Euler's inequality: Difference between revisions

Latest revision as of 09:09, 9 May 2025

Euler's Inequality states that $R \ge 2r$ where R is the circumradius and r is the inradius of a non-degenerate triangle

Proof

Let the circumradius be $R$ and inradius $r$ . Let $d$ be the distance between the circumcenter and the incenter. Then $d=\sqrt{R(R-2r)}$ From this formula, Euler's Inequality follows as $d^2=R(R-2r)$ By the Trivial Inequality, $R(R-2r)$ is positive. Since $R$ has to be positive as it is the circumradius, $R-2r \ge 0$ $R \ge 2r$ as desired.

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Euler's inequality: Difference between revisions

Latest revision as of 09:09, 9 May 2025

Proof