# Prove That In Triangle Abc,

What i want to vì in this video clip is lớn come up with a relationship between the area of a triangle and the triangle's circumscribed circle or circum-circle. So before we think about the circum-circle let's just think about the area of the triangle. So let's say that the triangle looks something lượt thích this. Actually I don't want lớn make it look isosceles. So let me make it a little bit so it doesn't look lượt thích any particular type of triangle and let's hotline this traingle "ABC". That's the vertices and then the length of the side opposite "A" is "a" "b" over here, and then "c" We know how to calculate the area of this triangle if we know its height. If we drop an altitude right here và if this altitude has length "h" we know that the area of - & we write with the brackets around it means the area of the traingle - is equal to một nửa times the base, which is "b" times the height. Fair enough. We have an expression for the area. Let's see if we can somehow relate some of these things with the area khổng lồ the radius of the triangle's circumscribed circle. So the circumscribed circle is a circle that passes through all of the vertices of the triangle và every triangle has a circumscribed circle. So let me try to lớn draw it. This is the hard part, right over here so it might look something lượt thích this That's fair enough. That's close enough lớn a circle I think you get the general idea That is the circum-circle for this triangle. Or this triangle's circumscribed circle. Let me label it. This is the circum-circle for this triangle. Now let's think about the center of that circum-circle sometimes refer lớn as the circumcenter. So looks like it would be sitting I don't know, just eyeballing it right on this little "b" here. So that's the circum-circle of the circle Let's draw a diameter through that circumcircle và draw a diameter from vertex "B" through that circumcenter. So then we go there, và we just keep going over here Let's call this point over here "D". Now let's create a triangle with vertices A, B, and D. So we can just draw another line over here và we have triangle ABD Now we proved in the geometry play - và it's not actually a crazy prove at all - that any triangle that's inscribed in a circle where one of the sides of the triangle is a diameter of the circle then that is going to be a right triangle & the angle that is going to lớn be 90 degrees is the angle opposite the diameter So this is the right angle right here. You can derive that, pretty straightforward. You have this arc here that is 180 degrees. Because obviously this is a diameter. & it subtends this inscribed angle. We've also proved that an inscribed angle that is subtended by the arc will be half of the arc length This is an 180 degree arc so this is going khổng lồ be a 90 degree angle. So either way this's going lớn be 90 degrees over there The other thing we see is that we have this arc right over here that I'm drawing in magenta the arc that goes from "A" khổng lồ "B" That arc subtends two different angles in our drawing - it subtends this angle right over here, angle acb it subtends that right over there - but it also subtends angle ADB that's why we construct it this way So it also subtends this So these two angles are going to lớn be congruent. They'll both have half the degree measure of this arc over here because they're both inscribed angles subtended by the same exact arc. Something interesting is popping up.

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We have two triangles here we have triangle ABD & triangle BEC They have two angles that resemble They have right angle và this magenta angle và their third angle must be the same. We'll bởi it in yellow The third angle must be congruent to lớn that angle. They have three angles that are the same. They must be similar triangles. Or the ratio between the corresponding sides must be the same. So we can use that information now to lớn relate the length of this side which is really the diameter, is two times the radius to the height of this smaller triangle. We know the relationship between the height of the smaller triangle và the area & we essentially are in the trang chủ stretch. So let's vì chưng that So these are two similar triangles We know that the ratio of C lớn this diameter right here What's the length of the diameter? The length of the diameter is 2 times the radius This is the radius. We know that the ratio, C to two times the radius is going to be the same exact thing as the ratio of "h" - & we want to make sure we're using the same side - to the hypoteneuse of that triangle khổng lồ the ratio of "H" khổng lồ "A". Và the way we figured that out we look at corresponding sides. "C" and the hypoteneuse are both the sides adjacent lớn this angle right over here So you have "H" & "A". So "C" is to lớn "2r "as "H" is to "a". Or, we could vị a lot of things. 1, we could solve for h over here và substitute an expression that has the area Actually let's just vị that So if we use this first expression for the area. We could multiply both sides by two. Và divide both sides by B. That cancels with that. We get that H is equal to lớn 3 times the area over B. We can rewrite this relationship as c/2r is equals to h which is 2 times the area of our triangle over B và then all of that is going to be over A. Or, we could rewrite that second part over here as two times the area over - we're dividing by "b" & then divided by "a", that's the same thing as dividing by ab So we can ignore this right here. So we have c/2r is equals khổng lồ 2 times the area over ab and now we can cross-multiply ab times c is going to lớn be equal lớn 2r times 2abc. So that's going lớn be 4r times the area of our triangle. I just cross multiply this times this is going lớn be equal to lớn that times that. We know that cross multiplication is just multiplying both sides of the equation by 2r and multiplying both sides of the equation by ab. So we did that on the left hand side we also did that on the right hand side 2r and ab obviously that cancels with that, that cancels with that So we get ABC is equal to 2r times 2abc. Or 4r times the area of our triangle. And now we're in the trang chủ stretch. We divide both sides of this by 4 times the area and we're done. This cancels with that, that cancels with that & we have our relationship The radius, or we can gọi it the circumradius. The radius of this triangle's circumscribed circle is equal to lớn the sản phẩm of the side of the triangle divided by 4 times the area of the triangle. That's a pretty neat result.