Science Talk Science Talk    FAQ   Search   Memberlist   Usergroups   Register   Profile   Log in to check your private messages   Log in  Forums Science Forums Biology Math Astronomy Physics Technology Chemistry Social Sciences History Psychology Philosophy Sociology Linguistics Religious Studies Economics Man Woman Ethno Ask an Expert World Records Society Issues Education People Alternative Science expression for n-th cyclotomic polynomial using Mobius funct          Science Talk Forum Index -> Mathematics View previous topic :: View next topic   Author Message Pawel_Iks Guest Posted: Sat Jul 05, 2008 7:47 am    Post subject: expression for n-th cyclotomic polynomial using Mobius funct The n-th cyclotomic polynomial is defined as Phi_n(x)=Product_{GCD(i,n)=1} (x-e_i), where e_i - squares of unit. How to prove that: Phi_n(x)=Product_{d divide n} (x^d-1)^mi(n/ d), (1) where mi(n/d) is Mobius function? I have an article where it is written that this formula is derived from obious relation: x^n-1=Product_{d divide n} Phi_d(x) (2) by the exclusion inclusion rule ... but I have no idea what this rule it is and how (1) could be derived from (2) such simply as is described in this article ... I have another question ... about some relations for the coefficients of Phi_n(x) ... are there any? Is it true that they were considered as a -1, 0 , 1 only in the past? Does anybody have some useful links about history of this polynomials? Back to top   Ads Advertising Sponsor Tonico Guest Posted: Sat Jul 05, 2008 9:47 am    Post subject: Re: expression for n-th cyclotomic polynomial using Mobius f On Jul 5, 10:47 am, Pawel_Iks <pawel.labed...@gmail.com> wrote: Quote: The n-th cyclotomic polynomial is defined as Phi_n(x)=Product_{GCD(i,n)=1} (x-e_i), where e_i -  squares of unit.. How to prove that:                             Phi_n(x)=Product_{d divide n} (x^d-1)^mi(n/ d), (1) where mi(n/d) is Mobius function? I have an article where it is written that this formula is derived from obious relation:                             x^n-1=Product_{d divide n} Phi_d(x) (2) by the exclusion inclusion rule ... but I have no idea what this rule it is and how (1) could be derived from (2) such simply as is described in this article ... I have another question ... about some relations for the coefficients of Phi_n(x) ... are there any? Is it true that they were considered as a -1, 0 , 1 only in the past? Does anybody have some useful links about history of this polynomials? ************************************************************ Google or Yahoo "Moebius Inversion": applying this inversion to the above equation with x^n - 1 you get your result. Regards Tonio Back to top   Ads Advertising Sponsor Display posts from previous: All Posts1 Day7 Days2 Weeks1 Month3 Months6 Months1 Year Oldest FirstNewest First         Science Talk Forum Index -> Mathematics All times are GMT Page 1 of 1   Jump to: Select a forum Science Talk----------------Science TalkAstrologyNanotechnologySETISociology-- Elections-- LibertarianCreationismMathematicsPolitics  You cannot post new topics in this forum You cannot reply to topics in this forum You cannot edit your posts in this forum You cannot delete your posts in this forum You cannot vote in polls in this forum Australian Debt Consolidation Experts medical insurance Wedding Website Search Escorts and girls (incall/OutCall) online with www.Oasi2000.com, www.Oasi2007.com, www.Bakeca.it... Intercambios de Parejas Science Talk Motor Insurance Make Your Own Website Free phone calls to Canada Cleaning Service black mold UK Swingers Genuine Contacts Site Adult Dating toner cartridges Sex Nude Eureka Vacuum Bags 170 Attacks blocked Powered by phpBB © 2001, 2005 phpBB Group