By Muhammad Faisal Shafiq, Muhammad Ali Ashraf, Umair Mehmood and Asad Rashid
UMT. School of Professional Advancement
MS
University of Management and Technology
Private
Lahore
Punjab
Pakistan
2017
Completed
124 . CD
English
English; Call No: TP 005.74677 TEX-
2021-02-17 19:49:13
2023-01-06 19:20:37
1676713953629
سی حرفی ۔۴
(دوہرے بیت وچ، رسال پور۱۹۹۵)
الف
آس نہیں ٹُٹدی، تے جند نہیں چھٹدی، وچ دلیلاں پئیاں تے مر گئیاں
تیز نگاہواں، خونی مژگاں، بہہ جگر وچ گئیاں، روندی پئیاں
ہجر فراق برہوں دی سولی، سرتاں مول نہ رہیاں، ہوشاں گئیاں
آکھ حنیف نہ چین دلے نوں، عشقے نے لٹ لیاں عقلاں گئیاں
ب
بس کر ماہی تے پا نہ پھاہی، اساں ونجناں کیچ ضرور اے، دل مجبور اے
وطناں توں اساں چا چت چائے، انج پایا عشق فتور اے، ماہی مغرور اے
ملساں جھوک سجن دی جا کے، بھانویں پینڈا دور اے، وانگ تندور اے
مر مر یار حنیف نوں پایا، کیتا پیش حضور اے، چکنا چور اے
ت
ترس نہ آیا مینڈا حال ونجایا، دل ہویا وانگ کباب اے، باہجھ حساب اے
کر کر آہیں بلدیاں بھاہیں، ہوئی روح ڈاہڈی بے تاب اے، حال خراب اے
صورت دلبر دی لاثانی، چہرہ نقش کتاب اے، لا جواب اے
حسن حنیف ہے فانی ہر شے،وہم خیال تے خواب اے، مثل حباب اے
ث
ثابت قدم تے صدق چنگیرا، پاسیں دس منزل دی، نیت پھل دی
ہمت مرداں دی کم کر دی، فتح سنیہے گھل دی، آس مچلدی
کر کر یاد سجن نوں ہر دم، رکھاں تاہنگ وصل دی، کاتی چل دی
مار حنیف مکایا نیناں، دھاری تیز کاجل دی، جان نہ جھلدی
ج
جدوں دا ماہی گیا، میکوں گیاں بھل تکراراں، منیاں ہاراں
وچھڑی کونج وانگوں کرلاواں، تے روندی زار و زاراں، چیکاں ماراں
رُت خزاں دی، غم دا موسم، گزریاں موج بہاراں، لالہ زاراں
بھُج مکئی حنیف ہسیندی، اکھیں برسن باراں، پین پھوہاراں
ح
حوالے رب دے کر کے، ٹھیل دتے نے بیڑے، چپو گیڑے
آس اللہ دی مہر محمدؐ، آئے منزل نیڑے، مکے جھیڑے
جھوک سجن دی نیڑے آئی، کدھی لگے بیڑے، رب نبیڑےتوظيف وسائل الاتصال الحديثة في تعليم اللغة العربية
The Arabic language is the language of the Holy Quran, which has become an immortal language because of the immortality of the Holy Quran as it says: "Surely We have revealed the Reminder and We will most surely be its guardian." It is one of the most widely spoken languages in the world, especially since the language is the means of communication among the peoples of the world. Communication and technological techniques in learning and teaching the Arabic language taking into account the elements of the educational process (student, teacher and curriculum), according to the requirements of the age, and the development of the mechanisms of teaching the Arabic language with modern technologies that keep up with the times and developments. The aim of the research is to explain the impact of modern means of communication on the teaching of the Arabic language according to several axes: definition of the language, definition of the language in Arabic and the strategy of its publication, the definition of the modern means of communication and their types in the teaching of the Arabic language. The analytical approach will be used in this study. The researcher concluded at the end of this study to prove that the Arabic language faces many challenges in light of the great progress of the modern means of communication and technical progress; and that there are many obstacles in the use of educational technology in the teaching of the Arabic language, which prevents the achievement of the objectives of education. Solutions to this problem are, thus, suggested so as to improve the Arabic language and maintain its position among the languages of the world. Impact of Drinking Water Contamination Caused by Hattar Industrial Estate on Health and Household Utility
Impact of Drinking Water Contamination Caused by Hattar Industrial Estate on Health and Household Utility Economic activity of industry is posing a serious threat to the health and lives of communities living around. The compromised and unaware behavior of the people is affecting the human health and life and its impact spreads from individual to society in various dimensions. This multidisciplinary study attempts to identify, quantify and analyze the problem of industrial wastewater contamination into the drinking water of the communities and its impact on health and utility at household level. The study is based on primary data and in total 950 households interviewed and 305 drinking water samples collected from area affected by Hattar Industrial Estate (HIE) in Pakistan. The data is collected from two affected villages (Dingi and Motian) situated on the bank of industrial wastewater channel and from one reference village (Khanpur) located upstream with the same socio-economic characteristics as target villages. The study used Geographical Information Systems (GIS), epidemiology, environmental sciences and economic approach to analyze data. Based on laboratory tests, in drinking water of target villages, lead and Nickel is found above the guideline values of the World Health Organization (WHO). Single difference approach of with and without is adopted to analyze its impact. The associated diseases in both selected villages found to be high blood pressure, lipominingocele, renal disease, black gums, skin and joint pains. The statistical relationship between the contaminants and diseases was positive. Other variables of high significance included location, pollution awareness and perception of risk. Based on the principle of household‘s utility maximization three demand equations were estimated: 1. demand for health status, 2. Demand for mitigating activities and 3. Demand for avertive activities. The three demand equations are quantified in terms of marginal willingness to pay; opportunity cost of avertive measures and leisure; economic cost of water pollution; and welfare loss to the community. Marginal willingness to pay is estimated as Rs. 4142.03/- and Rs. 819.6/- per household/per annum for the target villages of Dingi and Motian respectively. Total opportunity cost of avertive measures and leisure for Dingi xi was Rs. 7955/- where for Motian Rs.4260/-. Total economic cost for Dingi and Motian was Rs.11889/- and Rs.10442 per household per annum respectively. The welfare loss to the community due to industrial water contamination was calculated as Rs. 5.8 million per annum for Dingi where Rs. 0.2 million per annum for Motian. The total welfare loss due to water contamination in both selected villages was Rs.6 million per annum. This welfare quantification, if extrapolated to other villages situated on the wastewater channel, can result in high monetary loss to the community. This monetary loss is in addition to the physical and psychological sufferings associated with diseases. The findings of the study cannot be generalized for all pollutants or all locations since it is based on data collected from households affected by heavy metal water contamination caused by HIE in Pakistan. However the majority of developing countries are facing similar types of problems and the results of this study can be helpful in the choice of better policy options. The results suggest that apart from environmental pollution, the economic and behavioral factors also contribute to the prevalence of disease. Therefore, policy initiatives should be focused on specific issues such as decisions on the location of industrial estates; inclusion of environmental awareness in the formal education; motivation to the community for participation in government or Non Government Organization(NGO) run programs for environmental awareness; and adoption of aversion and mitigation measures to save the communities from harmful effects of pollution.