Difference between revisions of "Chebyshev U"

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[[Relationship between Chebyshev U and hypergeometric 2F1]]<br />
 
[[Relationship between Chebyshev U and hypergeometric 2F1]]<br />
 
[[Relationship between Chebyshev U and Gegenbauer C]]<br />
 
[[Relationship between Chebyshev U and Gegenbauer C]]<br />
 +
[[U n(x)=(-i/2)(x+i sqrt(1-x^2))^n+(-i/2)(x-i sqrt(1-x^2))^n]]<br />
 +
[[U n(x)=Sum (-1)^k n!/((2k+1)!(n-2k-1)!)(1-x^2)^(k+1/2)x^(n-2k-1)]]<br />
  
 
=References=
 
=References=

Latest revision as of 19:33, 15 March 2018

The Chebyshev polynomials of the second kind are orthogonal polynomials defined by $$U_n(x) = \sin(n \mathrm{arcsin}(x)),$$ where $\sin$ denotes sine and $\mathrm{arcsin}$ denotes arcsin.

Properties

Orthogonality of Chebyshev U on (-1,1)
Relationship between Chebyshev U and hypergeometric 2F1
Relationship between Chebyshev U and Gegenbauer C
U n(x)=(-i/2)(x+i sqrt(1-x^2))^n+(-i/2)(x-i sqrt(1-x^2))^n
U n(x)=Sum (-1)^k n!/((2k+1)!(n-2k-1)!)(1-x^2)^(k+1/2)x^(n-2k-1)

References

Orthogonal polynomials
Associatedlaguerrelthumb.png
Laguerre $L_n^{(\alpha)}$
Batemanpolynomialthumb.png
Bateman $F_n$
Bernoullibthumb.png
Bernoulli $B$
Besselpolynomialsthumb.png
Bessel poly
Chebyshevtthumb.png
Chebyshev T
Chebyshevuthumb.png
Chebyshev U
Dicksonthumb.png
Dickson
Eulerethumb.png
Euler $E$
Gegenbauercthumb.png
Gegenbauer $C$
Hermitephysthumb.png
Hermite (phys)
Hermiteprobthumb.png
Hermite (prob)
Jacobipthumb.png
Jacobi $P^{(\alpha,\beta)}$
Laguerrelthumb.png
Laguerre $L$
Legendrepthumb.png
Legendre $P$
Bernoullibthumb.png
Bernoulli $B$
Chebyshevtthumb.png
Chebyshev $T$
Fibonaccithumb.png
Fibonacci
Lucasthumb.png
Lucas
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