PROVED
This has been solved in the affirmative.
- $100
Let $1\leq k<n$. Given $n$ points in $\mathbb{R}^2$, at most $n-k$ on any line, there are $\gg kn$ many lines which contain at least two points.
In particular, given any $2n$ points with at most $n$ on a line there are $\gg n^2$ many lines formed by the points. Solved by Beck
[Be83] and Szemerédi and Trotter
[SzTr83].
In
[Er84] Erdős speculates that perhaps there are $\geq (1+o(1))kn/6$ many such lines, but says 'perhaps [this] is too optimistic and one should first look for a counterexample'. The constant $1/6$ would be best possible here, since there are arrangements of $n$ points with no four points on a line and $\sim n^2/6$ many lines containing three points (see Burr, Grünbaum, and Sloane
[BGS74] and Füredi and Palásti
[FuPa84]).
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This page was last edited 16 October 2025.
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T. F. Bloom, Erdős Problem #211, https://www.erdosproblems.com/211, accessed 2026-01-14
