This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A195452 #6 Mar 30 2012 18:57:45 %S A195452 1,7,4,9,9,9,1,1,3,2,9,1,2,7,8,8,9,6,8,3,6,6,2,7,9,5,8,7,7,9,2,2,9,5, %T A195452 9,7,1,0,5,1,7,8,7,3,1,6,4,8,6,5,0,4,1,1,6,0,4,8,8,9,1,7,8,9,6,4,1,7, %U A195452 7,5,9,5,4,0,7,2,3,8,6,3,2,5,0,1,6,9,8,0,5,3,2,4,3,0,6,8,2,3,8,6 %N A195452 Decimal expansion of shortest length, (C), of segment from side CA through centroid to side CB in right triangle ABC with sidelengths (a,b,c)=(2,3,sqrt(13)). %C A195452 See A195304 for definitions and a general discussion. %e A195452 (C)=1.7499911329127889683662795877922959710... %t A195452 a = 2; b = 3; h = 2 a/3; k = b/3; %t A195452 f[t_] := (t - a)^2 + ((t - a)^2) ((a*k - b*t)/(a*h - a*t))^2 %t A195452 s = NSolve[D[f[t], t] == 0, t, 150] %t A195452 f1 = (f[t])^(1/2) /. Part[s, 4] %t A195452 RealDigits[%, 10, 100] (* (A) A195450 *) %t A195452 f[t_] := (t - a)^2 + ((t - a)^2) (k/(h - t))^2 %t A195452 s = NSolve[D[f[t], t] == 0, t, 150] %t A195452 f2 = (f[t])^(1/2) /. Part[s, 4] %t A195452 RealDigits[%, 10, 100] (* (B) A195451 *) %t A195452 f[t_] := (b*t/a)^2 + ((b*t/a)^2) ((a*h - a*t)/(b*t - a*k))^2 %t A195452 s = NSolve[D[f[t], t] == 0, t, 150] %t A195452 f3 = (f[t])^(1/2) /. Part[s, 1] %t A195452 RealDigits[%, 10, 100] (* (C) A195452 *) %t A195452 c = Sqrt[a^2 + b^2]; (f1 + f2 + f3)/(a + b + c) %t A195452 RealDigits[%, 10, 100] (* Philo(ABC,G) A195453 *) %Y A195452 Cf. A195304. %K A195452 nonn,cons %O A195452 1,2 %A A195452 _Clark Kimberling_, Sep 18 2011