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  • - [Instructor] So we're told that this table

  • gives select values of the differentiable function F.

  • So it gives us the value of the function

  • at a few values for X, in particular,

  • five different values for X and

  • it tells us what the corresponding f(x) is.

  • And they say, what is the best estimate

  • for f'(4)?

  • So this is the derivative of our function F

  • when X is equal to four.

  • Or another way to think about it,

  • what is the slope of the tangent line

  • when X is equal to four for f(x)?

  • So what is the best estimate for f'(4)

  • we can make based on this table?

  • So, let's just visualize what's going on

  • before we even look at the choices.

  • So let me draw some axes here.

  • And let me plot these points.

  • We know that these would sit on the curve of Y

  • is equal to f(x).

  • When X is zero, f(x) is 72.

  • So this is the point (0,72).

  • This is the point (3,95)

  • clearly, two different scales on the X and Y axes.

  • This is the point

  • (5,112).

  • This is (6,77).

  • This is (9,54), actually, let me

  • write out

  • the

  • this is one, two, three,

  • four, five, six,

  • seven, eight, nine,

  • and ten.

  • Now they want us to know, they want to

  • what is the derivative of our function

  • when F is equal to four?

  • Well, they haven't told us

  • even what the value of F is at four.

  • We don't know what that point is.

  • But what they're trying to do is,

  • well, we're trying to make a best estimate.

  • And using these points, we don't even know

  • exactly what the curve looks like.

  • It could look like all sorts of things.

  • We could try to fit a reasonably smooth curve.

  • The curve might look something like that.

  • But it might be wackier.

  • It might do something like this.

  • Let me try to do it.

  • It might look something

  • like this.

  • So we don't know, for sure.

  • All we know is that

  • it needs to go through those points.

  • 'Cause they've just sampled to the function

  • at those points.

  • But let's just, for the sake of

  • this exercise, let's assume the simplest,

  • let's say it's a nice smooth

  • curve without too many twists and turns

  • that goes through these points, just like that.

  • So what they're asking, okay,

  • when X is equal to four

  • if this yellow curve were the actual curve

  • then what is the slope of the tangent line, at that point?

  • So we would be visualizing that.

  • Now to be clear,

  • this tangent line that I just drew

  • this would be for

  • this version of our function that I did

  • connecting these points.

  • That does not have to be

  • the actual function.

  • We know that the actual function has to go

  • through those points.

  • But I'm just doing this for visualization purposes.

  • One of the whole ideas here is

  • that all we do have is the sample

  • and we're trying to get a best estimate.

  • We don't know

  • if it's even gonna be a good estimate.

  • It's just going to be a best estimate.

  • So what we generally do

  • when we just have some data

  • around a point, is, let's use a data points

  • that are closest

  • to that point

  • and find slopes of secant lines

  • pretty close around that point.

  • And that's going to give us our best estimate

  • for the slope of the tangent line.

  • So what points do we have near

  • F of four, or near the point

  • (4,f(4))?

  • Well, they give us what F is equal to

  • when X is equal to three.

  • They give us this point, right over here.

  • Let me do this in another color.

  • So, (3,95)

  • that is that right over there.

  • And they also give us

  • (5,112).

  • That is that point right over there.

  • And so what we could do

  • we could say, well, what is the average

  • rate of change between these two points?

  • Another way to think about it is,

  • what is the slope of the secant line

  • between those two points.

  • And, that would be our best estimate

  • for the slope of the tangent line

  • at X equals four.

  • Do we know that it's a good estimate?

  • Do we know that it's even close?

  • No, we don't know for sure, but that would

  • be the best estimate.

  • It would be better than trying to take the

  • the average rate of change between

  • When X equals three

  • and X equals six.

  • Or between when X equals zero

  • and X equals nine.

  • These are pretty close around four.

  • And so, let's do that.

  • Let's find the average rate of change

  • between when X goes from three to five.

  • So, we can see here

  • our change in X.

  • Let me do this in a new color.

  • So our change in X here

  • is equal to

  • plus two.

  • And I can draw that out.

  • My change in X here

  • is

  • plus two.

  • And, my change in Y

  • is going to be

  • when my X increased by two, my change in Y is

  • plus, let's see, this is

  • if I add ten I get to

  • I get to 105.

  • If I add another seven

  • so this is plus 17.

  • So this is plus 17 right over here.

  • Plus 17.

  • And so my change in Y over change in X.

  • Change in Y

  • over my change in X.

  • For this secant line between

  • when X is equaling three

  • and X is equaling five

  • is going to be equal to 17 over two.

  • Seventeen over

  • two.

  • Which is equal to 8.5.

  • So the slope of this green line here is 8.5.

  • And that would be our best estimate

  • for the slope of the tangent line when X equals four

  • of the curve Y is equal to f(x).

  • And so, lucky for us

  • the people who wrote this question had

  • the exact same logic, and they did it right over there.

  • So you wouldn't have to graph it the way I did.

  • I did it just to help us visualize what's going on.

  • In general, when you see a question like this

  • they're really saying, look,

  • you don't have all the data you need

  • to figure out exactly what f'(4) is.

  • But if you can find points close to, or around

  • f'(4)

  • and find the secant line, the average rate

  • of the slope of the secant line.

  • Or the average rate of change between those points

  • that's going to be our best estimate

  • for the instantaneous rate of change

  • when X equals four.

  • Or the derivative when X equals four.

- [Instructor] So we're told that this table

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A2 初級 美國腔

03-1估計微分(Estimating derivatives | Derivatives introduction | AP Calculus AB | Khan Academy)

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    yukang920108 發佈於 2022 年 07 月 12 日
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