سرکار دی اڈیک
تیری راہ وچ ڈھولا میں تے کدوں دی کھڑی
سِک تیری اے ودھیری اکھاں لائی اے جھڑی
ستا اے نصیب میرا پئے گئی جدائی اے
مل جا توں سجنا ایہہ زندگی پرائی اے
بڑی سوہنی سیج میں تاں تیرے لئی سجائی اے
آ جا دل جانیاں توں چھڈ دے اڑی
تیریاں وے راہواں وچ لائیاں اساں پکھیاں
ہر ویلے تاہنگاں وچ رہندیاں نے اکھیاں
دیندیاں نیں طعنے مینوں ول ول سکھیاں
تیرے نال لائی ، جند دکھاں نے پھڑی
میریاں وی لیکھاں وچ لکھیاں سی دوریاں
ربا ہون میریاں مراداں اج پوریاں
سوہنے دے دیدار دیاں ہون منظوریاں
ڈاہڈا اوکھا لنگھدا اے پل تے گھڑی
سائیں ایتھے سوچ کے تے قدم ٹکاونا
قدم سنبھال کِتے تلک ناں جاونا
خلق خدا نوں وی ایہہ گل سمجھاونا
بہہ جا بوہے سجناں دے پا کے مڑھی
The banking industry is critical to the success of any economy since it satisfies societal requirements. A bank is a financial entity that provides its clients with a variety of banking and other financial services. India's banking industry has been grappling with mounting non-performing assets. The rise of Non-Performing Assets has a significant impact on a bank's profitability. This research was undertaken in order to analyze the non-performing assets of a sample of chosen private sector banks in India. For that purpose, the researcher chose the top four private sector banks, namely HDFC bank, ICICI bank, Axis bank, and Indusland bank, based on their net sales from 2016-17 to 2020-21. To analyze non-performing assets in a selected private sector in India, gross non-performing assets (NPAs), net non-performing assets (NPAs), and net profit ratios were chosen. To test the hypothesis, the researcher employed a one-way ANOVA with a significance level of 5%. The study's primary conclusions include that HDFC bank's average GNPA and average NNPA are the lowest in the industry, while ICICI banks are the highest.
Exact solution of Navier-Stokes equations is possible only for very simple flow situations such as unidirectional flows. Due to the nonlinear nature of these equations their analytic solutions are rare and the situation gets worse in the case of unsteady and multidimensional flow problems. In this thesis we report highly accurate and purely analytic solutions to some steady/unsteady multidimensional viscous flows over flat surface. Heat transfer analysis has also been carried out where the flat surface is considered as a stretching sheet. In each case the skin friction and the rate of heat transfer has been reported. The issue of cooling of stretching sheet in the presence of viscous dissipation has been discussed in detail. We have considered multidimensional flows of viscous fluid over a flat plate in different flow situations such as flow over an impulsively started moving plate; flow over a stretching sheet, viscous flow in a channel of lower stretching wall, and the channel flow with lower wall as a stretching sheet in a rotating frame. In all the above mentioned flow situations similarity transformations have been used in order to normalize the problem. The reduced governing equations are then solved analytically. We have used homotopy analysis method to solve the governing nonlinear differential equa- tions. The results are purely analytic and highly accurate. The accuracy of results has been proved by calculating the residual errors and (or) giving the comparison with the existing re- sults. For unsteady flows it is worthy to mention here that our analytic solutions are uniformly valid for all time in the whole spatial domain.