شعیب قریشی
مسٹر شعیب قریشی علی گڑھ اورآکسفورڈ کے تعلیم یافتہ تھے۔انگریزی انشاء و اخبار نویسی کاخاص سلیقہ اورملکہ رکھتے تھے، ایک زمانہ میں اُن کے اس وصف و کمال کی دھوم تھی۔تحریک خلافت میں علی برادران کے ساتھ رہے۔اسی تعلق سے جس سال مکہ معظمہ میں عالم اسلام کی موتمر ہوئی ہے۔وفد خلافت کے ساتھ یہ بھی اُس میں شرکت کرنے اور اس بہانے حج و زیارت حرمین شریفین سے مشرف ہونے حجاز مقدس گئے تھے اور اسی زمانہ میں راقم الحروف نے ایک رفیق سفرطالب علم کی حیثیت سے مرحوم کوبہت قریب سے دیکھا اوراُن کے علمی وادبی کمالات، دینی ذوق وشوق اوراخلاقی اوصاف سے متاثر ہواتھا۔پہلے درویشی و قلندری کی زندگی بسر کرتے تھے۔پھرریاست بھوپال میں وزارت کے عہدہ پر فائز ہوکر رئیسانہ جاہ وحشم سے رہنے لگے تھے۔آزادی کے بعد پاکستان میں متعدد ممتاز اوربلند عہدوں پررہے اورآخر میں سب چیزوں سے الگ تھلگ ہو کر کئی ماہ کی سخت اورصبرآزما علالت کے بعد ایک شفاخانہ میں جان جان آفریں کو سپردکرکے دنیا سے رخصت ہوگئے۔مولانا محمد علی ؒکے دامادتھے۔اس رشتہ کی وجہ سے مولانا کے ارادت مند اورہندومسلم دیرینہ رفقائے کار واحباب مرحوم کواپنا عزیز سمجھتے اورمرحوم بھی بربنائے وضعداری ان سب کے ساتھ اُسی طرح برتاؤ کرتے اور تعلق رکھتے تھے۔ چنانچہ جس زمانہ میں وہ پاکستان کے ہائی کمشنر کی حیثیت سے نئی دہلی میں مقیم تھے وہاں کی سوشل زندگی میں یہ خاص بات بڑی نمایاں تھی۔غفرلہ اﷲ ورحمہ [اپریل۱۹۶۲ء]
Islam caters to people’s need for peace and serenity and therefore takes every legal measure to safeguard the society against disruptive elements. A criminal who spoils the tranquility of a peaceful society deserves to be awarded severe punishment but Islam does not deem it logical to execute punishments before eliminating the major causes for commission of crimes. The following research article describes the attitudes of Western critics of Islam--such as Robert Spencer-- towards Islamic penalties namely amputation and stoning to death. It describes Islamic concept of crime and punishment in comparison with Western concepts and attempts to prove that Islam never loses sight of moderation and inflicts no barbarities. The last part of the research article, through crime statistics of United States of America, proves that the they have disastrously failed to curb violent crimes in their society. Hence it is high time that the world recognized the effective role and deterrent value of Islamic punishments for peace and stability.
In this work we concentrated on the modeling of the nanofluid thin film flow past a stretching surface with different physical parameters. These parameters of interest are discussed in brief in each chapter with its physical significance with solution techniques. Chapter one is an overview of the basic definitions and models. Classification of the fluid is presented with diagrams and some different physical phenomena are sketched with figures. The basic model equations for the description of the physical system are derived with its physical significance. A comprehensive note is presented on the nanofluid model for the thermal conductivity in the enhancement of heat. Hall effect is discussed with its mathematical relation to the momentum equation. Some basic models for non-Newtonian fluids are also presented. In conclusion to this chapter, the basic scheme of the solution technique is discussed. In chapter two we focus on the literature present for the next four chapters. Nanofluids are discussed in detail and work are done on the nanofluids is described over stretching surfaces. MHD flow with Hall effect is encircled with its mechanism and literature survey. Finally the concept of boundary-layer is presented for nanofluid from its literature point of view on stretching surfaces. In chapter three, thin film flow is modeled with the help of the Reiner-Philippoff fluid model. The physical problem is sketched in the form of the mathematical model which is further transformed into an ODEs system with its boundary restrictions. The effects of Brownian motion and thermophoresis are studied over the Reiner-Philippoff fluid. The transformed model is solved by using HAM. The convergence of the implemented technique is presented in the form of tables. The impact of Nusselt number, Sherwood number and skin friction is presented over these profiles. Tables show the impact and efficiency of our implemented technique. In chapter four, different base fluids are used for viscous Titania nanofluid flow. A 3D flow of an electrically conducting fluid is considered over an inclined rotating surface. A magnetic filed id applied to the surface of the sheet. A similar approach we have used in chapter 3 is implemented. The reduced model is solved with the help of the numerical technique. The implemented technique is compared with the HAM results in the form of tables. The convergence of the technique is also presented by the graphs. The impact of different physical parameters are discussed over various state variables. In chapter five, the second grade viscoelastic MHD nanofluid flow past a vertical stretching sheet is assumed. The physical problem contains the entropy generation, mass transfer and heat transfer in the fluid flow. The gradient in concentration, thermophoresis and Brownian effects are considered in the flow. A physical problem is modeled and transformed with help of new dimensionless variables together with the boundary restrictions and is further solved with the help of HAM. The implemented technique convergence is shown by tables. The effect of various physical parameters is observed and analyzed over different profiles. In chapter six, a magnetic field is applied to a three dimensional geometry with a rotating disk over which a steady and viscous nanofluid flow is considered. The analysis of the fluid flow is carried out with consideration of the Casson fluid model. The fluid assumed to be electrically conducting. To reduce the complexity of the model, the system is transformed into less complex model by using the newly introduced dimensionless variables with its boundary restrictions. A numerical technique in comparison with HAM is used for the problem solution. Some physical important parameters are described in detail and its impact is analyzed over different state variable profiles. A comparative tabular survey for the numerical technique with HAM is presented. This tabular survey shows the reliability of our technique. Finally, in the last two chapters, the results obtained, and the papers published from this work is presented.