Problem

A regular pentagon with area 1+\sqrt(5) is printed on paper and cut out. All five vertices are folded to the center of the pentagon, creating a smaller pentagon. What is the area of the new pentagon?

Solution 1

Let and be the circumradius of the big and smaller pentagon. Let be the apothem of the smaller pentagon.

From the diagram:

   \cos{36^\circ} &= \dfrac{a_s}{r_s} = \dfrac{\phi}{2} = \dfrac{\sqrt{5}+1}{4}\\
   a_s &= \dfrac{r_b}{2}\\
   \text{Area of small pentagon} &= (\dfrac{r_s}{r_b})^2 \text{Area of big pentagon}\\
   &=(\dfrac{a_s}{\cos{36^\circ} r_b})^2 (1+\sqrt{5})\\
   &=(\dfrac{r_b}{\dfrac{\phi}{2} r_b})^2 (1+\sqrt{5})\\
   &=(\dfrac{1}{2 \dfrac{\phi}{2}})^2 (1+\sqrt{5})\\
   &=(\dfrac{2}{\sqrt{5}+1})^2 (1+\sqrt{5})\\
   &=\dfrac{4}{\sqrt{5}+1} \\
   &=\dfrac{4(\sqrt{5}-1)}{(\sqrt{5}+1)(\sqrt{5}-1)} \\
   &=\sqrt{5}-1

~Technodoggo