Height = sqrt(3)/2 * length of side
So here, approx 4.3301 cm
Given an altitude of 12 units, an equilateral triangle has side lengths of 13.9 (13.85641) units.
Each side of the triangle is 16.16581 units in length.
The length of each side is 9.2376 cm. (rounded)
An equilateral triangle has 3 equal interior angles each of 60 degrees. There are two right angled triangles in an equilateral triangle. So we can use trigonometry to find the length of one side of the equilateral triangle then multiply this by 3 to find its perimeter. Hypotenuse (which is one side of the equilateral) = 15/sin 60 degrees = 17.32050808 17.32050808 x 3 = 51.96152423 Perimeter = 51.96152423 units.
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No. The altitude is smaller.
Given an altitude of 12 units, an equilateral triangle has side lengths of 13.9 (13.85641) units.
No because the 3 sides of an equilateral triangle must be the same length.
For the equilateral triangle in Euclidean space(i.e, the triangles you see in general) median is the same as its altitude. So, both are of equal length.
Each side of the triangle is 16.16581 units in length.
Given side lengths of 8 units, an equilateral triangle will have an altitude of 7 (6.9282) units.
The altitude of an equilateral triangle is (√3)/2*a. where 'a' is the side of the triangle. It can be just find by giving a perpendicular to the base of the triangle, the base of the triangle become a/2 and one side is a. so by applying Pythagoras theorem we will get the desired formula.
With an altitude of 10 units, this triangle's sides each measure 11.55 (11.54701) units.
The sides are 2*sqrt(3) units in length.
It is double the length of the base, in square units.
Multiply the altitude by [ 2 / sqrt(3) ] to get the length of the side.[ 2 / sqrt(3) ] is about 1.1547 (rounded)
The length of each side is 9.2376 cm. (rounded)