Search or add a thesis

Advanced Search (Beta)
Home > On Some Characterizations of Σ-Anti Fuzzy Subgroups

On Some Characterizations of Σ-Anti Fuzzy Subgroups

Thesis Info

Author

Uzma Zamani

Supervisor

Umer Shuaib

Institute

Riphah International University

Institute Type

Private

Campus Location

Faisalabad Campus

City

Faisalabad

Province

Punjab

Country

Pakistan

Thesis Completing Year

2019

Thesis Completion Status

Completed

Page

ii, 46 . : ill. ; 30 cm.

Subject

Mathematics

Language

English

Other

English; Call No: 511 UZM

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676712024892

Similar


Loading...
Loading...

Similar Books

Loading...

Similar Chapters

Loading...

Similar News

Loading...

Similar Articles

Loading...

Similar Article Headings

Loading...

مولانا عاشق حسین سیماب اکبر آبادی

مولانا عاشق حسین سیماب اکبر آبادی
افسوس ہے پچھلے دودن کے ہی آگے پیچھے سے اردو کی بساط شعروادب کے دوپرانے اورنامور مہرے اٹھ گئے۔مولانا عاشق حسین سیماب اکبر آبادی اور مولانا احسان اﷲ خاں تاجورؔ نجیب آبادی آج کل کے عام شاعروں کی طرح شاعر یاادیب ہی نہیں تھے بلکہ صاحب فن استاذ،علم عروض ومعانی وبیان اور لغت و قواعد لسان کے بڑے مبصر اورناقد بھی تھے۔مولانا سیماب۱۸۸۰ء میں آگرہ میں پیداہوئے اورجنوری۱۹۵۱ء میں کراچی میں انتقال کرگئے شاعری اٹھارہ انیس برس کی عمر سے ہی شروع کردی تھی اس طرح گویا مرحوم نے پوری ایک نصف صدی اردو زبان وادب کی خدمت میں بسر کی۔اس مدت میں سینکڑوں چھوٹی بڑی کتابیں اوربے شمار مقالات،نظمیں وغیرہ ان کے قلم سے نکلیں۔ان کے شاگردوں کاحلقہ بھی نہایت وسیع تھا جو خط وکتابت کے ذریعہ ان کی فنی بصیرت ومہارت سے استفادہ کرتارہتاتھا۔ابتدا میں اگرچہ مرزاداغ سے مشورہ سخن کرتے تھے مگر جلد ہی ان کااپنا ایک مخصوص رنگ قائم ہوگیا۔کثرت مطالعہ وفکر عمیق نے ان میں شعروادب سے متعلق ایک مجتہدانہ شان پیداکردی تھی۔وہ کسی کے مقلد نہیں تھے بلکہ ہرچیز اورہرشعری وادبی مسئلہ کے متعلق اپنی ایک جچی تلی سنجیدہ اورمتین رائے رکھتے تھے اورعلیٰ وجہ البصیرت رکھتے تھے۔انھوں نے اپنی زندگی میں بڑے بڑے طوفانی اورانقلابی دوردیکھے جس نے ادب وشعر کی پرانی قدروں کومتزلزل کرکے رکھ دیا اورصورت ومعنی دونوں کے لحاظ سے شاعری کی دنیا میں ہنگامہ برپاکردیا، لیکن مرحوم ایک چٹان بنے اپنے مقام پرکھڑے رہے یہاں تک کہ انقلاب فکروسخن کی موجیں ان سے ٹکرائیں اوربالآخر راستہ کاٹ کر ان سے دامن بچاکر نکل گئیں۔یہ سب کچھ اس لیے ہوسکا کہ مرحوم طرزقدیم کے حامل ہونے کے ساتھ وقت کے جدید تقاضوں سے بھی بے خبر نہ تھے اورقدیم وجدید میں ہم آہنگی پیداکرلینے کاان میں بڑااچھا سلیقہ تھا۔آخر عمر...

اسوہ  حسنہ اورمغربی ذہن کے اشکالات.استشراقی فکرکے تناظرمیں تحقیقی و تنقیدی جائزہ

Western mind always remains muddled to fathom the Islamic belief “Prophethood” but it is grand reality that the West has contributed a lot in “Sirah Writing” from 17th to the present age. Although, in primary literature, Western scholars have delineated their abhorrence in this regard, without any research analysis. They usually used to twist the facts and misinterpret the text in attempt to sustain their assumption under their own perception. In the present age, literary change is seen in Western Writings that scholars have admired categorically the demonstrative Personality of Mohammad (PBUH) as well as they have praised his attributes as authoritative leader, Reformer, Peace maker etc. It will discuss the changes which were seen in Western writings about Sirah and analysis the causes and facts accordingly. It will also throw light on the Western assumption about Prophet Muhammad (PBUH); which has been prevailed in their writings before 19th even changed now. Islam is religion of Peace and Prophet of Islam has sent as” Blessing for All the Universe” from God Almighty so the question is what are the motives to bring forward theses western suppositions in this regard and at what extent it will affect? It will be discussed through comparative analysis among the Sirah books by Western Scholars Maxim Rodinson, Karen Armstrong and Michael Cook.

Synthesis and Characterizations of Magnetic Nanomaterials

The work presented in this PhD dissertation deals with the synthesis and characterizations of magnetic nanostructures using chemical methods. These nanostructures include nanoparticles, core/shell nanoparticles and core/shell nanowires which were synthesized via chemical coprecipitation method, solution evaporation method and sol-gel route followed by electrodeposition respectively. In this research, structural and magnetic properties of various ferrites (Spinel, Perovskite and Hexa-ferrites) with different dopant and chemical composition have been explored. Core/shell structure for nanoparticles and nanowires has also been studied in detail. Subsequently, the crystallinity and the phase purity of nanostructures were studied by X-Ray Diffraction (XRD) and Fourier Transform Infrared Spectroscopy (FTIR). Surface morphology, grain size, and chemical composition was analyzed by Scanning Electron Microscope (SEM), Transmission Electron Microscope (TEM), High Resolution Transmission Electron Microscope (HRTEM) and Energy Dispersive X-ray Spectroscopy (EDX) techniques respectively. Vibrating sample magnetometer (VSM) was used for room temperature magnetic measurements, however, low temperature characterizations were performed with the help of physical property measurement system (PPMS). We have reported magnetic properties of La1-xCoxMnO3 nanostructures synthesized by hydrothermal route. The crystal structure has been characterized by X-ray diffraction (XRD) technique, which shows rhombohedral perovskite structure at room temperature. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDS) have been used to analyse morphology and chemical composition of prepared nanoparticles. Magnetic hysteresis loops of all the samples exhibit ferromagnetic behaviour at 10 K. Inverse susceptibility graphs as a function of temperature represent deviation from Curie Weiss law. The indication for short range ferromagnetic clusters well above Curie temperature is observed due to the Griffiths Phase (GP). It is proposed that the presence of GP arises from induced size effects of La and Co ions. BiFe1-xCoxO3 (0≤x≤0.1) nanoparticles prepared by using solution evaporation method endorsed the formation of rhombohedral Perovskite crystal structure with R3c space group. Structural parameters show decreasing behavior of lattice constants and increasing behavior of X-ray density by increase in doping (Co) content in BiFeO3. XRD vi and TEM claimed average particle size of 39 nm. Room temperature magnetic results shows increase in Hc and Ms of nanoparticles up to doping content of 7.5%. On the other hand, low temperature magnetic measurements showed increasing trend of magnetic parameters with decreasing temperature. Variation in coercivity with temperature was followed theoretically by using Kneller’s law while, saturation magnetization followed the modified Bloch’s law in temperature range of 5-300K. Thirdly, a series of hexaferrite nanoparticles, with general formula Ba2Co2-xMnxFe12O22 (0≤x≤1) was synthesized by chemical co-precipitation method. It was found that with increasing Mn concentration grain size of hexaferrite nanoparticles increased from few nanometers to micrometer range. Furthermore, magnetic analyzes revealed that with increasing Mn concentration at octahedral and tetrahedral sites, the coercivity and squareness were found to increase from 455Oe to 2550Oe, and 0.23 to 0.47, respectively. Theoretical approach was also used to calculate saturation magnetization of synthesized samples. Along with ferrite nanoparticles, core/shell nanoparticles of ferrite material were prepared. Bimagnetic monodisperse CoFe2O4/Fe3O4 core-shell nanoparticles were prepared by solution evaporation route. Preferential coating of iron oxide onto the surface of ferrite nanoparticles was confirmed from XRD and HRTEM analyzes. The average core size was about 18 nm with thickness of the shell 3 nm, which corroborates with TEM study. We have observed large coercivity 15.8kOe at T=5K, whereas maximum saturation magnetization (125 emu/g) is attained at T=100K for CoFe2O4/Fe3O4 core-shell nanoparticles. Saturation magnetization decreases due to structural distortions at the surface of shell below 100K. ZFC-FC plots show that synthesized nanoparticles are ferromagnetic up to room temperature and it has been noticed that core/shell sample possess high blocking temperature than Cobalt Ferrite. Presence of iron oxide shell significantly increases magnetic parameters as compared to the simple cobalt ferrite. A comprehensive study of magnetization properties for M-CoO (M=Co, Ni, Fe) core/shell nanowires has been presented. Ferromagnetic nanowires arrays layered with Cobalt oxide shell are fabricated by sol gel route followed by DC electrodeposition into AAO templates. Structure and morphology of fabricated nanowires reveals the formation of nanowires without existence of any impurity phase. Magnetic analysis briefly describes magnetization reversal mechanisms of nanowires by measurement of angular dependent coercivity for core and core-shell nanowires. It is found that two main vii mechanisms; curling and coherent rotation reversal modes describe the magnetization reversal mechanism at room temperature. Furthermore, angular dependence of squareness shows that easy axis of Co core and core shell nanowires lies along perpendicular to the wire axis whereas, for Ni and Fe nanowires easy axis is along parallel to the wire axis.