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Conference rusure::math

Title:	Mathematics at DEC

Moderator:	RUSURE::EDP

Created:	Mon Feb 03 1986
Last Modified:	Fri Jun 06 1997
Last Successful Update:	Fri Jun 06 1997
Number of topics:	2083
Total number of notes:	14613

220.0. "roots of tan x = x" by HARE::STAN () Sun Feb 10 1985 14:50

Here's a hard problem from the monthly:

Prove that

		---\
		\        1
		 >	---	=  1/10
		/         2
		---/     r
		 r

where the sum is taken over all positive real solutions to  tan x = x .



Reference:

Robert M. Young. Problem 6488. American Mathematical Monthly. 92(1985)148.

T.R	Title	User	Date	Lines
220.1		SPRITE::OSMAN	`Tue Feb 12 1985 14:33`	3
	degrees or radians ? It does matter, right ? Or perhaps tan(x)=x only HAS solutions for one of the two units and hence that's part of the exercise !
220.2		HARE::STAN	`Tue Feb 12 1985 15:39`	1
	Radians is intended.
220.3		ADVAX::J_ROTH	`Wed Mar 20 1985 18:59`	22
	Tho I don't see any obvious solution, it may be based on Parseval's equation. This states that the energy in a periodic function f(t) over its period must equal the energy of all its Fourier coefficients. --- / 2 \ 2 \| f(t) dt = > \|c \| / / n --- Say you had f(t) which gave rise to set of Fourier coefficients which happened to be the roots of tan(r) = r... Then if f(t)^2 could be integrated in closed form over one period you'd have a proof. This is one popular way of summing series (such as 1/n^2) since such series often result from simple f(t)'s such as triangle waves, sawtooth waves, etc. The roots of tan(r) = r also have other suspicious connections; I remember they're the eigenvalues of a certain boundry value problem so that might help (i don't remember which one though) - Jim