Let $B,$ $A,$ and $D$ be three consecutive vertices of a regular $20$-gon. A regular heptagon is constructed on $\overline{AB},$ with a vertex $C$ next to $A.$ Find $\angle BCD,$ in degrees. [asy] unitsize(2 cm); pair A, B, C, D, O; A = dir(0); B = dir(360/20); D = dir(-360/20); O = extension(A, A + rotate(-450/7)*(B - A), B, B + rotate(450/7)*(A - B)); C = A + rotate(-900/7)*(B - A); for(int i = 0; i

Question

Let $B,$ $A,$ and $D$ be three consecutive vertices of a regular $20$-gon. A regular heptagon is constructed on $\overline{AB},$ with a vertex $C$ next to $A.$ Find $\angle BCD,$ in degrees. [asy] unitsize(2 cm); pair A, B, C, D, O; A = dir(0); B = dir(360/20); D = dir(-360/20); O = extension(A, A + rotate(-450/7)*(B - A), B, B + rotate(450/7)*(A - B)); C = A + rotate(-900/7)*(B - A); for(int i = 0; i <= 19; ++i) { draw(dir(360/20*i)--dir(360/20*(i + 1))); } for(int i = 0; i <= 5; ++i) { draw((O + rotate(-360/7*i)*(B - O))--(O + rotate(-360/7*(i + 1))*(B - O))); } dot("$A$", A, W); dot("$B$", B, W); dot("$C$", C, S); dot("$D$", D, W); [/asy]

GPT 3.5 · Answer

Note that $\angle ABC = \angle BCA$ in an equilateral triangle, so $AB = BC$. By symmetry, $BC = CD$. Therefore, $BC = CD = AB$, so $BCD$ is a triangle with base angles all equal to $\frac{180^\circ - \angle BCD}{2}$. Thus, $$180^\circ = \angle BCD + 2\left(180^\circ - \angle BCD\right) = 180^\circ + 360^\circ - 3\angle BCD.$$It follows that $\angle BCD = \boxed{080}$.