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### Course: Algebra 1 > Unit 13

Lesson 5: Factoring quadratics intro- Factoring quadratics as (x+a)(x+b)
- Factoring quadratics: leading coefficient = 1
- Factoring quadratics as (x+a)(x+b) (example 2)
- More examples of factoring quadratics as (x+a)(x+b)
- Factoring quadratics intro
- Factoring quadratics with a common factor
- Factoring completely with a common factor
- Factoring quadratics with a common factor
- Factoring simple quadratics review

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# Factoring quadratics with a common factor

We can factor quadratics by first pulling out a common factor so the result looks like a(x+b)(x+c). Created by Sal Khan.

## Want to join the conversation?

- Muffin (chocolate)(66 votes)
- To find the width, could we also divide all the terms of the trinomial by 6? If yes, would this strategy work with all trinomials?(12 votes)
- Not really,like in this question 8x^2-14x+49.

But in these questions,yes they work the same way.(6 votes)

- khan needs to stop needing SUPER SPECIFIC ANSWERS! especially when I had it right and it marked it wrong because "WrOnG FoRmAt" yet on my actual test in school I wont be wrong... man give me an overide button like Quizlet or something..(14 votes)
- What are you supposed to do when there's no third number?(5 votes)
- There always should be a third number, but in theory you can put 0 there if there is no third number.(9 votes)

- In class, we are doing this but with a 4-term polynomial. We make a factor ladder for both binomials. This is the same thing as that but instead of two binomials we just have a trinomial right?(8 votes)
- How do you find they greatest common factor as mentioned in0:05?(6 votes)
- visualization is confusing; can't we do without it??(2 votes)
- Visualization may be confusing for you, but others might learn better through visualization. It depends on how you learn best.(6 votes)

- Guys, how do I change my profile picture(1 vote)
- Just click on your avatar from your profile page.(6 votes)

- At1:28, did anyone else here "Pete's section" or "Pizzaction" Instead of "peach section?" Or am I just imagining pizza...?(3 votes)
- Conspiracies, conspiracies...(1 vote)

- CHAT! how y'all feel bout khan academy chat?(2 votes)

## Video transcript

- [Instructor] Averil was trying to factor six x squared minus 18x plus 12. She found that the greatest common factor of these terms was six
and made an area model. What is the width of Averil's area model? So pause this video and see
if you can figure that out, and then we'll work through this together. All right, so there's a couple
of ways to think about it. She's trying to factor six x squared minus 18x plus 12, and she figured out that the
greatest common factor was six. So one way you could think about it is this could be rewritten as
six times something else. And to help her think about it, she thought about an area model, where if you had a rectangle, if you had a rectangle like this, and if the height is six and the width, let's just call that the width for now, so this is the width right over here. If you multiply six times the width, maybe I could write width right over here, if you multiply six times the width, you multiply the height times the width, you're going to get the area. So imagine that the area of this rectangle was our original expression, six x squared minus 18x plus 12. And that's exactly what's drawn here. Now, what's interesting
is is that they broke up the area into three sections. This pink section is the six x squared, this blue section is the negative 18x, and this peach section is the 12. And, of course, these
aren't drawn to scale, 'cause we don't even know
how wide each of these are 'cause we don't know what x is. So this is all a little bit abstract, but it's to show that we
can break our bigger area into three smaller areas. And what's useful about
this is we could think about the width of each of these sub-areas, and then we can add them together to figure out the total width. So what is the width of this
pink section right over here? Well, six times what is six x squared? Well, six times x
squared is six x squared, so the width here is x squared. Now, what about this blue area? A height of six times what width is equal to negative 18x? So let's see, if I take
six times negative three, I get negative 18, then I have to multiply
it times an x as well to get negative 18x. So six times negative
three x is negative 18x. And then, last but not least, six, our height of six, times what is going to be equal to 12? Well, six times two is equal to 12. So we figured out the widths
of each of these subregions, and now we know what the total width is. The total width is going
to be our x squared plus our negative three x, plus our two. So the width is going to be x squared, and I can just write that as, minus three x, plus two. So we have answered the question. And you could substitute
that back in for this, and you could see, if
you multiplied six times all of this, if you distributed the six, you would indeed get six x
squared minus 18x plus 12.