Title: Counting Pairs of Conics Satisfying the Poncelet Triangle Condition
Abstract: We say that a pair of smooth plane conics satisfies the Poncelet Triangle Condition if they intersect transversally and there is a triangle (possibly defined over the algebraic closure instead of the original base field) inscribed in one conic and circumscribed in the other. Chipalkatti's paper showed that over a finite field $\mathbb{F}_q$ with characteristic away from $2,3$, a randomly chosen pairs of smooth conics over $\mathbb{F}_q$ with transversal intersection has about $1/q$ chance to satisfy the PTC condition. We will improve this result and show that the exact probability is given by $\frac{q^2 - 5q + 5}{q^3 - 5q^2 + 6q}$. We will also correct the conjecture made in Chipalkatti's paper, and show that the asymptotic probability for the tetragons case is $1/q$.