The paradox of the infinity

Abstract

Let E be an infinite set on which a property ( P) is defined. Suppose that E=i∈ I Ei is a partition, where each Ei is infinite. Suppose also that, in each Ei, the number of elements satisfying ( P) is finite. Then, clearly the density of the elements satisfying ( P) is 0 in every Ei. Is it possible that the density of the subset of E containing all the elements satisfying ( P) will be at least equal to 1/2? We were first confronted with this situation while reading the paper of Arno et al. [1]. In fact, it is in the paper [1] where it is shown that the density of certain algebraic numbers in Q, which we will call Arno et al. numbers in section 5, is equal to 1/ζ(3). We have partitioned Q in a way that suggests these Arno et al. numbers are rare. This phenomenom struck us as contradictory, which lead us to consider the situation in greater detail. We will show in the sequel, through two examples, that the answer to the above question may be positive. At first glance, this problem resembles to the so called Simpson paradox in probability and statistics. In this paper, when we say the density, we mean the natural density.