Abstract

In this paper we obtain some inclusion relations of k - starlike functions, k - uniformly convex functions and quasi-convex functions. Furthermore, we obtain coe¢ cient bounds for some subclasses of fractional q-derivative multivalent functions together with generalized Ruscheweyh derivative.

Highlights

  • We note that UCC(0, α, β) is the class of close-to-convex of univalent functions of order α and type β and UQC(0, α, β) is the class of quasi-convex univalent functions of order α and type β

  • Special relativity applies to elementary particles and their interactions, whereas general relativity applies to the cosmological and astrophysical realm, including astronomy

  • In our q-difference operator plays an vital role in the theory of hypergeometric series and quantum physics

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Summary

Preliminaries

The theory of relativity, or relativity in physics, usually encompasses two theories by Albert Einstein: special relativity and general relativity. Let f be a function defined on a q-geometric set. [20] The fractional q-integral operator Iqδ,z of a function f (z) of order δ(δ > 0) is defined by z. [20] The fractional q-integral operator Dqδ,z of a function f (z) of order δ(0 ≤ δ < 1) is defined by z. Under the Definition 2.6, the The fractional q-derivative for a function f (z) of order δ is defined by. The q-differ-integral operator Ωδq,p : Ap → Ap, for δ < p + 1, 0 < q < 1 and n ∈ N, defined as follows: Ωδq,p. Let Qk,α(z) be a univalent starlike function with respect to 1 which maps the open unit disk U onto a region in the conical domain and is symmetric with respect to the real axis, Qk,α(0) = p, Q′k,α(0) > 0.

Inclusion Relation Problems
A BpbQ21

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