ادوات استفہام
ادواتِ استفہام سے مراد ایسے اسما و حروف ہیں جن سے سوال کیا جاتا ہے۔ قرآن مجید میں بھی ادواتِ استفہام کا ستعمال بکثرت موجود ہے۔ڈاکٹر عبد ہ الراجحی تحریر فرماتے ہیں:
"تمام ادوات استفہام اسمائے استفہام ہیں سوائے دو کلموں کے "ھل اور ھمزہ" یہ دونوں حروف استفہام ہیں اور مبنی ہیں اور اسمائے استفہام سب مبنی ہیں سوائے"اي" کے‘‘۔[[1]]
نحویوں نے ادوات استفہام کی دو اقسام بیان کی ہیں:
۱-حروف استفہام ۲-اسمائے استفہام
[[1]] عبده الراجحى،التطبيق النحوى،دارالمعرفة، مصر، ۲۰۰۷ء، ص ۵۹۔
Security is most important need of every state and community. Surveillance and keeping eye on the enemy are the core responsibilities of every state. All the absolute qualities of a leader can be found in The Holy Prophet (P.B.U.H). Therefore, the first nucleus of security education was in Makkah and expanded with the expansion of the Da’wah till the declaration of Madina as a Islamic state. There are various studies on the subject of surveillance, but they did not cover all aspects of Sīrah in Makkī era regarding the various steps and methods of surveillance. This article investigates how the Holy Prophet (P.B.U.H) maintained the security measures during Makkī era to ensure the security of all his companions and followers. In the First section of this article definition and history of intelligence was discussed, followed by the various techniques of surveillance used in different occasions by the Prophet (P.B.U.H). The last section of the article focused on the techniques used in Makkī era. The article further elaborates the practical steps taken by Prophet (P.B.U.H) to secure his companions and their families from the opponents to the extent possible, like migration to Habash and finally to Madina which concluded in establishment of a free state for Muslims.
In this thesis a series solution to linear or nonlinear problems has been considered which are arising in the field of applied mathematics. In the first chapter of this dissertation a brief history of our problems and methods is given. In the second chapter, some basic definitions and concepts are given which have been used in our work. In the third chapter, we examined the motion of an incompressible unidirectional magneto-hydrodynamics (MHD) thin film flow of a third grade fluid over an oscillating inclined belt embedded in a porous medium. Moreover, heat transfer analysis has also been discussed in the present work. We modeled the proposed physical problem in terms of PDEs. The equations obtained through PDEs were then solved by two different methods i.e., Homotopy Perturbation Method (HPM) and Optimal Homotopy Asymptotic Method (OHAM). Comparisons of these two methods for different time level were analyzed graphically. Comparison of the results shows that both the methods are in full agreement. The effects of various non-dimensional parameters have also been linerated graphically. In the fourth chapter of this thesis the unsteady thin film flow of a fourth grade fluid over a moving and oscillating vertical belt is given. The proposed problem was modeled in terms of PDEs together with physical boundary conditions. Two different cases were discussed. The first one is the lift case, while the second one is the drainage case. Two different techniques, namely the Adomian Decomposition Method (ADM) and the Optimal Homotopy Asymptotic Method (OHAM) were used for finding the analytical solutions of the above mentioned cases. These solutions were compared and found in excellent agreement. For the physical analysis of the problem, graphical results were provided and discussed for various embedded flow parameters. In the fifth chapter, the Optimal Homotopy Asymtotic Method (OHAM) [45-46] was used for approximate solution of singularly perturbed two-point boundary value problems. We concluded that the proposed method gives efficient results. We solved some numerical examples, that include initial and boundary value problems. In the sixth chapter, the solution of higher order boundary value problems by our proposed method “Modified Optimal Homotopy Perturbation Method” (MOHPM) has been given. A homotopy with an embedding parameter and Daftardar-Jafari polynomials were used. To control the convergence of solution, some auxiliary functions which depended upon variables and some constants were used. The proposed method was simple, rapid, effective and accurate. The accuracy has been proved by comparing our results with the solutions of optimal homotopy perturbation method (OHPM), optimal homotopy asymptotic method (OHAM), variational iterative method (VIM), variational iteration method using He’s polynomials (VIMHP), homotopy perturbation method (HPM) and Adomain decomposition method (ADM).