Primitive recursive reverse mathematics (2210.13080v1)

Abstract: We use a second-order analogy $\mathsf{PRA}^2$ of $\mathsf{PRA}$ to investigate the proof-theoretic strength of theorems in countable algebra, analysis, and infinite combinatorics. We compare our results with similar results in the fast-developing field of primitive recursive (\lq punctual\rq) algebra and analysis, and with results from \lq online\rq\ combinatorics. We argue that $\mathsf{PRA}^2$ is sufficiently robust to serve as an alternative base system below $\mathsf{RCA}_0$ to study the proof-theoretic content of theorems in ordinary mathematics. (The most popular alternative is perhaps $\mathsf{RCA}_0^*$.) We discover that many theorems that are known to be true in $\mathsf{RCA}_0$ either hold in $\mathsf{PRA}^2$ or are equivalent to $\mathsf{RCA}_0$ or its weaker (but natural) analogy $2^N-\mathsf{RCA}_0$ over $\mathsf{PRA}^2$. However, we also discover that some standard mathematical and combinatorial facts are incomparable with these natural subsystems.