1. Factoring Polynomials
Grouping, Trinomials, Binomials, GCF & Solving Equations

2. Factor by Grouping
When polynomials contain four terms, it is sometimes easier to group like terms in order to factor.
Your goal is to create a common factor.
You can also move terms around in the polynomial to create a common factor.
Practice makes you better in recognizing common factors.

3. Factoring Four Term Polynomials

4. Factor by Grouping Example 1:
FACTOR: 3xy - 21y + 5x – 35
(3xy - 21y) + (5x – 35)
3y (x – 7) + 5 (x – 7)
Now you have a common factor
(x - 7) (3y + 5)

5. Factor by Grouping Example 1:
FACTOR: 6mx – 4m + 3rx – 2r
(6mx – 4m) + (3rx – 2r)
2m (3x - 2) + r (3x - 2)
Now you have a common factor
(3x - 2) (2m + r)

6. Factor by Grouping Example 1:
FACTOR: 15x – 3xy + 20 – 4y
(15x – 3xy) + (20 – 4y)
3x (5 - y) + 4 (5 - y)
Now you have a common factor
(5 - y) (3x + 4)

7. Factor by Grouping Example 1:
FACTOR: 15x – 3xy + 20 – 4y
(15x – 3xy) + (20 – 4y)
3x (5 - y) + 4 (5 - y)
Now you have a common factor
(5 - y) (3x + 4)

9. Factor by Grouping

10. Factor By Grouping

11. Factor By Grouping

12. Factor By Grouping

13. Factoring Trinomials

14. Factoring Trinominals
When trinomials have a degree of “2”, they are known as quadratics.
We learned earlier to use the “diamond” to factor trinomials that had a “1” in front of the squared term.
x2 + 12x + 35
(x + 7)(x + 5)

15. More Factoring Trinomials
When there is a coefficient larger than “1” in front of the squared term, we can use a modified diamond or square to find the factors.
Always remember to look for a GCF before you do ANY other factoring.

16. More Factoring Trinomials
Let’s try this example
3x2 + 13x + 4
Make a box
Write the factors of the first term.
Write the factors of the last term.
Multiply on the diagonal and add to see if you get the middle term of the trinomial. If so, you’re done!

17. Difference of Squares

18. Difference of Squares
When factoring using a difference of squares, look for the following three things:
only 2 terms
minus sign between them
both terms must be perfect squares
If all 3 of the above are true, write two
( ), one with a + sign and one with a – sign : ( ) ( ).

19. Try These
1. a2 – 16
2. x2 – 25
3. 4y2 – 16
4. 9y2 – 25
5. 3r2 – 81
6. 2a2 + 16

20. Perfect Square Trinomials

21. Perfect Square Trinomials
When factoring using perfect square trinomials, look for the following three things:
3 terms
last term must be positive
first and last terms must be perfect squares
If all three of the above are true, write one ( )2 using the sign of the middle term.

22. Try These 1. a2 – 8a + 16 2. x2 + 10x + 25 3. 4y2 + 16y + 16
5. 3r2 – 18r + 27
6. 2a2 + 8a - 8

23. Factoring Completely

24. Factoring Completely
Now that we’ve learned all the types of factoring, we need to remember to use them all.
Whenever it says to factor, you must break down the expression into the smallest possible
factors.
Let’s review all the ways to factor.

25. Types of Factoring Look for GCF first. Count the number of terms:
look for difference of squares
4 terms – factor by grouping
3 terms -
look for perfect square trinomial
if not, try diamond or box