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because <math>\lambda</math> is new symbolic quantity, whereas this algorithm works directly with coefficients of matrix <math>A</math>.
The algorithm has been independently rediscovered several times, in some form or another. It was first published in 1840 by [[Urbain Le Verrier]], subsequently redeveloped by P. Horst, [[Jean-Marie Souriau]], in its present form here by Faddeev and Sominsky, and further by J. S. Frame, and others.<ref>[[Urbain Le Verrier]]: ''Sur les variations séculaires des éléments des orbites pour les sept planètes principales'', ''J. de Math.'' (1) '''5''', 230 (1840), [http://gallica.bnf.fr/ark:/12148/bpt6k163849/f228n35.capture# Online]</ref><ref>Paul Horst: ''A method of determining the coefficients of a characteristic equation''. ''Ann. Math. Stat.'' '''6''' 83-84 (1935), {{
{{cite book|first=Alston S.|last=Householder|title=The Theory of Matrices in Numerical Analysis |publisher=Dover Books on Mathematics|year=2006|author-link=Alston Scott Householder | isbn=0486449726}}</ref> An elegant shortcut to the proof, bypassing [[Newton polynomial]]s, was introduced by Hou.<ref>Hou, S. H. (1998). [http://epubs.siam.org/doi/pdf/10.1137/S003614459732076X "Classroom Note: A Simple Proof of the Leverrier--Faddeev Characteristic Polynomial Algorithm"] ''SIAM review'' '''40(3)''' 706-709, {{doi|10.1137/S003614459732076X}} .</ref> The bulk of the presentation here follows Gantmacher, p. 88.<ref>{{cite book| last= Gantmacher|first=F.R. | title=The Theory of Matrices |year=1960| publisher= Chelsea Publishing|___location= NY | isbn = 0-8218-1376-5 }}</ref>)
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