evidence boundary
supportsfrontiers / frontier
Erdős problems frontier
- id
- vfr_37aec80d874a0239
- license
- CC-BY-4.0
- findings
- 1,256
- accepted core
- 6
- contested
- 0
- links
- 17
- sources
- 1,234
- evidence
- 1,256
- avg conf
- 0.98
e1271/1271 · statement.attested · reviewer:will-blair · 2026-06-10 · null→null
Evidence atom
back to sources{"artifact_id":"va_9bc926d75e4e3881","artifact_packet_id":"cap_61973ee16b553d57","candidate_claim_id":"vc_40e6710f5f77e700"}
- id
- vea_cf8a39daefde3379
- frontier
- Erdős problems frontier
- source
- vs_a89a9c0a454bdbd6
- finding
- vf_bd9fb8cd53ce6b3b
finding binding
boundopen_question
Erdős Problem #1137 remains OPEN. Statement: Let $d_n=p_{n+1}-p_n$, where $p_n$ denotes the $n$th prime. Is it true that $$\frac{\max_{n < x}d_{n}d_{n-1}}{(\max_{n < x}d_n)^2}\to 0$$ as $x\to \infty$? Topics: number theory, primes. Erdős prize: no. Statement is machine-verified in Lean (formal-conjectures). OEIS: A083550, A005250.
source binding
source-boundcap_61973ee16b553d57 · vc_40e6710f5f77e700
vs_a89a9c0a454bdbd6
review context
unverified1 events
1 reviewable changes and 0 evaluation records target this atom or its bound objects.
statement
{"artifact_id":"va_9bc926d75e4e3881","artifact_packet_id":"cap_61973ee16b553d57","candidate_claim_id":"vc_40e6710f5f77e700"}
locator
span:0
extraction method
artifact_to_state_import
support relation
supports
condition refs
vcnd_cf9567d85e0be21f
caveats
No caveats recorded.
Review, event, and evaluation records
2events
vev_1f3232885cd86ddcfinding.assertedCandidate claim vc_40e6710f5f77e700 imported from artifact packet cap_61973ee16b553d57
reviewer:erdos-db-trust · 2026-05-30
reviewable changes
vpr_8b01f9b22fbb8271finding.addCandidate claim vc_40e6710f5f77e700 imported from artifact packet cap_61973ee16b553d57
applied · agent:erdos-spine-ingest · 2026-05-30
evaluations
No evaluation rows are attached.