Optimal strategies in the all-heads coin game

Abstract

We study a sequential coin-flipping game: a player starts with n~coins, each heads with probability~p, and in each round flips all remaining coins and must set aside at least one head, losing if none shows. The player wins once all coins have been set aside. The optimal winning probability~wn,p obeys a Bellman equation with a nonlinear suffix-maximum operator. For p=12 every strategy achieves wn,1/2=12. For p>12 the strategy~ (set aside a single head) is optimal, n wn,p is strictly increasing, and the limit W(p):=n wn,p has an explicit series representation with p W(p)<1. For p<12 near~12 we give a first-order perturbation expansion in δ:=12-p: the deficit satisfies 12-wn,\,1/2-δ≈δ\,cn, where cn obeys a linear recursion for n7 with limit L≈1.7035. To first order the optimal-value sequence has a strict local minimum at n=5 and no local maximum.