Placeholder Image

字幕表 動画を再生する

  • So if we were to ask ourselves, what

  • is the value of our function approaching--

  • as we approach x equals 2 from values less than x equals 2.

  • So as you imagine, as we approach x equals 2--

  • So x equals 1, x equals 1.5, x equals 1.9, x equals 1.999,

  • x equals 1.99999999.

  • What is f of x approaching?

  • And we see that f of x seems to be approaching

  • this value right over here.

  • It seems to be approaching 5.

  • And so the way we would denote that is

  • the limit of f of x, as x approaches 2--

  • and we're going to specify the direction-- as x approaches 2

  • from the negative direction-- we put

  • the negative as a superscript after the 2

  • to denote the direction that we're approaching.

  • This is not a negative 2.

  • We're approaching 2 from the negative direction.

  • We're approaching 2 from values less than 2.

  • We're getting closer and closer to 2, but from below-- 1.9,

  • 1.99, 1.99999 .

  • As x gets closer and closer from those values,

  • what is f of x approaching?

  • And we see here that it is approaching 5.

  • But what if we were asked the natural other question-- What

  • is the limit of f of x as x approaches 2

  • from values greater than 2?

  • So this is a little superscript positive right over here.

  • So now we're going to approach x equals 2,

  • but we're going to approach it from this direction--

  • x equals 3, x equals 2.5, x equals 2.1, x equals 2.01,

  • x equals 2.0001.

  • And we're going to get closer and closer to 2,

  • but we're coming from values that are larger than 2.

  • So here, when x equals 3, f of x is here.

  • When x equals 2.5, f of x is here.

  • When x equals 2.01, f of x looks like it's right over here.

  • So in this situation, we're getting closer and closer

  • to f of x equaling 1.

  • It never does quite equal that.

  • It actually then just has a jump discontinuity.

  • This seems to be the limiting value when we approach when

  • we approach 2 from values greater than 2.

  • So this right over here is equal to 1.

  • And so when we think about limits in general,

  • the only way that a limit at 2 will actually exist

  • is if both of these one-sided limits

  • are actually the same thing.

  • In this situation, they aren't.

  • As we approach 2 from values below 2,

  • the function seems to be approaching 5.

  • And as we approach 2 from values above 2,

  • the function seems to be approaching 1.

  • So in this case, the limit-- let me write this down--

  • the limit of f of x, as x approaches 2

  • from the negative direction, does not

  • equal the limit of f of x, as x approaches 2

  • from the positive direction.

  • And since this is the case-- that they're not equal--

  • the limit does not exist.

  • The limit as x approaches 2 in general

  • of f of x-- so the limit of f of x, as x approaches 2,

  • does not exist.

  • In order for it to have existed, these two things

  • would have had to have been equal to each other.

  • For example, if someone were to say,

  • what is the limit of f of x as x approaches 4?

  • Well, then we could think about the two one-sided limits--

  • the one-sided limit from below and the one-sided limit

  • from above.

  • So we could say, well, let's see.

  • The limit of f of x, as x approaches 4 from below-- so

  • let me draw that.

  • So what we care about-- x equals 4.

  • As x equals 4 from below--

  • So when x equals 3, we're here where f of 3

  • is negative 2. f of 3.5 seems to be right over here.

  • f of 3.9 seems to be right over here. f of 3.999--

  • we're getting closer and closer to our function equaling

  • negative 5.

  • So the limit as we approach 4 from below--

  • this one-sided limit from the left,

  • we could say-- this is going to be equal to negative 5.

  • And if we were to ask ourselves the limit of f

  • of x, as x approaches 4 from the right,

  • from values larger than 4, well, same exercise.

  • f of 5 gets us here.

  • f of 4.5 seems right around here.

  • f of 4.1 seems right about here. f of 4.01

  • seems right around here.

  • And even f of 4 is actually defined,

  • but we're getting closer and closer to it.

  • And we see, once again, we are approaching 5.

  • Even if f of 4 was not defined on either side,

  • we would be approaching negative 5.

  • So this is also approaching negative 5.

  • And since the limit from the left-hand side

  • is equal to the limit from the right-hand side,

  • we can say-- so these two things are equal.

  • And because these two things are equal,

  • we know that the limit of f of x, as x approaches 4,

  • is equal to 5.

  • Let's look at a few more examples.

  • So let's ask ourselves the limit of f of x-- now,

  • this is our new f of x depicted here-- as x approaches 8.

  • And let's approach 8 from the left.

  • As x approaches 8 from values less than 8.

  • So what's this going to be equal to?

  • And I encourage you to pause the video to try to figure it out

  • yourself.

  • So x is getting closer and closer to 8.

  • So if x is 7, f of 7 is here.

  • If x is 7.5, f of 7.5 is here.

  • So it looks like our value of f of x

  • is getting closer and closer and closer to 3.

  • So it looks like the limit of f of x, as x approaches 8

  • from the negative side, is equal to 3.

  • What about from the positive side?

  • What about the limit of f of x as x

  • approaches 8 from the positive direction

  • or from the right side?

  • Well, here we see as x is 9, this is our f of x.

  • As x is 8.5, this is our f of 8.5.

  • It seems like we're approaching f of x equaling 1.

  • So notice, these two limits are different.

  • So the non-one-sided limit, or the two-sided limit,

  • does not exist at f of x or as we approach 8.

  • So let me write that down.

  • The limit of f of x, as x approaches 8--

  • because these two things are not the same value--

  • this does not exist.

  • Let's do one more example.

  • And here they're actually asking us a question.

  • The function f is graphed below.

  • What appears to be the value of the one-sided limit, the limit

  • of f of x-- this is f of x-- as x approaches negative 2

  • from the negative direction?

  • So this is the negative 2 from the negative direction.

  • So we care what happens as x approaches negative 2.

  • We see f of x is actually undefined right over there.

  • But let's see what happens as we approach

  • from the negative direction, or as we approach

  • from values less than negative 2,

  • or as we approach from the left.

  • As we approach from the left, f of negative 4

  • is right over here.

  • So this is f of negative 4.

  • f of negative 3 is right over here.

  • f of negative 2.5 seems to be right over here.

  • We seem to be getting closer and closer

  • to f of x being equal to 4, at least visually.

  • So I would say that it looks-- at least,

  • graphically-- the limit of f of x, as x approaches 2

  • from the negative direction, is equal to 4.

  • Now, if we also asked ourselves the limit

  • of f of x, as x approaches negative 2

  • from the positive direction, we would get a similar result.

  • Now, we're going to approach from when

  • x is 0, f of x seems to be right over here.

  • When x is 1, f of x is right over here.

  • When x is negative 1, f of x is there.

  • When x is negative 1.9, f of x seems to be right over here.

  • So once again, we seem to be getting closer and closer to 4.

  • Because the left-handed limit and the right-handed limit

  • are the same value.

  • Because both one-sided limits are approaching the same thing,

  • we can say that the limit of f of x, as x approaches

  • negative 2-- and this is from both directions.

  • Since from both directions, we get the same limiting value,

  • we can say that the limit exists there.

  • And it is equal to 4.

So if we were to ask ourselves, what

字幕と単語

ワンタップで英和辞典検索 単語をクリックすると、意味が表示されます

A2 初級

One-sided limits from graphs | Limits | Differential Calculus | Khan Academy

  • 6 1
    yukang920108 に公開 2022 年 06 月 30 日
動画の中の単語