SOLUTION: A regular 16-gon is inscribed inside a circle, as shown in the figure below. Sixteen congruent isosceles triangles are created by connecting the center of the circle to each vertex

Algebra ->  Polygons -> SOLUTION: A regular 16-gon is inscribed inside a circle, as shown in the figure below. Sixteen congruent isosceles triangles are created by connecting the center of the circle to each vertex      Log On


   

Question 1062733: A regular 16-gon is inscribed inside a circle, as shown in the figure below. Sixteen congruent isosceles triangles are created by connecting the center of the circle to each vertex of the 16-gon. The base length of one of the isosceles triangles is b, and the height is h. The length of one of the lines connecting the center to a vertex is r.
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We can find the area of the 16-gon by taking 16 times the base length b (in other words, by taking the ____1_____ of the 16-gon) and multiplying by h2. The ____2_____ of the 16-gon is close to the area of the circle. Therefore, the value of h is very close to the value of ____3_____ .
Select the terms that correctly fill in blanks 1, 2, and 3 in the previous sentences.
1: area
1: length
1: perimeter
2: perimeter
2: area
2: diameter
3: perimeter
3: circumference
3: r
Answer by ikleyn(52802) About Me  (Show Source):
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