Three pentagram-shaped stars (the stars formed from the diagonals of a regular pentagon) are stacked up so that the bottom two ends of the tips touch the middle ends of the tips of the star below.
(See diagram.)
The distance from the top of the stack to the floor (where the bottom star's "feet" rest) is 4 feet.
What is the distance between the bottom two ends of the tips of the stack that touch the floor?
First thing to note is that for all stars the pentagon is regular
and the triangles (i.e., the "points" of the star) are 72-36-72 isoscoles.
Let a side (i.e., one of the five straight lines connecting two of the star's outer points) of the big pentagram be denoted by s(big) = s.
And using simple trig then the height and the base of the big star are,
h(big) = s*sin72
b(big) = 2s*cos72.
Find the side, height and base of the medium pentagram.
s(med) = b(big) = 2s*cos72
h(med) = h(big) * s(med)/s = 2s*cos72*sin72
b(med) = b(big) * s(med)/s = 4s*cos72*cos72
Find the side, height and base of the little pentagram.
s(lit) = b(med) = 4s*cos72*cos72
h(lit) = h(med) * s(lit)/s(med) = 4s*cos72*cos72*sin72
b(lit) = b(med) * s(lit)/s(med) = 8s*cos72*cos72*cos72
We're told the stacked height is 4. I.e., h(lit) + h(med) + h(big) = 4.
This gives a solution for s.
4s*cos72*cos72*sin72 + 2s*cos72*sin72 + s*sin72 = 4
s = 4/(4cos72*cos72*sin72 + 2cos72*sin72 + sin72)
We want to find b(lit).
b(lit) = 8s*cos72*cos72*cos72
substituting for s
b(lit) = 32cos72*cos72*cos72/(4cos72*cos72*sin72 + 2cos72*sin72 + sin72)
b(lit) = 0.4964221213 feet.
different answer
