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Title: Triangular Numbers. Post by rloginunix on Jan 9th, 2015, 7:54am Triangular Numbers (a small generalization I came up with). Express the length of a rubber band stretched over tangent unit circles forming an equilateral triangle as a function of the number of circles. A sample formation for T3 = 6 is shown below (Tn is a triangular number): http://www.ocf.berkeley.edu/~wwu/YaBBAttachments/rlu_tn.png (one can generalize further for square, pentagonal, hexagonal numbers, etc.) |
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Title: Re: Triangular Numbers. Post by jollytall on Jan 11th, 2015, 9:54am I would assume that for the n-th number it is 1+6*(n-1) |
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Title: Re: Triangular Numbers. Post by towr on Jan 11th, 2015, 1:04pm I'd add a bit of pi to that. |
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Title: Re: Triangular Numbers. Post by rloginunix on Jan 11th, 2015, 4:30pm I think it's just a typo. |
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Title: Re: Triangular Numbers. Post by jollytall on Jan 11th, 2015, 9:20pm I wanted to be too quick :-). So it is 1 full circle + the 6*(n-2) straight diameters. It is therefore not only a bit of Pi, but 2 of them: 2Pi+6*(n-1). And reading the question, it has to be expressed in the number of circles, so the above formula is correctly 2Pi+6*(Tn-2). And Tn=n*(n+1)/2, n=(sqrt(8Tn+1)-1)/2 And thus the solution is 2Pi+3*sqrt(8Tn+1)-9 |
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Title: Re: Triangular Numbers. Post by rloginunix on Jan 11th, 2015, 10:39pm That's right. Another, less proper but may be intuitively more clear way to put it is to recall that the sum of any two consecutive triangular numbers is a perfect square: 2(Pi + 3(sqrt(Tn + Tn+1) - 2)) |
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