لغوی معنی :خون بہا ادا کرنا دیت کہلاتا ہے ،جیسا کہ ابن فارس لکھتے ہیں
الواو والدال والحرف المعتل: ثلاثُ كلماتٍ غير منقاسة: الأولى وَدَى الفرسُ ليَضرِبَ أو يبول، إذا أدْلَى. ومنه الوَدْي: ماءٌ يخرج من الإنسان كالمَذْي. والثانية: وَدَيْتُ الرّجلَ أُدِيهِ دِيةً.والثالثة: الوَدِيُّ: صِغار الفُسلان.وإذا هُمز تغيَّرَ المعنى وصار إلى بابٍ من الهَلاك والضَّياع. يقولون: المُوَدَّأة المَهْلَكة، وهي على لفظ المفعول به. ويقولون: ودَّأْتُ عليه الأرضَ، إذا دَفَنْتَه. ووَدَّأ بالقوم، إذا أرْدَاهم۔ 162
"مادہ " وَدَیَ " اور اس کے تین معنی ہیں جو جدا جدا ہیں پہلا معنی یہ ہے کہ گھوڑے نے ٹانگوں کو اکٹھا کیا کہ وہ مارے یا پیشاب کرے اور اسی سے ودی ہے جو انسان سے نکلتی ہے مذی کی طرح اور دوسرا معنی ہے کہ میں نے فلاں شخص کو خون بہا ادا کیا اور تیسرا معنی ہے دودھ پینے والے بچے اور جب یہ مہموز سے آئے تو اس کا معنی تبدیل ہو جائے گا یعنی ہلاک اور ضائع کرنے کے معنی میں آئے گا ہلاک ہونے والی چیز کو المھلکۃ کہتے ہیں۔یہ مفعول بہ کے وزن پر ہے اور کہتے ہیں کہ میں نے اسے زمین میں دفن کردیا اور ودا بالقوم کا معنی قوم کو ہلاک کر دیا ۔ "
قتل کے بدلے خون بہا ادا کرنے کو دیت کہتے ہیں، جیسا کہ ابن منظور کے نزدیک دیت سے مراد
"الدِّيةُ واحدة الدِّيات والهاءُ عوض من الواو تقول ودَيْتُ القَتِيلَ أَدِيةَ ديةً إِذا أَعطيت دَيَتَه واتَّدَيْتُ أَي أَخذتُ دِيَتَه وإِذا أَمرت منه قلت دِ فلاناً وللاثنين دِيا وللجماعة دُوا فلاناً۔"163
"الدِّيات کا واحد الدِّيةُ ہے اور ھا واو کے عوض میں ہے جیسے تو کہے کہ میں نے مقتول کا خون بہا ادا کیا ۔میں نے فلاں کی دیت وصول کی اور جب تو دیت دینے کا حکم کرے گا تو مخاطب مفر د کو...
Education play main role in modern society and main purpose of education is to create a society characterized by holiness and reconciliation so that society is filled with a spirit of sympathy, sadness and good will. In no time has the usefulness of education and its spirituality been devalued. Education is recognized as a symbol of the greatness the living nations and civilized society. Educated society reflects patience humble, grateful, fear and the most important habit such as determination and become an integral part of life. Even the educated society is considered to be a true pioneer of courage and human values. Education plays a positive role in empowering the weakest society. On the other hand educated people can think of the happiness and the well-being of humanity due to the light knowledge and their sincere efforts when working in this society so of course this will directly benefit those who are weak and ignorant in the society and the key to maximizing humanity. The light of education should also go to homes that are deprived of wealth and helplessness. It also means abiding by the law showing respect to women and helping the weak. Controlling bad temper and language being polite and following proper etiquette in a gathering is also part of good social behavior. In short good social behavior is living decently, peacefully, and with dignity among others without hurting or disturbing them. Good social behavior helps us live amicably in our society. It promotes good will and understanding among people and cultivates a clean, healthy environment for all citizens
Milk is a complex mixture of fat, protein, carbohydrate, and mineral components and it has been a source of human food since the recorded history. Aflatoxin M 1 is excreted in milk of those lactating animals which have ingested aflatoxin B 1 contaminated feed. Aflatoxin B 1 (AFB 1 ) is metabolized to aflatoxin M 1 in liver and then excreted in milk and urine. Aflatoxin B 1 is a potent carcinogen and aflatoxin M 1 (AFM 1 ), being the metabolite of AFB 1, has toxic properties similar to AFB 1 . Several researches have demonstrated the potential toxicity of exposure to AFM 1 . Aflatoxin M 1 is present in milk and milk products. This study includes the determination of contamination of aflatoxin M 1 in milk and milk products and contamination of aflatoxin B 1 in dairy feed in the Punjab province of Pakistan. The analytical techniques used in the determination of AFM 1 were high performance liquid chromatography (HPLC), fluorometry (using Fluorometer), and enzyme linked immunosorbent assay (ELISA). For the determination of AFB 1 , HPLC was used. Immunoaffinity columns were used to accomplish cleanup step during HPLC and fluorometric determination. A total of 977 samples of milk, cheese, and yoghurt were analyzed for AFM 1 contamination. Whereas a total of 260 samples of feed commodities (concentrate feed, cottonseed cake, wheat bran, bread, paddy straw, and wheat straw) were analyzed for AFB 1 contamination. In the first phase of study 168 sample of raw milk from fourteen districts, were analyzed by using immunoaffinity columns and Fluorometer. All the samples were found contaminated with AFM 1 , however in 96.4% samples the level of contamination was below the US tolerance limit of 0.5 μg/ L. Only 3% samples showed AFM 1 contamination higher than the US tolerance limit. While considering EU maximum permissible limit (0.05 μg/ L), 99.4% samples exceeded this limit. Seasonal effect was also studied on the presence of AFM 1 contamination in milk. ANOVA analysis indicated significant difference (p < 0.01) in AFM 1 concentration in milk in different seasons. The AFM 1 contamination was higher in winter as compared to summer and this was supported by previous studies. During the study of AFM 1 contamination in raw milk taken from different localities, variation in levels of AFM 1 was found in raw milk from different localities in the central areas of the Punjab, Pakistan. Total 480 milk samples of buffaloes and cows xviifrom different localities (urban, semi-urban, and rural) were analyzed by using HPLC with prior clean-up step applying immunoaffinity columns. The percentage of AFM 1 contamination in buffalo and cow milk was 42.5% and 52.5% respectively. In both types of milk, level of AFM 1 contamination was higher in milk samples obtained from urban and semi-urban areas and it was minimal in milk samples taken from rural areas. The AFM 1 contamination in buffalo milk was studied statistically with respect to herd-size variation also. The results showed significant variations with respect to herd-size (F= 6.631, p= 0.001). Milk samples in case of small herd-size (1-5 cattle) and medium herd- size (6-10 cattle) showed higher AFM 1 concentration as compared to large herd-size (more than 10 cattle). Another study was conducted to investigate the AFM 1 contamination in the milk of five mammalian species namely buffalo, cow, goat, sheep, and camel from the area of Faisalabad district of the Punjab province, Pakistan. Analysis was made by using HPLC with fluorescence detection. Immunoaffinity columns, which are based on the principle of affinity chromatography, were used for clean-up purposes. Total 169 milk samples were analyzed. The percentage of AFM 1 contamination in buffalo milk, cow milk, goat milk, and sheep milk was found to be 34.5%, 37.5%, 20%, and 16.7% respectively. AFM 1 contamination was not detected in camel milk in this area. Although there is massive use of fresh milk in Pakistan, but still significant consumption occurs after milk has been processed. As AFM 1 concentration is not affected by normal milk processes, AFM 1 is also present in milk products like cheese and yoghurt. The milk product samples including 80 cheese samples and 80 yoghurt samples were analyzed by using ELISA technique. The percentage of AFM 1 contamination was found to be 87.5% and 70% in cheese and yoghurt samples respectively. Because of the possibility of presence of aflatoxin B 1 , feed plays a major role in the occurrence of aflatoxin M 1 in milk. The monitoring of AFB 1 contamination in dairy feed is compulsory to ensure safety of milk consumers. The study on the contamination of AFB 1 in the dairy feed samples showed high contamination of AFB 1 in cotton-seed cake samples and concentrate feed samples. Total 260 samples of different commodities, used as dairy feed, were analyzed for AFB 1 contamination by HPLC. The average AFB 1 contamination levels in cottonseed cake, concentrate feed, wheat bran, bread pieces, and paddy straw were found to be 242, 176, 98, 23, and 37 μg/ Kg respectively. contamination level was high as compared to US tolerance i.e., 20 μg/ Kg.