scientific article; zbMATH DE number 7426499
From MaRDI portal
Publication:5164974
zbMath1505.34023MaRDI QIDQ5164974
Publication date: 15 November 2021
Full work available at URL: http://ijmsi.ir/article-1-1275-en.html
Title: zbMATH Open Web Interface contents unavailable due to conflicting licenses.
solutionordinary differential equationStirling numbersBernoulli numberBernoulli polynomialidentityderivative polynomialFrobenius-Euler polynomial
Bell and Stirling numbers (11B73) Bernoulli and Euler numbers and polynomials (11B68) Linear ordinary differential equations and systems (34A30) Elementary classical functions (33B99)
Related Items
Stenzel's Ricci-flat Kähler metrics are not projectively induced ⋮ Two Explicit Formulas for Degenerate Peters Numbers and Polynomials ⋮ Applications of degenerate q-Euler and q-Changhee polynomials with weight α ⋮ Several explicit formulas for (degenerate) Narumi and Cauchy polynomials and numbers ⋮ Some properties of the Hermite polynomials
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Explicit expressions for a family of the Bell polynomials and applications
- Moments and cumulants for the complex Wishart
- Identities involving Frobenius-Euler polynomials arising from non-linear differential equations
- Application of a composition of generating functions for obtaining explicit formulas of polynomials
- Derivatives of tangent function and tangent numbers
- Closed formulas for computing higher-order derivatives of functions involving exponential functions
- Derivative polynomials and closed-form higher derivative formulae
- Explicit formulas for special values of the Bell polynomials of the second kind and for the Euler numbers and polynomials
- Integral representations for multivariate logarithmic polynomials
- Complete monotonicity of functions connected with the exponential function and derivatives
- Explicit formulas and identities for the Bell polynomials and a sequence of polynomials applied to differential equations
- Simplifying differential equations concerning degenerate Bernoulli and Euler numbers
- An explicit formula for derivative polynomials of the tangent function
- On multivariate logarithmic polynomials and their properties
- Corrigendum to ``Identities involving Frobenius-Euler polynomials arising from non-linear differential equations
- Explicit formulas and recurrence relations for higher order Eulerian polynomials
- Some properties of the Hermite polynomials
- Series expansions of powers of arcsine, closed forms for special values of Bell polynomials, and series representations of generalized logsine functions
- Several explicit and recursive formulas for generalized Motzkin numbers
- Special values of the Bell polynomials of the second kind for some sequences and functions
- Some identities and an explicit formula for Bernoulli and Stirling numbers
- Explicit formulae for computing Euler polynomials in terms of Stirling numbers of the second kind
- Some identities for a sequence of unnamed polynomials connected with the Bell polynomials
- Simplifying coefficients in differential equations associated with higher order Bernoulli numbers of the second kind
- Multivariate Bell polynomials and their applications to powers and fractionary iterates of vector power series and to partial derivatives of composite vector functions
- Some properties of central Delannoy numbers
- On Ruijsenaars' asymptotic expansion of the logarithm of the double gamma function
- Some identities involving exponential functions and Stirling numbers and applications
- A note on nonlinear Changhee differential equations
- Identities involving degenerate Euler numbers and polynomials arising from non-linear differential equations
- Differential equations for Changhee polynomials and their applications
- A NOTE ON THE HIGHER DERIVATIVES OF THE FUNCTION 1/(exp(x)–1)
- Explicit formulas for computing Bernoulli numbers of the second kind and Stirling numbers of the first kind
- Multivariate Bell polynomials
- Simplification of Coefficients in Differential Equations Associated with Higher Order Frobenius-Euler Numbers
- Closed formulas and identities on the Bell polynomials and falling factorials.
- SOME IDENTITIES FOR BERNOULLI NUMBERS OF THE SECOND KIND ARISING FROM A NON-LINEAR DIFFERENTIAL EQUATION
- Derivative polynomials of a function related to the Apostol-Euler and Frobenius-Euler numbers
- Close Encounters with the Stirling Numbers of the Second Kind
- The inverse of a triangular matrix and several identities of the Catalan numbers
- Some properties and an application of multivariate exponential polynomials
- SEVERAL FORMULAS FOR SPECIAL VALUES OF THE BELL POLYNOMIALS OF THE SECOND KIND AND APPLICATIONS
- A diagonal recurrence relation for the Stirling numbers of the first kind
- Some identities related to Eulerian polynomials and involving the Stirling numbers
- Simplifying and finding ordinary differential equations in terms of the stirling numbers
- Simplifying coefficients in a family of ordinary differential equations related to the generating function of the Mittag--Leffler polynomials
- Explicit Expressions Related to Degenerate Cauchy Numbers and Their Generating Function
- Simplifying coefficients in a family of nonlinear ordinary differential equations
- Notes on two kinds of special values for the Bell polynomials of the second kind
- Some Identities Involving Euler Polynomials Arising from a Non-linear Differential Equation
- Diagonal recurrence relations for the Stirling numbers of the first kind
- Derivative Polynomials for tanh, tan, sech and sec in Explicit Form
