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# Use Pythagorean theorem to find area of an isosceles triangle

## Video transcript

- [Tutor] Pause this video
and see if you can find the area of this triangle, and I'll give you two hints. Recognize, this is an isosceles triangle, and another hint is that
the Pythagorean Theorem might be useful. Alright, now let's work
through this together. So, we might all remember
that the area of a triangle is equal to one half times
our base times our height. They give us our base. Our base right over here is, our base is 10. But what is our height? Our height would be, let me do this in another color, our height would be the length
of this line right over here. So, if we can figure that out, then we can calculate what
one half times the base 10 times the height is. But how do we figure out this height? Well, this is where
it's useful to recognize that this is an isosceles triangle. An isosceles triangle has
two sides that are the same. And so, these base angles are
also going to be congruent. And so, and if we drop an
altitude right over here which is the whole
point, that's the height, we know that this is, these
are going to be right angles. And so, if we have two triangles where two of the angles are the same, we know that the third angle
is going to be the same. So, that is going to be congruent to that. And so, if you have two triangles, and this might be obvious
already to you intuitively, where look, I have two angles in common and the side in between them is common, it's the same length, well that means that these are going to be congruent triangles. Now, what's useful about
that is if we recognize that these are congruent triangles, notice that they both have a side 13, they both have a side, whatever
this length in blue is. And then, they're both
going to have a side length that's half of this 10. So, this is going to be five,
and this is going to be five. How was I able to deduce that? You might just say, oh that
feels intuitively right. I was a little bit more rigorous here, where I said these are
two congruent triangles, then we're going to split this 10 in half because this is going to be equal to that and they add up to 10. Alright, now we can use
the Pythagorean Theorem to figure out the length of
this blue side or the height. If we call this h, the
Pythagorean Theorem tells us that h squared plus five
squared is equal to 13 squared. H squared plus five squared, plus five squared is going
to be equal to 13 squared, is going to be equal to our longest side, our hypotenuse squared. And so, let's see. Five squared is 25. 13 squared is 169. We can subtract 25 from both sides to isolate the h squared. So, let's do that. And what are we left with? We are left with h squared is equal to these canceled out, 169 minus 25 is 144. Now, if you're doing it
purely mathematically, you say, oh h could be plus or minus 12, but we're dealing with the distance, so we'll focus on the positive. So, h is going to be equal
to the principal root of 144. So, h is equal to 12. Now, we aren't done. Remember, they don't want us to just figure out the height here, they want us to figure out the area. Area is one half base times height. Well, we already figured out that our base is this 10 right over here, let me do this in another color. So, our base is that distance which is 10, and now we know our height. Our height is 12. So, now we just have to compute
one half times 10 times 12. Well, that's just going to be equal to one half times 10 is five, times 12 is 60, 60 square units, whatever
our units happen to be. That is our area.