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Effects of modernization on social and psychological problems of old age people.

Thesis Info

Author

Laiba Zubair

Supervisor

Amber

Institute

International Islamic University

Institute Type

Public

City

Islamabad

Province

Islamabad

Country

Pakistan

Thesis Completing Year

2015

Thesis Completion Status

Completed

Page

73

Language

English

Other

BS 305.260973 LAE

Added

2021-02-17 19:49:13

Modified

2023-01-06 19:20:37

ARI ID

1676722337769

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مولانا حافظ محمدیوسف کوکن مدراسی

افضل العلماء حافظ محمد یوسف کوکن مرحوم
تار کے ذریعہ یہ افسوسناک خبر ملی کہ دارالمصنفین کی انتظامیہ کے رکن اور مدراس یونی ورسٹی کے سابق صدر شعبہ عربی و فارسی، افضل العلماء حافظ محمد یوسف کو کن کا انتقال ۶؍ اکتوبر کو مدراس میں ان کے گھر پر ہوگیا، اِنا ﷲ واِنا الیہِ راجعُون۔
انہوں نے سرزمین مدارس میں مشرقی و دینی علوم کی قابل قدر خدمت جس خاموشی، محنت اور انہماک سے انجام دی اس کی وجہ سے برسوں ان کی کمی محسوس کی جائے گی۔ وہ ۴؍ نومبر ۱۹۱۵؁ء مدراس سے تقریباً ۹۵ میل دور ایک مردم خیز قصبہ مینمبور میں پیدا ہوئے یہ قصبہ مشہور قلعہ جبنحی سے متصل ہے، اس مضبوط قلعہ کو مسلمان فاتحین نے کئی بار اپنے قبضہ میں لیا، آخری بار نواب سعادت اﷲ خاں نے ۱۱۲۵؁ھ میں اس پر قبضہ کیا، چونکہ ان کا تعلق نوائط سے تھا اس لیے اکثراہل نوائط وہاں جاکر آباد ہوئے، مینمبور قصبہ کی ساری آبادی نائط مسلمانوں کی ہے جو اپنے حسب نسب، عزوشرف، دینی اور دنیوی وجاہت اور اپنے بعض مخصوص رسم و رواج کی وجہ سے جنوبی ہند میں امتیازی شان رکھتے ہیں، یہ لوگ شافعی المسلک ہوتے ہیں لیکن مینمبور کے نوائط عام طور سے حنفی ہیں، کوکن خاندان بھی حنفی المسلک ہے، گویہ خاندان عرصہ سے مدراس میں آباد ہے لیکن اس کی مادری زبان اردو ہے اور نصف صدی قبل اس کی علمی زبان فارسی تھی۔
کوکن مرحوم نے جامعہ دارالسلام عمر آباد میں تعلیم حاصل کی ، بعد میں انہوں نے گورنمنٹ مسلم کالج مدراس سے افضل العلماء اور منشی فاضل کی سند حاصل کی، دارالسلام عمرآباد کے مقاصد میں یہ بات بھی تھی کہ جامعہ کے طلبہ میں عربی اور فارسی کے ساتھ اردو کا اعلیٰ ذوق اور تصنیف وتالیف کا سلیقہ و ملکہ...

صلح حدیبیہ: آنحضرت کی ﷺ سیاسی، معاشرتی اور دفاعی حکمت عملی

Hazrat Muhammad (SAW) is the last Apostle to human beings. He was gifted with a divine Deen having complete code of life. Every field of life has been discussed in the Holy Quran and Sunnah of the Prophet r. As an Apostle, head of the state and army commander, He guided the mankind and provided an excellent example in all the perspectives of life. As a commander of the Islamic forces, the Holy Prophet r fought twenty seven Ghazwat after migration to Madina. In Zeqaida 6 AH, during the pact of Hudaibia a complete turn was taken by Muslims. After this event, the Muslim army role changed to offensive rather than defensive. Immediately, after the pact, the Holy Prophet r attacked on Khyber in Muharram 7th AH, while the whole Hijaz region was captured during the Ghazwa Fath-i-Makkah. In this article, the strategy and tactics employed by the Holy Prophet r during Hudaibia truce have been discussed. These tactics are useful and beneficial in modern era warfare also. As an ideal for all the Ummah, lessons should be extracted by the commanders to defend their motherland and ideological boundries.

Quantification of Aerosol Properties in Four Locations in Indo-Gangetic Plain: Implications for Climatic Impacts

This thesis provides an intercomparison of aerosol optical depth (AOD) retrievals from satellite-based MODerate resolution Imaging Spectroradiometer (MODIS), Multiangle Imaging Spectroradiometer (MISR), Ozone Monitoring Instrument (OMI), and Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) instrumentation at four sites with different aerosol environments (Karachi, Lahore, Jaipur, and Kanpur) in Indo-Gangetic Plain (IGP) during 2007-2013, with validation against AOD observations from the ground-based AERosol RObotic NETwork (AERONET). Both MODIS Deep Blue (MODISDB) and MODIS Standard (MODISSTD) products were compared with the AERONET products. The MODISSTD-AERONET comparisons revealed a high degree of correlation for the four investigated sites at Karachi, Lahore, Jaipur, and Kanpur, the MODISDB-AERONET comparisons revealed even better correlations, and the MISR-AERONET comparisons also indicated strong correlations, as did the OMI-AERONET comparisons, while the CALIPSO-AERONET comparisons revealed only poor correlations due to the limited number of data points available. We also computed the Root Mean Square error (RMSE), Mean Absolute Error (MAE) and Root Mean Bias (RMB). Using AERONET data to validate MODISSTD, MODISDB, MISR, OMI, and CALIPSO data revealed that MODISSTD data was more accurate over vegetated locations than over un-vegetated locations, while MISR data was more accurate over areas closer to the ocean than over other areas. The MISR instrument performed better than the other instruments over Karachi and Kanpur, while the MODISSTD AOD retrievals were better than those from the other instruments over Lahore and Jaipur. We also computed the Expected Error Bounds (EEBs) for both MODIS retrievals and found that MODISSTD consistently outperformed MODISDB in all the investigated areas. High AOD values were observed by the MODISSTD, MODISDB, MISR, and OMI instruments during the summer months (April-August); these ranged from 0.32 to 0.78, possibly due to human activity and biomass burning. ix In contrast, high AOD values were observed by the CALIPSO instrument between September and December, due to high concentrations of smoke and soot aerosols. The variable monthly AOD figures obtained with different sensors indicate overestimation by MODISSTD, MODISDB, OMI, and CALIPSO instruments over Karachi, Lahore, Jaipur and Kanpur, relative to the AERONET data, but underestimation by the MISR instrument. The examination of the distribution and spectral behavior of the optical properties of atmospheric aerosols in the IGP were also being performed using an AERONET. The AOD and Angstrom Exponent (AE) results revealed a high AOD with a low AE value over Karachi and Jaipur in July, while a high AOD with a high AE value was reported over Lahore and Kanpur during October and December. The pattern of the aerosol Volume Size Distribution (VSD) was similar across all four sites, with a prominent peak in coarse mode at a radius of 4.0–5.0 μm, and in fine mode at a radius of 0.1–4.0 μm, for all seasons. On the other hand, during the winter months, the fine-mode peaks were comparable to the coarse mode, which was not the case during the other seasons. The Single Scattering Albedo (SSA) was found to be strongly wavelength dependent during all seasons and for all sites, except for Kanpur, where the SSA decreases with increasing wavelength during winter and post-monsoon. It was found that the phase function of the atmospheric aerosol was high at a small angle and stable around a scattering angle of 90°–180° at all sites and during all seasons. Spectral variation of the Asymmetry Parameter (AP) revealed a decreasing trend with increasing wavelength, and this decreasing trend was more pronounced during the summer, winter, and post-monsoon as compared to pre-monsoon. Furthermore, extensive measurements suggest that both Real Refractive Index (RRI) and imaginary Refractive Index (IRI) show contrasting spectral behavior during all seasons. The analysis of the National Oceanic and Atmospheric Administration (NOAA) Hybrid Single Particle Lagrangian Integrated Trajectory (HYSPLIT) x model back trajectory revealed that the seasonal variation in aerosol types was influenced by a contribution of air masses from multiple source locations. Discrimination of aerosol types is essential over the IGP because several aerosol types originate from different sources having different atmospheric impacts. We analyzed a seasonal discrimination of aerosol types by multiple clustering techniques using AERONET data sets for the study period over observational sites. We discriminated the aerosols into three major types; dust, biomass burning and urban/industrial. The discrimination was carried out by analyzing different aerosol optical properties such as AOD, AE, SSA, RRI, Extinction Angstrom Exponent (EAE), Absorption Angstrom Exponent (AAE) and their interrelationship to investigate the dominant aerosol types and to examine the variation in their seasonal distribution. The results revealed that during summer and pre-monsoon, dust aerosols were dominant while during winter and post-monsoon prevailing aerosols were biomass burning and urban industrial, and the mixed type of aerosols were present in all seasons. These types of aerosol discriminated from AERONET were in good agreement with CALIPSO measurement. Finally, the long term radiative impacts of aerosol on regional climate of IGP were studied. For this purpose, the spatio-temporal variations of Shortwave Direct Aerosol Radiative Forcing (SDARF) and Shortwave Direct Aerosol Radiative Forcing Efficiency (SDARFE) at the Top Of Atmosphere (TOA), SURface (SUR) and within ATMosphere (ATM) along with atmospheric Heating Rate (HR) were calculated using Santa Barbara DISORT Atmospheric Radiative Transfer (SBDART) model. It was observed that the monthly averaged SDARFTOA was either positive or negative, whereas SDARFSUR were found to be negative leading to positive ATM during all the months over all sites. The seasonal analysis of SDARF revealed that SDARFTOA and SDARFSUR were negative during all the seasons. The increment in the net atmosphere forcing lead to maximum HR in November-December and May, presenting the strongest atmospheric absorption. Similar to SDARF, the monthly averaged SDARFETOA were xi found to be either positive or negative, while SDARFESUR were negative throughout the months resulting in the more enhanced positive SDARFEATM. Generally, the highest values of SDARFETOA were observed during the winter and lowest during the summer over all the sites except for Karachi where the lowest TOA efficiency was noted in pre-monsoon. Accordingly, the highest values of SDARFESUR were observed during the winter and minimum during the summer over the rest of the sites. The SDARFE at ATM were observed to be maximum during pre-monsoon and lowest during the summer over Karachi, Lahore and Kanpur, while over Jaipur, maximum SDARFE at ATM were noted during winter and minimum during summer. Additionally, to compare the model estimated forcing against AERONET derived forcing, the regression analysis of AERONET-SBDART forcing were carried out. It was observed that SDARF at the SUR and TOA showed relatively higher correlation over Lahore, moderate over Jaipur and Kanpur and lower over Karachi.