65,525 research outputs found

    A critical analysis of Christian responses to Islamic claims about the work of the Prophet Muhammad, ‘the Messenger of God’.

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    The aims of this study are to analyse critically the different Christian responses to the Islamic understanding of the work of Muhammad. Chapter one consists a short introduction leading to an appraisal of Muhammad which incorporates historical, hagiographal and Quranic source material, and in the light of relevant Christian and Muslim scholarship. The second chapter presents a summary critical analysis of Muhammad in Christian theological perspective, from 661 A.D. to modern times. Chapter three presents a critique of Christian responses to the Muslim allegations that the text of the Bible has been infected with corruption; and that Muhammad's advent and status are foretold in the unadulterated' scriptures, and in the Gospel of Barnabas. Chapter four examines the theological significance of the work of Muhammad for Christians. Thus, Jesus and Muhammad are critically assessed and contrasted in order to ascertain the importance, for Christians, of the Muslim claims in respect of Muhammad as ’the messenger of God’. Chapter five provides a critical evaluation of the various Christian responses to Muhammad. It is argued that many of the said responses have been entangled in myths and misperceptions which have severely distorted the true account of Muhammad's work. Consequently, many Christians have failed to appreciate the divine legitimacy of Muhammad's call to prophethood. Further, it is argued that Christians should accept that Muhammad is a genuine prophet, and the messenger of God. However, Muhammad's use of the power-structure in order to maintain Islam is in sharp contrast to Jesus’ decision to face the consequences of his ministry passively through faith in God. Accordingly, orthodox Christian belief in the passion, death and resurrection of Jesus provides another dimension to prophethood, where the messenger and the message become one, an identification which finds no parallel in Islam, and which, in the nature of the case, cannot find a parallel

    Sejarah perjalanan hidup Muhammad

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    Judul asli: Fiqh U-seerah: understanding the life of prophet muhammadxxii, 640 p. : il.; 23 c

    And Muhammad Is His Messenger The Veneration of the Prophet in Islamic Piety

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    Cover -- Half Title -- Title -- Copyright -- Dedication -- Contents -- Illustrations -- Preface -- Introduction -- 1. Biographical and Hagiographical Notes -- 2. Muhammad the Beautiful Model -- The Shamā'il and Dalā'il Literature -- The Prophet's Physical Beauty -- The Prophet's Spiritual Beauty -- 3. Muhammad's Unique Position -- 4. Legends and Miracles -- 5. Muhammad the Intercessor, and the Blessings upon Him -- 6. The Names of the Prophet -- 7. The Light of Muhammad and the Mystical Tradition -- 8. The Celebration of the Prophet's Birthday -- 9. The Prophet's Night Journey and Ascension -- 10. Poetry in Honor of the Prophet -- The Arabic Tradition -- The Poets' Longing for Medina -- Na'tiyya Poetry in the Persianate and Popular Tradition -- 11. The "Muhammadan Path" and the New Interpretation of the Prophet's Life -- 12. The Prophet Muhammad in Muhammad Iqbal's Work -- Appendix: The Noble Names of the Prophet -- Abbreviations -- Notes -- Bibliography -- Index of Koranic Quotations -- Index of Prophetic Traditions -- Index of Proper Names -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W -- Y -- Z -- Index of Technical Terms and Concepts -- A -- B -- C -- D -- F -- G -- H -- I -- J -- K -- L -- M -- N -- P -- Q -- R -- S -- T -- U -- W -- Y -- ZDescription based on publisher supplied metadata and other sources.Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, YYYY. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries

    Artificial Neural Network Model to relate Organization Characteristics and Construction Project Delivery Methods

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    This study aims to relate organizational characteristics on preferences for project delivery methods (PDMs) in construction industry of Pakistan. Artificial Neural Network (ANN) based model is developed for predicting proportion of projects done by different types of organizations under various PDMs. It is found that ANN model give satisfactory accuracy in predicting these proportions for test and training datasets. It is found that client organizations are more inclined towards traditional methods, especially Design-Bid-Build (DBB). Consultant organizations had relatively higher proportion of projects done by Design-Build (DB) and other non-traditional methods. Most of the construction organizations belong to the private sector which showed an inclination towards DBB and DB methods. The non-traditional PDMs had relatively higher preference for organizations who are involved in infrastructure or other specialized projects. Organizations who have more projects showed more tendency towards non-traditional PDMs. (C) 2018 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/3.0/) Peer-review under responsibility of the scientific committee of the 13th International Conference on Future Networks and Communications, FNC-2018 and the 15th International Conference on Mobile Systems and Pervasive Computing, MobiSPC 2018.The authors acknowledges the efforts of Muhammad Ali Mangi, Zeeshan Yamin and Talha Ayub, students of NED University of Engineering and Technology, for collecting the data for this study

    A Dynamic Subfilter-scale Stress Model for Large Eddy Simulations Based on Physical Flow Scales

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    We propose a new definition of the length scale in an eddy-viscosity model for large-eddy simulations (LES). This formulation extends and generalizes a previous proposal [Piomelli, Rouhi and Geurts, Proc. ETMM10, 2014], in which the LES length scale was expressed in terms of the integral length-scale of turbulence determined by the flow characteristics and explicitly decoupled from the simulation grid; this approach was named Integral Length-Scale Approximation (ILSA). As in the original ILSA, the model coefficient was determined by the user, and required to maintain a desired contribution of the unresolved, subfilter scales (SFS) to the global transport. We propose a local formulation (local ILSA) in which the model coefficient is local in space, allowing a precise control over SFS activity as a function of location. This new formulation preserves the properties of the global model; application to channel flow and backward-facing step verifies its features and accuracy

    Large-eddy simulation of a separated flow with a sub-filter scale model based on the integral length-scale

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    A new sub-filter scale model for large-eddy simulations, which uses a length-scale proportional to the integral scale of the turbulence instead of the grid resolution to parametrize the modelled stresses, will be assessed in the prediction of the flow of a boundary-layer over a rough surface, which includes separation and reattachment

    Near Wall PIV-Measurements on the Windward Slope of a Hill

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    The turbulent flow over periodic hills was measured near to the wall, using planar Particle-Image-Velocimetry (PIV) at high spatial resolution. Our focus is on the near wall turbulence structure on the windward slope of the hill. For large-eddy simulation (LES) we suspect that, if this was not predicted accurately, it affects the prediction of the velocity profiles over the hill crest which in turn will affect the recirculation length downstream of the hill. Regarding the time averaged velocities, we were able to resolve the linear viscous region of the boundary layer. The velocity distribution and also the Reynolds stress does not comply with the law of the wall as it is valid for a turbulent boundary layer at equilibrium

    Energy dissipation and flux laws for unsteady turbulence

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    Direct Numerical Simulations of spatially periodic unsteady turbulence show that the high Reynolds number scalings of the instantaneous energy dissipation rate and interscale energy flux at intermediate wavenumbers are qualitatively different from the well-known u(t)3/L(t)u'(t)^{3}/L(t) cornerstone scalings of equilibrium turbulence where u(t)u'(t) and L(t)L(t) are time-dependent rms velocity and integral length-scales. Instead, they both scale as U0L0u(t)2/L(t)2U_{0}L_{0}\:u'(t)^2/L(t)^2 where L0L_0 and U0U_0 are length and velocity scales characterizing initial/overall unsteady turbulence conditions
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