatives of the following list:

1/1, 1/2, 1/4, 1/7, 1/14, 1/28, 5/1, 5/2, 5/4, 5/7,5/14, 5/28, 25/1, 25/2, 25/4, 25/7, 25/14, 25/28.

300

Factor the following: 

8x^2+18x+7

(4x+7)(2x+1)

300

Finish the division: 

\frac(20x^3+27x^2+x-6)(4x+3)

5x^2+3x-2

300

If I have the function  P(x)=x^2+8x+12  what is the end behavior when 

x\to \infty

P(x)\to \infty 

300

given the following: 

g(x)=(x-3)^2(4x-5)^7(5-x)

Find all the roots, and their behaviors

x=3, bounce.  x=5/4 wiggle.  x=5, cross

300

Graph the following: 

x^3-4x^2+x+26

According to the rational root theorem, we should be able to find our roots from the list (positive and negative): 1, 2, 13, 26. 

Why are we seeing only one root? Where are the other two?

They're complex! Won't see them in the xy-coordinate plane!

400

Factor the following: 

f(x)=18x^2+102x+60

and find the roots!


6(3x+2)(x+5), the roots are: x=-5 and x=-2/3

400

Finish the division: 

\frac(4x^5-36x^4-40x^3-7x^2+63x+70)(x^2-9x-10)

4x^3-7

400

An ODD degree positive polynomial tends to what value when 

x\to -\infty

The odd degree positive polynomial will also tend towards -\infty  .

400

Can a 5th degree polynomial have 3 bouncing x-intercepts? 

No! that implies the exponent would be 6 instead of 5.

400

True or False: a quadratic can have 1 real root and one complex root. 

Think really hard about how you get a complex root from a quadratic. Think about y=x^2+1  .

False! Complex roots always come in pairs. If a quadratic has one complex root, the other one is automatically complex.

500

Give 3 possible 'b' values so the following quadratic is factorable:

x^2+bx+48

b is made up of the sum of the factor pairs of 48. So some possible b values are 49 (48+1), 26 (24+2), 19 (3+16), 16 (4+12).

500

Suppose polynomial  P(x)  is divisible by polynomial  Q(x)

Let's suppose further that  \frac(P(x))(Q(x))=L(x) . Then, compute: 

L(x)\cdot Q(x)

The answer is 

P(x)

500

Describe the full end behavior as  x \to \pm \infty  for 

f(x)=-3x^5-9x+10

As x \to \infty, f(x)\to -\infty  


As x \to -\infty, f(x) to \infty 

500

Odd polynomials have at least 1 real root guaranteed. Explain why!

The end behavior of odd polynomials forces the polynomial to cross the x-axis.

500

A quadratic times a linear is what?

A cubic times a quadratic is what? 

Finally, a cubic times a quadratic times a linear is what?

Q\cdot L = C 

C \cdot Q =  5th degree 

C\cdot Q \cdot L = 6th degree