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  • - [Instructor] We're already familiar

  • with the idea of a polynomial

  • and we've spent some time adding polynomials,

  • subtracting polynomials,

  • and multiplying polynomials,

  • and factoring polynomials.

  • And what we're going to think about in this video

  • and really start to think about in this video

  • is the idea of polynomial division.

  • So, for example.

  • If I had the polynomial,

  • and this would be a quadratic polynomial,

  • let's say x squared plus three x

  • plus two, and I wanted to divide it

  • by x plus one.

  • Pause this video and think about

  • what would that be?

  • What would I have to multiply x plus one by

  • to get x squared plus three x plus two?

  • Well, one way to approach it is

  • we could try to factor x squared

  • plus three x plus two

  • and we've done that multiple times in our lives.

  • We think about well, what two numbers add up to three

  • and if I were to multiply them I get two.

  • And the one that might jump,

  • or the ones that might jump out at you

  • are two and one.

  • And so we could express x squared

  • plus three x plus two as x plus two

  • times x plus one, and then all of that

  • is going to be over x plus one.

  • And so, if you were to take x plus two

  • times x plus one, and then divide that

  • by x plus one, what is that going to be?

  • Well, you're just going to be left with

  • an x plus two.

  • This is going, you don't have to put parentheses,

  • this is going to be an x plus two.

  • And if we want to be really mathematically precise

  • we would say hey, this would be true

  • as long as x does not equal,

  • x does not equal negative one,

  • because if x equals negative one

  • in this expression or this expression

  • we're gonna be dividing by zero.

  • And we know that leads to all sorts

  • of mathematical problems.

  • But as we see, for any other x

  • as long as we're not dividing by zero here,

  • this expression is going to be

  • the same thing as x plus two,

  • and that's because x plus two

  • times x plus one is equal to what we have

  • in this numerator here.

  • Now, as we go deeper into polynomial division,

  • we're going to approach things

  • that aren't as easy to do

  • just purely through factoring.

  • And that's where we're gonna have a technique

  • called polynomial long division.

  • Polynomial long division,

  • sometimes known as algebraic long division.

  • And if it sounds familiar,

  • because you first learned about long division

  • in fourth or fifth grade,

  • it's because it's a very similar process

  • where you would take your x plus one

  • and you would try to divide it

  • into your x squared plus three x plus two.

  • And you do.

  • Something very, and I'm gonna do a very quick example

  • right over here, but we're gonna do

  • much more detailed examples

  • in future videos, but you look

  • at the highest degree terms.

  • You say okay, I have a first degree term,

  • I have a second degree term here.

  • How many times is x going to x squared?

  • Well, it goes x times.

  • So you put the x in the first degree column

  • and then you multiply your x times x plus one.

  • X times x is x squared.

  • X times one is x.

  • And then you subtract this from that.

  • So you might already start to see

  • some parallels with the long division

  • that you first learned in school many years ago.

  • So when you do that, these cancel out,

  • three x minus x.

  • We are left with a two x.

  • And then you bring down that two.

  • So two x plus two.

  • And you say how many times does x

  • go into two x?

  • Well, it goes two times.

  • So you have a plus two here.

  • Two times x plus one.

  • Two times x is two x.

  • Two times one is two.

  • You can subtract these and then

  • you are going to be left with nothing.

  • Two minus two is zero.

  • Two x minus two x is zero.

  • So in this situation it divided

  • cleanly into it and we got x plus two,

  • which is exactly what we had over there.

  • Now, an interesting scenario

  • that we are also going to approach

  • in the next few videos,

  • is what if things don't divide cleanly?

  • For example, if I were to add one

  • to x squared plus three x plus two,

  • I would get x squared plus three x plus three.

  • And if I were to try to divide that

  • by x plus one, well, it's not going

  • to divide cleanly anymore.

  • You could it either approach.

  • One way to think about it, if we know

  • we can factor x squared plus three x plus two

  • is say hey, this is the same thing as

  • x squared plus three x plus two plus one,

  • and then all of that's going to be over x plus one.

  • And then you could say hey,

  • this is the same thing

  • as x squared plus three x plus two

  • over x plus one,

  • over x plus one,

  • plus one over x plus one.

  • Plus one over x plus one.

  • And we already figured out

  • that this expression on the left,

  • as long as x does not equal negative one,

  • this is going to be equal to x plus two.

  • So this is going to be equal to x plus two,

  • but then we have that one

  • that we were able to divide x plus one into,

  • so we're just left with the one over x plus one.

  • And we'll study that in a lot more detail

  • in other videos.

  • What does this remainder mean

  • and how do we calculate it

  • if we can't factor part of what we have

  • in the numerator?

  • And as we do our polynomial long division

  • we'll see that the remainder will show up

  • at the end when we are done dividing.

  • We'll see those examples in future videos.

- [Instructor] We're already familiar

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A2 初級

多項式除算入門|代数2|カーンアカデミー (Polynomial division introduction | Algebra 2 | Khan Academy)

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    林宜悉 に公開 2021 年 01 月 14 日
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