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Some Perturbative and Non Perturbative Techniques for Solution of Partial Differential Equations

Thesis Info

Author

Saeed-Ullah-Jan

Supervisor

A. U. Kalim

Department

Department of Mathematics

Program

BS

Institute

COMSATS University Islamabad

Institute Type

Public

City

Islamabad

Province

Islamabad

Country

Pakistan

Thesis Completing Year

2007

Thesis Completion Status

Completed

Subject

Mathematics

Language

English

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676720754082

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3۔ قوانین ِحدودوقصاص بین الاقوامی رویوں کے تناظر میں

وضعی قوانین کی جگہ شرعی قوانین بدرجہا بہتر اور قابل عمل ہیں ۔ ان میں غلطی کا احتمال بھی نہیں اور ان کا مقصد نہ صرف مجرموں کو سزا دینا ہے، بلکہ یہ مجرم اور معاشرے کی اصلاح کا ذریعہ، انسانوں کو برائیوں سے بچانا ، معاصی سے روکنا ، آمادہ اطاعت کرنا، اخلاقی اقدار کا تحفظ اور انسداد جرم کے لیے نہایت مؤثر ہیں، جب کہ وضعی قوانین میں مجرموں کو سزا دے کر صرف جرم سے روکنا مقصود ہوتا ہے، معاشرے کی اصلاح اور دوسری چیزیں مقصود نہیں ہوتیں۔ اس حوالے سے عبدالقادر عودہ شہید لکھتے ہیں
"شرعی قوانین میں سزا کا مقصد افراد کی اصلاح، اجتماعی تحفظ اور معاشرتی بہبود ہے۔ اس لیے سزا کو ان اصولوں پر قائم ہوناچاہیے جس سے یہ مقاصد حاصل ہو سکیں ۔اصول مندرجہ ذیل ہیں:
1. سزا ایسی ہو جس کی وجہ سے لوگ ارتکاب جرم سے باز رہیں ۔
2. سزا کی تحدید میں اجتماعی ضرورت اور معاشرتی مفاد کو پیشِ نظر رکھا جائے۔
3. مجرم کی تادیب کا مقصد اس سے انتقام لینا نہیں، بلکہ اس کی اصلاح ہے۔ "384
چاہیے تو یہ تھا کہ اقوام عالم ان قوانین کا نفاذ کرتیں لیکن مذہبی تعصب ، اسلام سے عناد ، دنیا پر حکومت کرنے کا خواب ، طاقت کا نشہ اور مسلمانوں کا خود ان قوانین پر عمل نہ کرنا آڑے آئے ۔اب صورتحال یہ ہے کہ ان قوانین پر عمل درآمد نہ کرنے کے حوالے سے بین الاقوامی برادری کا مسلمانوں پر دباؤ ہے کہ کسی طرح مسلمان ان قوانین پر عمل درآمد نہ کر کے اللہ تعالیٰ کے نافرمان بن کر اس کی رحمت سے دور ہو جائیں ۔ پاکستان میں حدود آرڈیننس میں تبدیلی و ترمیم کے وقت بین الاقوامی اداروں اور حکومتوں کے اعتراضات مندرجہ ذیل تھے، جیسا کہ...

سیرت طیبہ صلی اللہ علیہ وآلہ وسلم کا عدلیاتی پہلو: ایک تحقیقی جائزہ A Research Review of the Prophetic Justiceﷺ

Islam is a religion of peace and it has provided a strong system of justice for the establishment of peace and order, the practical picture of which is available to the Muslim Ummah in the form of Sira-e-Taiba of the Holy Prophetﷺ. On which the seal of beauty has been recorded by Allah Himself. Therefore, the system of justice of Islam can be used only when the solution of all issues is sought from Sira-e-Taiba because Heﷺ has eliminated the distinction between rich and poor in the supremacy of law. The Holy Prophet ﷺ has set great and enlightening examples of justice for humanity, the pursuit of which leads to peace and tranquility of social life. In his Supreme Court, the Qur'an and Sunnah and consensus and analogy were of fundamental importance. In the Qur'an and Hadith, Sira-e-Taiba had the status of Shāri' and Legislator, while in consensus and speculation, Sira-e-Taiba has promoted thinking and counseling. The center and axis of Islamic law is your caste. He ﷺ has established justice, supremacy, and law in every field of worship, affairs, disputes, and crime. Therefore, in this article, the judicial aspect of His ﷺ Sira-e-Taiba has been explained in the light of the Qur'an and Hadith, the Sahabah and the followers, and the edicts of the Imams and jurists.

Scalable Dc Microgrids for Rural Electrification

Access to electricity is one of the key factors indicating the socio-economic status of any community. Reliable and adequate provision of electricity is mandatory for improved standards of living including better health, education, transport, agriculture and employment opportunities. Unfortunately, according to International Energy Agency, over 1.1 billion people around the world lack access to any electricity out of which 85 percent reside in rural areas of developing world. Electrification of these remote rural communities through national grid interconnection is not economically feasible for many developing countries due to high cost associated with the development of generation, transmission and distribution infrastructure. Alternatively, DC microgrids implemented with distributed generation and low voltage distribution are becoming very popular for low cost rural electrification. However, current implementations are largely suboptimal due to high distribution losses associated with their centralized architecture and their inability to support high power community loads. In this work, a novel distributed DC microgrid architecture which allows a scalable approach with minimal upfront investment to fulfill rural electricity needs along with the provision of higher powers for communal loads and beyond subsistence provisioning of electrical power is proposed. The architecture is capable to work entirely on solar energy with power delivery capability to individual consumers and added inherent ability to integrate resources to power up larger loads for communal/commercial applications. The proposed microgrid architecture consists of a cluster of multiple nanogrids (households), where each nanogrid has its own PV generation and battery storage along with bi-directional connectivity to the microgrid. Thus, each nanogrid can work independently in islanded mode along with the provision of sharing its resources with the community through the bidirectional converter. In the proposed architecture, the bi-directional power flow capability is implemented through a modified flyback converter. A decentralized control methodology is also proposed to ensure a communication-less, yet coordinated control among the distributed resources in multiple nanogrids. The microgrid is evaluated for optimal distribution voltage level, conductor size and interconnection scheme between nanogrids using Newton-Raphson analysis modified for DC power flow. Various scenarios for power sharing among the contributing nanogrids and communal load power allocation are analyzed from operation and control prospective to validate the architecture and its performance. Further, an optimal framework for the planning of distributed generation and storage resources in each nanogrid with respect to time varying profiles of region-specific temperature and irradiance is also presented to ensure the better resource utilization. A scaled version of the proposed architecture is implemented on hardware, while the efficacy of control methodology is validated on MATLAB/Simulink and hardware in loop facilities at microgrid laboratory in Aalborg University. The proposed distributed architecture along with decentralized control can be considered as a promising solution for the future rural electrification implementations in developing regions.