Draft:Cartwright's theorem
Submission declined on 14 October 2022 by Felix QW (talk). Echoing the comment by David Eppstein below, the draft as it correctly stands is unintelligible.
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- Comment: Several claims here are incorrect, and the statement of the theorem is incoherent to the point of unreadability. When discussing this at WT:WPM, the draft author insisted "what think, sorry if I am wrong" without admitting the incorrectness of the claims. It cannot be accepted in its current form and needs significant cleanup (maybe a total rewrite) by someone who understands both the topic and English expository writing. —David Eppstein (talk) 19:12, 2 October 2022 (UTC)
- Comment: This draft currently says "for every integer , there exists a constant for any function " etc. The phrasing "there exists a constant for any function..." makes it sound as if the value of the constant depends on which function ƒ is. I suspect (but I'm not sure) that what was intended was "there exists a constant such that for every function ". The notation "" I am guessing was intended to be "". Michael Hardy (talk) 03:55, 17 October 2022 (UTC)
In mathematics, Cartwright's theorem belongs to graph theory and was first discovered by British mathematician Mary Cartwright. This theorem gives an estimate of an analytical function's maximum modulus when the unit disc takes the same value no more than p times. This theorem has applications of other mathematical concepts such as set theory[1].
Statement
[edit]Cartwright's theorem says that, for every integer , there exists a constant for any function which is -valent in disc , analytic, and expressible in series form of , which is bounded as in an absolute value for all in the disc and .[2][3]
References
[edit]- ^ Liu, H. C.; Macintyre, A. J. "CARTWRIGHT'S THEOREM ON FUNCTIONS BOUNDED AT THE INTEGERS" (PDF). American Mathematical Society.
- ^ Blank, Natalia; Ulanovskii, Alexander (October 2016). "On Cartwright's theorem" (PDF). Proceedings of the American Mathematical Society. 144 (10): 4221–4230. doi:10.1090/proc/13200. S2CID 119148466.
- ^ McMurran, Shawnee; Tattersall, James. "Mary Cartwright" (PDF). American Mathematical Society.