Fen - Edebiyat Fakültesi

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    Citation Count: Koç, Ertuğrul. "Cultural Intersections in Stoker’s Dracula: Transylvanian and Ottoman Identities as the Vampiric “Other(s)” of Victorians", Mapping Cultural Identities, (2019).
    Cultural Intersections in Stoker’s Dracula: Transylvanian and Ottoman Identities as the Vampiric “Other(s)” of Victorians
    (Cambridge Scholars Publishing, 2019-12-01) Koç, Ertuğrul; 6497; Çankaya Üniversitesi, Fen-Edebiyat Fakültesi, Mütercim Tercümanlık Bölümü
    This volume investigates identity discourses and self-constructions/de-constructions in various texts through imagological readings of films, narratives, and art works, examining different layers of cultural identities, on the one hand, and measuring the literary reception of ethnic identity constitution to reveal both the self and hetero images, on the other. The book features theoretical and analytical approaches with insights borrowed from multiple disciplines, and mainly focuses on the application of imagological perspectives in the fields of literature and translation, and specifically in literary works “carried over” from one culture to another. It will be of interest for scholars and researchers working in the fields of literature, translation, cultural studies, and imagology, as well as for students studying in these fields.
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    Citation Count: Iqbal, Zafar...et al. (2020). "Structure preserving computational technique for fractional order Schnakenberg model", Computational & Applied Mathematics, Vol. 39, No. 2.
    Structure preserving computational technique for fractional order Schnakenberg model
    (2020-02-11) Iqbal, Zafar; Ahmed, Nauman; Baleanu, Dumitru; Rafiq, Muhammad; Iqbal, Muhammad Sajid; Rehman, Muhammad Aziz-ur; 56389; Çankaya Üniversitesi, Fen Edebiyat Fakültesi, Matematik Bölümü
    The current article deals with the analysis and numerical solution of fractional order Schnakenberg (S-B) model. This model is a system of autocatalytic reactions by nature, which arises in many biological systems. This study is aiming at investigating the behavior of natural phenomena with a more realistic and practical approach. The solutions are obtained by applying the Grunwald-Letnikov (G-L) finite difference (FD) and the proposed G-L nonstandard finite difference (NSFD) computational schemes. The proposed formulation is explicit in nature, strongly structure preserving as well as it is independent of the time step size. One very important feature of our proposed scheme is that it preserves the positivity of the solution of continuous fractional order S-B model because the unknown variables involved in this system describe the chemical concentrations of different substances. The comparison of the proposed scheme with G-L FD method reflects the significance of the said method.