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Difficulty:
15%
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Question Stats:
77% (01:28) correct
23%
(02:02)
wrong
based on 728
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If a regular hexagon is inscribed in a circle with a radius of 4, the area of the hexagon is
A. \(12 \sqrt{3}\)
B. \(8 \pi\)
C. \(18 \sqrt{2}\)
D. \(24 \sqrt{3}\)
E. 48
Attachment:
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02 Jun 2013, 02:55
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fozzzy
Regular hexagon will have six traingle regions. Central angle will be 60. (360/6)
Equilateral triangle will be formed as we have three 60 angles. Length of each side is equal to radius 4.
Area of hexagon = area of 6 eq. triangles = 6 * root 3/4 * 4^2 = 24 root3
General Discussion
02 Jun 2013, 01:49
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In an regular hexagon inscribed in a circle, its side is equal the radius.
We can divide the hexagon in 6 triangles each with the base of 4. The heigth will equal \(\sqrt{4^2-2^2}=\sqrt{12}=2\sqrt{3}\). To obtain this just use Pythagoras, the hypotenuse of each triangle it's the radius, and the bases it's \(\frac{4}{2}=2\).
Now you have the height of each triangle, so \(A_t=(4*2\sqrt{3})/2=4\sqrt{3}\).
\(A_h=6*A_t=6*4\sqrt{3}=24\sqrt{3}\)
We can divide the hexagon in 6 triangles each with the base of 4. The heigth will equal \(\sqrt{4^2-2^2}=\sqrt{12}=2\sqrt{3}\). To obtain this just use Pythagoras, the hypotenuse of each triangle it's the radius, and the bases it's \(\frac{4}{2}=2\).
Now you have the height of each triangle, so \(A_t=(4*2\sqrt{3})/2=4\sqrt{3}\).
\(A_h=6*A_t=6*4\sqrt{3}=24\sqrt{3}\)
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