Search or add a thesis

Advanced Search (Beta)
Home > Role of mutual fund industry in financial sector of Pakistan

Role of mutual fund industry in financial sector of Pakistan

Thesis Info

Author

Abid Ullah

Supervisor

Chaudhry Mazhar Hussain

Department

Department of Accounting and Finance

Program

MBA

Institute

International Islamic University

Institute Type

Public

City

Islamabad

Province

Islamabad

Country

Pakistan

Thesis Completing Year

2015

Thesis Completion Status

Completed

Page

v, 26

Subject

Accounting & Finance

Language

English

Other

MA/MSC 657.48 ABR

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676723575593

Similar


Loading...
Loading...

Similar Books

Loading...

Similar Chapters

Loading...

Similar News

Loading...

Similar Articles

Loading...

Similar Article Headings

Loading...

اتفاق وچ برکت

اتفاق وچ برکت

اک دفعہ دی گل اے کہ اک پنڈ وچ اک بہت غریب آدمی رہندا سی۔ اوس دے تن پتر سن۔ اوہدے پتر بہت فرمانبردار سن۔ اوہناں دا پیو اوہناں نوں جو کجھ آکھدا اوہ کردے سن۔ اک دن اوہناں کول کھاون نوں کجھ وی نئیں سی۔ اوہناں دے والد نے آکھیا۔ چلو جنگل چلدے آں۔ کجھ جنگلی پھل اکٹھے کر دے آں تے کجھ شکار، اوہناں دے والد نے اپنے وڈے منڈے نوں آکھیا کہ توں جنگل وچ جا کے لکڑیاں اکٹھیاں کر کے لیا۔ دوجے منڈے نوں آکھیا کہ توں اگ لے کے آ۔ جد کہ تیجے منڈے نوں پانی لین لئی گھل دتا۔ اوہ تینوں چلے گئے تے آپ اک درخت تھلے آ بیٹھا۔

اوس درخت اتے ہنساں دا اک جوڑا رہندا سی جو ایہہ سارا کجھ ویکھ رہیا سی۔ ہنس اوہدے کولوں پچھداد اے کہ توں ایہناں چیزاں دا کیہ کرنا ایں۔ تیرے کول پکاون لئی کوئی چیز نہیں۔ ایہہ گل سن کے اوہ جواب دیندا اے کہ اج تہانوں پکانا ایں۔ ہنس آکھدا اے کہ ساہنوں نہ پکا۔ تینوں اک خزانے بارے دسدے آں۔ ایہہ گل سن کے اوہ خوش ہو جاندا اے۔ ہنس آکھدا اے کہ ایس درخت دے تھلے اک بہت وڈا خزانہ دفن اے۔ تسی اوہ کڈھ کے اپنی ضرورت پوری کر لو۔ اوہ بندہ اپنے تنے پتراں نال خزانہ کڈھ دا اے تے بہت سارے پیسے، ہیرے، چاندی تے سونا لے کے گھر آندا اے۔

گھر آ کے اوہ اپنے منڈے نوں آکھدا اے کہ گوانڈھیاں کولوں تکڑی منگ کے لیا تاں جے خزانے نوں تولیا جا سکے۔ گوانڈھی بڑے حیران ہوندے نیں۔ اوہ ویکھنا چاہندے نیں کہ تکڑی وچ کیہ تولیا جا رہیا اے؟ اوہ تکڑی دے تھلے گوند لاہ دیندے نیں۔ خزانہ تولدے ہوئے کجھ...

METODE PARTISIPATIF, CERAMAH, DAN DISKUSI PADA AL QURAN SURAT AS-SHAFFAT AYAT 102

This research is motivated by a phenomenon of poor communication between parents and children. In the world of education, there was a lack of approaches and methods used by educators in providing subject matter so that what was delivered by the educator did not achieve the expected goals. The problem in this research is how the participatory methods, lectures and discussions contained in the As-Shaffat letter verse 102. The purpose is to describe the educational methods contained in the As-Shaffat letter verse 102 in the form of participatory methods, lecture methods and discussion methods. This research is a Library Research. The method of interpretation used in this study is the method of interpretation of maudhu 'or thematic methods which interpret verses of the Qur'an based on specific themes. The method used in the explanation of the verse is the method of tahlili or analysis that explains the verses of the Qur'an by examining its aspects and revealing its whole purpose. The results of study and analysis, as well as data processing from various sources, obtained the first result that the educational method contained in the As-Shaffat verse 102 is a participatory method used by educators, which involves all elements in the educational process especially students, with active participation from participants students will facilitate educators in delivering the material to be given. Both lecture methods, in conveying information, especially learning materials can be done with the lecture method. An educator prioritizes good attitudes so that the material can be accepted by students. The third method of discussion is to involve students in giving their opinions. With the discussion in learning, the lessons will become warmer and will train students to be more courageous in opinion.

Γ-Al2o3 Supported Bimetallic Catalysts: Synthesis and Applications for Hydrazine Decomposition

The main objective of the present research work was to explore the potentially unique properties and possible synergistic effect in supported bimetallic catalysts which were synthesized in two stages by adopting simple route. γ-Al2O3 granules were selected as a support material and prepared by sol gel process followed by oil drop method for granulation purpose. Co was chosen as low cost, basic metal and four noble metals (M): Ir, Ru. Pt, and Pd were selected as promoters. Four series of γ-Al2O3 supported bimetallic catalysts, (CoMx/γ-Al2O3) were synthesized via wet impregnation by loading ~ 20 wt% of Co metal and 0-5 wt% of promoter metals onto γ-Al2O3 in each series. On the basis of mole fraction (x) of promoter metals, the catalyst series were named as CoIrx/γ-Al2O3, CoRux/γ-Al2O3, CoPtx/γ-Al2O3, and CoPdx/γ-Al2O3. The prepared catalysts were characterized by various techniques i.e., Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), scanning electron microscopy (SEM) along with EDX analysis, transmission electron microscopy (TEM), surface area analysis, and temperature programmed reduction/oxidation (TPR/TPO) processes. In order to explore the diverse role, the synthesized catalysts were applied for hydrogen generation from two model reactions i.e., catalytic decomposition of hydrazine in a self-designed reactor and electro-oxidation of hydrazine by cyclic voltammetry (CV) technique. The catalytic decomposition of hydrazine (0.5 M) was performed at 25 oC and volume of gaseous products (H2+N2) was measured by a gravimetric water displacement method. The catalytic efficiency was evaluated in terms of turn over frequency (TOF) and selectivity (X) towards hydrogen generation. The optimal composition from each series was selected on the basis of activity and selectivity. Hydrazine decomposition reaction was further tested at various temperatures and activation energy (Ea) values were calculated from the kinetic profiles using Arrhenius equation. In particular, the kinetic studies depicted an increase in rate of hydrogen generation with an increase in temperature up to 65 oC. The effect of support was also studied by loading the selected optimal composition on various supports including MgO, ZnO, SiO2, and zeolite; (γ-Al2O3 proved to be the best iv support candidate). For electrochemical studies, glassy carbon electrode was modified with each catalyst powder by drop-casting and used for investigating electro-oxidation of hydrazine analyte in 0.1 M phosphate buffer solution (pH 7.2). Cyclic voltammetry was performed to elucidate the redox behavior of synthesized electroactive materials. A linear current-voltage response was observed on the modified electrodes in each catalyst series. The stability and reproducibility of all the catalytic materials was substantiated by the catalytic activity as measured in many successive cycles. All bimetallic catalysts showed potentiality for hydrogen generation and electrochemical applications. The combination of high TOF and selectivity for hydrogen generation as well as prominent current response in CV studies rendered CoIr0.081/γ-Al2O3, CoRu0.11/γ-Al2O3, CoPt0.034/γ-Al2O3, and CoPd0.093/γ-Al2O3 catalysts as optimal compositions in respective series. Out of these optimal compositions, CoPt0.034/γ-Al2O3 bimetallic catalyst exhibited maximum performance for hydrogen generation from hydrazine decomposition as well as for electro-oxidation of hydrazine. CoPt0.034/γ-Al2O3 catalyst presented 100% H2 selectivity with TOF of 190 h-1, and activation energy of 29 kJ mol-1. All bimetallic catalysts also showed robust electrocatalysis and presented good peak current response for electro-oxidation of hydrazine. These results reflected better alloying effect between Co and Pt metals in addition to presence of more active sites and better metal dispersion. The electroanalytical activity was in the order of: CoPt0.034/γ-Al2O3 > CoPd0.093/γ-Al2O3 > CoIr0.081/γ-Al2O3 > CoRu0.11/γ-Al2O3, with peak current values of 183.2 μA, 59.4 μA, 50.3 μA, and 46.1 μA, respectively. The maximum performance of the optimal catalysts can be attributed to tuning of catalyst’s properties by synergistic effect of two metals, better metal dispersion, metal-support interactions besides the excellent features of γ-Al2O3 granular support as confirmed by XRD, H2 chemisorption, BET, SEM, TEM, TPR and TPO analyses. In addition, noble metals in low contents promoted the activity and selectivity tremendously, and were quite suitable for making the process cost effective for selective decomposition of hydrazine, a toxic material into clean future energy fuel (H2 + N2).