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International business barriers their ramedies and impact on major economics

Thesis Info

Author

Umair Bakhsh

Supervisor

Habib Hussain Khan

Department

Department of Accounting and Finance

Program

BS

Institute

International Islamic University

Institute Type

Public

City

Islamabad

Province

Islamabad

Country

Pakistan

Thesis Completing Year

2011

Thesis Completion Status

Completed

Page

33

Subject

Accounting & Finance

Language

English

Other

BS 658.15 UMI

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676721763776

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کردار

جزئیات نگاری

                ناطق نے ناول میں جزئیات نگاری سے کام لیاہے عصری دور میں جزئیات نگاری کواتنی اہمیت نہیں دی جاتی۔مصنف نے اس کے برعکس اپنے ناول’’کماری والا‘‘میں جزئیات نگاری کو بڑھا دیا ہے اور ہر ایک واقعے کی جزئیات کو بیان کیا ہے۔اس طرح ایک طرف تو تحریر میں خوبصورتی پیدا ہوئی پر ساتھ ساتھ کہانی غیر ضروری طوالت میں چلی گئی۔ وہ اپنی زندگی میں جن حالات سے گزر چکے ہیں انھوں نے ان سب کو بتانے کی کوشش کی ہے۔ایک ایک پل کو اس طرح بتایا ہے کہ قاری’’ضامن‘‘کی زندگی کو جزئیات نگاری کی وجہ سے مکمل جانتا ہے وہ کب ،کس پل ،کہاں ،کیا کرتا ہے سب باتوں کو ناطق نے تفصیلاًبیان کیا ہے۔بات یہ بھی درست ہے کہ جب قاری ناول پڑھتا ہے تو اسے خود حالات و واقعات کو مکمل جان لینے کی دھن ہوتی ہے۔اس لیے اگر مصنف نے ان حالات کو مدنظر نہ رکھا ہو تا تو ناول صرف ایک بیانیہ کہلاتا۔جزئیات نگاری قاری کی دلچسپی کو بڑھاتی ہے۔مصنف نے بھی ناول میں مکمل ماحول کا نقشہ قاری کے ذہن میں ابھارا ہے اپنی جزئیات نگاری کی مدد سے یہ قاری کیلئے انہماک کا ذریعہ ہے۔

مقصد حیات

                ہم جو بھی پڑھتے ہیں اس سے متاثر ضرور ہوتے ہیں۔اسی طرح ناول نگار بھی کسی زندگی کی عکاسی کرتاہے اور جس زندگی کی عکاسی کر رہا ہوتا ہے وہ مقصد سے خالی نہیں ہوتی۔ناول نگار قاری کیاحساسات کے بارے میں آگاہ ہوتا ہے۔اس لیے وہ انسانی نفسیات کو سمجھتے ہوئے ایک کہانی تخلیق کرتا ہے۔ایک استاد کی طرح اپنی بات کو قاری کے ذہن تک پہنچانے کا مقصد صرف اور صرف یہ ہوتا ہے کہ ایک خاص قسم کا فلسفہ اس کے ذہن میں زبردستی ڈالا جاتا...

رسول اللہ ﷺ کے اشارات: معنوی اور صوری تفہیم

The of life Holy source primary Prophet Muhammad (صلى الله عليه وسلم) is a guidance for Muslim Ummah. Prophetic guidance is not restricted to theverbal instructions only but he has at times used the Gestures to expressand explain the things. This is a significant area of Hadith sciences whichHis. (صلى الله عليه وسلم) Prophet the of Language body and gestures the with dealscompanions (R. A) not only preserved his verbal instructions, dictatedwords, silent approvals, and actions of their beloved Prophet (ﷺ) but theyalso preserved his (ﷺ) gestures and body language. This paper discussesthe Gestures of the Holy Prophet with special reference to their virtual andvisual interpretations. The purpose of this research is to critically analyzethe Gestures of the Holy prophet and their importance in communicatingthe message to the audience. The method used for this research paper isdescriptive and analytical. The analysis of the prophetic traditions revealed(صلى الله عليه وسلم) Prophet where Hadith in examples significant been have there thatused the gestures to explain his words and thoughts which helped inconveying the message. Visual explanations and diagrams of some of thegestures have also been included in the article to explore and highlight theirsignificance. This article reveals that use of gestures is helpful incommunicating the message to the audience, and this aspect of Sīrah mustbe utilized during interactive sessions and verbal discussions. Furthermore, current research paper recommends that adequate body language andGestures are the vital means of teaching, tablīgh, and successfulcommunication in the light of Sīrah studies.

Biodegradability of Synthetic Plastics Polystyrene and Styrofoam by Fungal Isolates

Polystyrene is a rigid plastic that is commonly used in crystalline and foamed form. Biodegradation of polystyrene is very slow in natural environment and it persists for longer period of time as solid waste. The aim of the study was to investigate the biodegradation process of polystyrene and explore the ways to enhance the biodegradation process. Soil burial method was used to isolate microorganisms. The plastic films recovered from soil after 8 months were incubated on mineral salts media (MSM) agar plates for 3 months to get the growth of only those microorganisms that were able to grow with polystyrene for longer time. Six fungal and five bacterial stains were isolated and identified. Three fungal isolates were selected on the basis of biodegradability of polystyrene films in shake flask transformation experiments analysed by Fourier transform Infrared (FTIR) spectroscopy. The selected fungal strains were characterized taxonomically on the basis of sequence homology of conserved regions of 18S rRNA and were identified as Rhizopus oryzae NA1, Aspergillus terreus NA2 and Phanerochaete chrysosporium NA3. The 18S rRNA sequences were deposited in NCBI database with accession numbers in Genbank FJ654430, FJ654431 and FJ654433 for strain NA1, NA2, NA3 respectively. The biodegradation of polystyrene was studied by CO 2 evolution test (Sturm test) all the isolated showed higher CO 2 levels in the test as compared to control showing effective mineralization of polystyrene. Biodegradation studies in liquid media with polystyrene films, expanded polystyrene (EPS) films and beads were conducted in the static and shake flask (120rpm) fermentation experiments at 30 oC. Scanning electron microscopic (SEM) analysis showed that the fungal isolates were able to establish mycelia on the polymer surface and maximum growth was observed in glucose added mineral salts media. FTIR spectra of the treated films showed increase in absorption spectra around 536 cm -1 , 748 cm -1 (mono substituted aromatic compound), 1026 cm -1 , 1450 cm -1 , 1492 cm - 1 (C=C stretching vibration of aromatic compounds), 2916 cm -1 , 3400 cm -1 (aryl-H stretching vibrations). Major changes were observed in 1000-1700 cm -1 and 3400 cm -1 region which indicated depolymerisation and degradation into monomers. xiiMolecular weight distribution was studied by gel permeation chromatography (GPC). The weight average molecular weight and number average molecular weight increased in the samples of polystyrene films and EPS beads treated with the fungal isolates as compared to control while decreased in case of expanded polystyrene. The polydispersity decreased in polystyrene and increased in EPS films. In proton nuclear magnetic resonance ( 1 H-NMR) spectra of polystyrene and expanded polystyrene intensities of the signals were increased in treated samples as compared to control but treated samples did not show any significant change in the spectra. The degradation products of the polystyrene and expanded polystyrene were analysed by HPLC. 1-phenyl-1,2-ethandiol, 2-phenylethanol and phenyacetaldehyde and styrene oxide, which were oxidation degradation products of monomer styrene, were detected in most of the cases. 1-phenyl-1,2-ethandiol was detected with highest concentration of 21.3 ppm in media sample of polystyrene incubated with A. terreus NA2 in shake flask and 34.7 ppm with P. chrysosporium NA3 in static conditions. Polystyrene films were given pretreatment of UV irradiation (1-2 hr. at λ 254 nm) and heat (60 ̊C and 80 ̊C for 1 hour) and then biodegradation was studied. UV pretreatment of 2 hours showed enhancing effect on biodegradation by fungal isolates indicated a decrease of weight average molecular weight in the treated samples. Heat pretreatments did not show enhancing effect on biodegradation except P. chrysosporium NA3 treatment of heat pretreated polystyrene films. Enhancing effect of glucose on biodegradation of polystyrene films was observed in FTIR spectral analysis, when glucose was used as additional carbon source in mineral salts media, The soil buried films of polystyrene for six months showed very significant degradation in FTIR and GPC analysis. The scanning electron micrographs of the treated films from all the samples also confirmed the biodegradation process by showing some changes in structure and colonization of fungi on the films. The selected fungal strains are capable of utilising polystyrene as a sole carbon source and have potential to be used for polystyrene biodegradation in the environment.