% This paper has been transcribed in Plain TeX by % David R. Wilkins % School of Mathematics, Trinity College, Dublin 2, Ireland % (dwilkins@maths.tcd.ie) % % Trinity College, 1st June 1999. \magnification=\magstep1 \vsize=227 true mm \hsize=170 true mm \voffset=-0.4 true mm \hoffset=-5.4 true mm \def\folio{\ifnum\pageno>0 \number\pageno \else\fi} \font\Largebf=cmbx10 scaled \magstep2 \font\largerm=cmr12 \font\largeit=cmti12 \font\sc=cmcsc10 \pageno=0 \null\vskip72pt \centerline{\Largebf NOTE TO A PAPER ON THE ERROR OF A} \vskip12pt \centerline{\Largebf RECEIVED PRINCIPLE OF ANALYSIS} \vskip24pt \centerline{\Largebf By} \vskip24pt \centerline{\Largebf William Rowan Hamilton} \vskip24pt \centerline{\largerm (Transactions of the Royal Irish Academy, vol.~16, part~2, (1831), pp. 129--130.)} \vskip36pt \vfill \centerline{\largerm Edited by David R. Wilkins} \vskip 12pt \centerline{\largerm 1999} \vskip36pt\eject \null\vskip36pt \centerline{\largeit Note to a Paper on the Error of a received Principle of Analysis.} \vskip 3pt \centerline{\largeit By {\largerm WILLIAM R. HAMILTON}, \&c.} \bigbreak \centerline{Read April~18, 1831.} \bigbreak \centerline{[{\it Transactions of the Royal Irish Academy}, vol.~16, part~2, (1831), pp. 129--130.]} \nobreak\bigskip \centerline{\vbox{\hrule width 72pt}} \nobreak\bigskip The Royal Irish Academy having done me the honour to publish, in the First Part of the Sixteenth Volume of their Transactions, a short Paper, in which I brought forward a certain exponential function as an example of the Error of a received Principle respecting Developments, I am desirous to mention that I have since seen (within the last few days) an earlier Memoir by a profound French Mathematician, in which the same function is employed to prove the fallacy of another usual principle. In the French Memoir, (tom.~{\sc v}. of the Royal Academy of Sciences, at page~13, of the History of the Academy,) the exponential $\left( e^{- {1 \over x^2}} \right)$ is given by {\sc M.~Cauchy}, as an example of the vanishing of a function and of all its differential coefficients, for a particular value of the variable ($x$), without the function vanishing for other values of the variable. In my Paper the same exponential is given as an example of a function, which vanishes with its variable, and yet cannot be represented by any development according to powers of that variable, with constant positive exponents, integer or fractional. There is therefore a difference between the purposes for which this function has been employed in the two Memoirs, although there is also a sufficient resemblance to induce me to wish, that at the time of publishing my Paper, I had been acquainted with the earlier remarks of {\sc M.~Cauchy}, in order to have noticed their existence. \bigbreak {\sc Observatory}, {\it April}~16, 1831. \bye