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  • - [Instructor] So we've been given some information

  • about these three triangles here.

  • And then they say, "Use one of the triangles,"

  • so use one of these three triangles,

  • "to approximate the ratio."

  • The ratio's the length of segment PN divided

  • by the length of segment MN.

  • So they want us to figure out the ratio of PN over MN.

  • So pause this video and see if you can figure this out.

  • All right, now let's work through this together.

  • Now, given that they want us to figure out this ratio

  • and they want us to actually evaluate it

  • or be able to approximate it,

  • we are probably dealing with similarity.

  • And so what I would wanna look for is,

  • are one of these triangles similar

  • to the triangle we have here?

  • And we're dealing with similar triangles

  • if we have two angles in common.

  • Because if we have two angles in common,

  • then that means that we definitely have

  • the third angle as well, because the third angle's

  • completely determined by what the other two angles are.

  • So we have a 35 degree angle here.

  • And we have a 90 degree angle here.

  • And out of all of these choices,

  • this doesn't have a 35 degree angle, it has a 90.

  • This doesn't have 35, has a 90.

  • But triangle two here has a 35 degree angle,

  • has a 90 degree angle and has a 55 degree angle.

  • And if you did the math,

  • knowing that 35 plus 90 plus this have

  • to add up to 180 degrees, you would see

  • that this too has a measure of 55 degrees.

  • And so given that all of our angle measures are

  • the same between triangle PNM

  • and triangle number two right over here,

  • we know that these two are similar triangles.

  • And so the ratios between corresponding sides are going

  • to be the same.

  • We could either take the ratio across triangles.

  • Or we could say the ratio within,

  • where we just look at one triangle.

  • And so if you look at PN over MN,

  • let me try to color code it.

  • So PN, right over here,

  • that corresponds to the side

  • that's opposite the 35 degree angle.

  • So that would correspond to this side,

  • right over here on triangle two.

  • And then MN, that's this that I'm coloring

  • in this blueish color not so well,

  • probably spend more time coloring.

  • That's opposite the 55 degree angle.

  • And so opposite the 55 degree angle would be

  • right over there.

  • Now, since these triangles are similar,

  • the ratio of the red side, the length of the red side

  • over the length of the blue side is going

  • to be the same in either triangle.

  • So PN, let me write it this way.

  • The length of segment PN over the length

  • of segment MN is going to be equivalent

  • to 5.7 over 8.2.

  • 'Cause this ratio is going to be

  • the same for the corresponding sides,

  • regardless of which triangle you look at.

  • So if you take the side that's opposite 35 degrees,

  • that's 5.7 over 8.2.

  • Now to be very clear, it doesn't mean that somehow

  • the length of this side is 5.7

  • or that the length of this side is 8.2.

  • We would only be able to make that conclusion

  • if they were congruent.

  • But with similarity, we know that the ratios,

  • if we look at the ratio of the red side

  • to the blue side on each of those triangles,

  • that would be the same.

  • And so this gives us that ratio.

  • And let's see, 5.7 over 8.2,

  • which of these choices get close to that?

  • Well, we could say that this is roughly,

  • if I am approximating it, let's see,

  • it's going to be larger than 0.57.

  • Because 8.2 is less than 10.

  • And so we are going to rule this choice out.

  • And 5.7 is less than 8.2.

  • So it can't be over one.

  • And so we have to think between these two choices.

  • Well, the simplest thing I can do is

  • actually just try to start dividing it by hand.

  • So 8.2 goes into 5.7 the same number

  • of times as 82 goes into 57.

  • And I'll add some decimals here.

  • So it doesn't go into 57.

  • But how many times does 82 go into 570?

  • I would assume it's about 6 times,

  • maybe seven times, looks like.

  • So seven times two is 14.

  • And then seven times eight is 56.

  • This is 57.

  • So it's actually a little less than 0.7.

  • This maybe go a little bit too high.

  • So if I am approximating, it's gonna be 0.6 something.

  • So I like choice B, right over there.

- [Instructor] So we've been given some information

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側面の長さの比率を推定するために類似性を使用する (Using similarity to estimate ratio between side lengths)

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    林宜悉 に公開 2021 年 01 月 14 日
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