Theory and Modern Applications
From: Certain results on a hybrid class of the Boas–Buck polynomials
S. No. | Results | Expressions |
---|---|---|
I | Series expansion | \({}_{F}G^{(s)}_{n}(x,y)=\sum_{k=0}^{n}{}^{n}C_{k} F_{n-k}(x) G^{(s)}_{k}(0,y)\) |
II | Multiplicative operator | \(\hat{M}_{{}_{F}G^{(s)}}=x\partial _{x}C^{\prime }(C^{-1}(\sigma ))\sigma ^{-1} +\frac{A^{\prime }(C^{-1}(\sigma ))}{A(C^{-1}(\sigma ))}+syC^{1-s}(\sigma )\) |
III | Derivative operator | \(\hat{P}_{{}_{F}G^{(s)}}=C^{-1}(\sigma )\) |
IV | Differential equation | \((x\partial _{x}C^{\prime }(C^{-1}(\sigma ))\sigma ^{-1}-nC(\sigma ) +\frac{A^{\prime }(C^{-1}(\sigma ))}{A(C^{-1}(\sigma ))} +syC^{1-s}(\sigma ) ) \,{}_{F}G^{(s)}_{n}(x,y)=0\) |