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OrthogonalSeries[DerivativeRepresentation] - take differential representation transform of a series
Calling Sequence
DerivativeRepresentation(S, x, optional_root)
DerivativeRepresentation(S, x1,.., xn, optional_root)
DerivativeRepresentation(S, [x1,.., xn], optional_root)
Parameters
S
-
orthogonal series
x, x1, .., xn
names
optional_root
(optional) equation of the form root = val where val is a symbol representing a root of the polynomial associated with the expansion family
Description
The DerivativeRepresentation(S, x) calling sequence returns a series equal to S written in terms of the family of polynomials produced by differentiating the S polynomials with respect to x.
The DerivativeRepresentation(S, x1,.., xn) and DerivativeRepresentation(S, [x1,.., xn]) calling sequences are equivalent to the recursive calling sequence DerivativeRepresentation(...DerivativeRepresentation(S, x1),..., xn).
The partial differential representation can be used for continuous hypergeometric polynomials with a degree 2 sigma polynomial. The partial differential representation (with respect to the root xi for the polynomials poly(n, x) depending on x in the series S) is obtained by using the DerivativeRepresentation(S, x, root=val) calling sequence. If val is not a root of the sigma associated with poly(n, x), an error message is returned. The DerivativeRepresentation(S, x1,.., xn, root=val) and DerivativeRepresentation(S, [x1,.., xn], root=val) calling sequences assume that all polynomials depending on x1,.., xn share the common root val. Otherwise, an error is returned.
Examples
Find the partial differential representation for Jacobi polynomials. In this case, sigma(x) = x^2-1.
Error, (in OrthogonalSeries:-DerivativeRepresentation) -2 is not a root of x^2-1
See Also
JacobiP, LaguerreL, OrthogonalSeries, OrthogonalSeries[Create]
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