How to find the apothegm of a polygon with only the radius?
If you are given a polygon s vertices and its radius, you can find the area of the polygon. Now, if you are given only the radius of the polygon. You can find the area of the polygon. The easiest way to do this is to take the area of a square with the same perimeter as the given polygon’s radius. This will underestimate the area of the polygon, but it will be a good enough answer to find the answer
How to find the
The easiest way to solve this problem is to draw a line from the center of the circle to each vertex of the polygon, then measure the angle of each segment. The exterior angle of the polygon is equal to the sum of the interior angles, so you can find the radius by using the cosine rule:
How to find the apothegm of a polygon with only the sides?
The ancients were masters at constructing and solving shapes. They created instruments to measure the properties of a given polygon and determine the answer to certain problems. One of their most famous intellectual achievements was the creation of a tool to find the area of a polygon with sides known as the Rhombus. It consists of two equal-length sides and two right-angled isosceles triangles. If you have a polygon with sides, then you can use a Rhombus to determine its
How to find the apothegm of a pentagon with the radius?
If you’re trying to solve the problem of a pentagon with the radius, here’s a good method to use. There are two sides of a pentagon that have a specific length, the opposite sides. Since the two sides with the smallest possible length are opposite each other, the pentagon with the radius is the one with these sides as legs. The length of the legs is the radius of the inscribed circle.
How to find the apothegm of a triangle with the radius?
For a triangle with the radius, each vertex is simply the midpoint of each side. This gives us the points A = (0, -r), B = (r, 0), C = (r, -r). We can see that the sum of the three sides is r, so the area of the triangle is r^2/2. This is the same as the value we would get when solving for the area of a triangle with a right angle. If the radius is given