Double Dirichlet Average of M-series and Fractional Derivative

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International Journal of Scientific and Research Publications, Volume 5, Issue 1, January 2015 1 Double Dirichlet Average of M-series and Fractional Derivative Mohd. Farman Ali 1, Renu Jain 2, Manoj Sharma 3 1,2 School of Mathematics and Allied Sciences, Jiwaji University, Gwalior, Address 3 Department of Mathematics RJIT, BSF Academy, Tekanpur, Address Abstract- In this present paper we establish the results of Double Dirichlet average of M-Series and use fractional derivative. Some particular cases of our result are the generalization of earlier results. Index Terms- Dirichlet average, M-Series, fractional calculus operators. Mathematics Subject Classification: 26A33, 33A30, 33A25 and 83C99. C I. INTRODUCTION arlson [1-5] has defined Dirichlet average of functions which represents certain type of integral average with respect to Dirichlet measure. He showed that various important special functions can be derived as Dirichlet averages for the ordinary simple functions like, etc. He has also pointed out [3] that the hidden symmetry of all special functions which provided their various transformations can be obtained by averaging, etc. Thus he established a unique process towards the unification of special functions by averaging a limited number of ordinary functions. Almost all known special functions and their well known properties have been derived by this process. Recently, Gupta and Agarwal [9, 10] found that averaging process is not altogether new but directly connected with the old theory of fractional derivative. Carlson overlooked this connection whereas he has applied fractional derivative in so many cases during his entire work. Deora and Banerji [6] have found the double Dirichlet average of e x by using fractional derivatives and they have also found the Triple Dirichlet Average of x t by using fractional derivatives [7]. In the present paper the Dirichlet average of M-Series has been obtained. II. DEFINITIONS Some of the definitions which are necessary in the preparation of this paper. 1.1 Standard Simplex in : Denote the standard simplex in, by [1, p.62]. 1.2 Dirichlet measure: Let and let be the standard simplex in The complex measure is defined by. knows as Dirichlet measure. Here Open right half plane and k is the Cartesian power of

International Journal of Scientific and Research Publications, Volume 5, Issue 1, January 2015 2 1.3 Dirichlet Average[1, p.75]: Let be the convex set in, let and let be a convex combination of. Let be a measureable function on and let be a Dirichlet measure on the standard simplex in.define F is the Dirichlet measure of with variables and parameters. Here If, define The following notation have been used in present work,, Cartesian product of, Set of real numbers, Open right half plane, Complex measure,, Cartesian product of Convex set in, Beta function Standard simplex 1.4 Fractional Derivative [8, p.181]: The theory of fractional derivative with respect to an arbitrary function has been used by Erdelyi[8]. The most common definition for the fractional derivative of order found in the literature on the Riemann-Liouville integral is Where and is the form of, where is analytic at 2.5 Average of (from [4]): let be a Dirichlet measure on the standard simplex E in ; k 2. For every If. 2.6 Double averages of functions of one variable (from [1, 2]): let be a matrix with complex elements Let be an ordered k-tuple and x- tuple of real non-negative weights respectively. Define

International Journal of Scientific and Research Publications, Volume 5, Issue 1, January 2015 3 If is regarded as a point of the complex plane, all these convex combinations are points in the convex hull of Let an ordered tuple of complex numbers with positive real part(re(b) > 0) and similarly for β= ). Then we define Let be the holomorphic on a domain D in the complex plane, If define Corresponding to the particular function define, III. MAIN RESULTS AND PROOF Theorem: Following equivalence relation for Double Dirichlet Average is established for ( ) of Proof: Let us consider the double average for of and and Thus

International Journal of Scientific and Research Publications, Volume 5, Issue 1, January 2015 4 Putting these values in ( ), we have, In order to obtained the fractional derivative equivalent to the above integral, we assume then Putting we obtain On changing the order of integration and summation, we have Using definition of fractional derivative (2.4), we get

International Journal of Scientific and Research Publications, Volume 5, Issue 1, January 2015 5 This is complete proof of (3.1). Particular cases: (i) From Ali, Jain and Sharma, we get (ii) Thus REFERENCES [1] Carlson, B.C., Special Function of Applied Mathematics, Academic Press, New York, 1977. [2] Carlson, B.C., Appell s function F4 as a double average, SIAM J.Math. Anal.6 (1975), 960-965. [3] Carlson, B.C., Hidden symmetries of special functions, SIAM Rev. 12 (1970), 332-345. [4] Carlson, B.C., Dirichlet averages of x t log x, SIAM J.Math. Anal. 18(2) (1987), 550-565. [5] Carlson, B.C., A connection between elementary functions and higher transcendental functions, SIAM J. Appl. Math. 17 (1969), 116-140. [6] Deora, Y. and Banerji, P.K., Double Dirichlet average of ex using fractional derivatives, J. Fractional Calculus 3 (1993), 81-86. [7] Deora, Y. and Banerji, P.K., Double Dirichlet average and fractional derivatives, Rev.Tec.Ing.Univ. Zulia 16(2) (1993), 157-161. [8] Erdelyi, A., Magnus, W., Oberhettinger, F. and Tricomi, F.G., Tables of Integral Transforms, Vol.2 McGraw-Hill, New York, 1954. [9] Gupta,S.C. and Agrawal, B.M., Dirichlet average and fractional derivatives, J. Indian Acad.Math. 12(1) (1990), 103-115. [10] Gupta,S.C. and Agrawal, Double Dirichlet average of ex using fractional derivatives, Ganita Sandesh 5 (1) (1991),47-52. [11] Mathai, A.M. and Saxena,R.K., The H-Function with Applications in Stastistics and other Disciplines, Wiley Halsted, New York, 1978. [12] Saxena,R.K., Mathai,A.M and Haubold, H.J., Unified fractional kinetic equation and a fractional diffusion equation, J. Astrophysics and Space Science 209 (2004), 299-310. [13] Sharma, Manoj and Jain, Renu, Dirichlet Average and Fractional Derivatie, J. Indian Acad. Math.Vol.12, No. 1(1990). [14] Sharma, Manoj and Jain, Renu, Dirichlet Average of coshx and Fractional Derivatie, J. Indian Acad. Math.Vol.2, No. 1(2007). P17-22. AUTHORS First Author Mohd. Farman Ali, School of Mathematics and Allied Sciences, Jiwaji University, Gwalior, Address 1mohdfarmanali@gmail.com Second Author Renu Jain, School of Mathematics and Allied Sciences, Jiwaji University, Gwalior Third Author Manoj Sharma, Department of Mathematics RJIT, BSF Academy, Tekanpur, Address, 2manoj240674@yahoo.co.in

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