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تیسرا باب: تبلیغی جماعت

تعارف

پہلی جنگ عظیم (۱۹۱۴ء۔ ۱۹۱۸ء) کے بعد جب تحریک خلا فت ناکا م ہو ئی اور جنگ کے وقت کیے گئے کھوکھلے وعدوں کی کلی کھل گئی تو بہت سے مسلما نوں نے سیا ست سے بیزاری کا اظہار کر تے ہو ئے ایسی تنظیموں کے قائم کر نے کا ارادہ کیا جو افراد اور معاشرے کی نشا ۃ ثانیہ کیلئے کر دار اداکر سکیں۔ تبلیغی جماعت بھی ۱۹۲۷ء میں اسی مقصد کے تحت قائم کی گئی[1]۔

مولا نا محمد الیا سؒ (۱۸۸۵ء۔ ۱۹۴۴ء) تبلیغی جماعت کے با نی ہیں۔ جماعت کے قیام کا بنیا دی مقصد یہ تھا کہ مسلما ن اپنے سا تھی مسلما نو ں کو دین کی بنیا دی با تو ں کی تعلیم دیں تاکہ معاشرے میں ایک دینی فضا پیدا ہو جا ئے۔

۱۹۴۴ء میں مولانا محمد الیا س ؒکے انتقال کے بعد اُن کے بیٹے مولانامحمد یوسف کا ندھلو ی (۱۹۱۷ء۔ ۱۹۶۵ء)کو تبلیغی جماعت کا امیر بنایا گیا۔ مولانا محمد یوسف کے انتقال کے بعد مو لا نا انعام الحسنؒ (م: ۱۹۹۵ء) تیسرے امیر بنے۔

۱۹۹۵ء میں مو لا نا انعام الحسنؒ کے انتقال کے بعد نئے امیر کا انتخاب نہیں کیا گیا بلکہ ایک شوریٰ قائم کی گئی جس میں مو لا نا زبیر الحسن اور مو لا نا سعد کا ند ھلو ی شامل ہیں[2]۔

۱۹۷۸ء میں ورلڈ مسلم لیگ نے ڈیو س بری انگلینڈ میں ایک عمارت تبلیغی جماعت کے لئے وقف کی جسے مسجد میں تبدیل کیا گیا اور اس وقت یہی مسجد یورپ میں تبلیغی جماعت کا ہیڈ کوارٹر ہے[3]۔

تبلیغی جماعت کا عالمی مر کز پاکستان میں لا ہور کے قریب ایک...

The Influence of Thematic Learning Implementation on Student Motivation in Public Elementary School 002 Sungai Pinang Samarinda

Thematic learning is learning with a theme to combine several lessons so that it can provide a meaningful experience to students. This study aims to analyze the effect of the implementation of thematic learning on the learning motivation of grade V students at SDN 002 Sungai Pinang Dalam Samarinda in the 2019/2020 learning year. This type of research is ex post facto research, because there is no control over the independent variables. This study consists of two variables, namely the independent variable and one dependent variable. The independent variable is the implementation of thematic learning (X). The dependent variable is student learning motivation (Y). The population of this study were class V students of the 2019/2020 learning year at SDN 002 Sungai Pinang Dalam. The instrument used was a questionnaire. The data analysis techniques were data normality test, homogeneity test, data linearity test and simple linear regression test. Researchers also do not make arrangements or manipulate the independent variables. The results showed that there was a significant influence between the implementation of thematic learning on the learning motivation of grade V students at SDN 002 Sungai Pinang Dalam Samarinda for the 2019/2020 learning year with a moderate determination coefficient value of 0.50 or 50%. From the regression equation Y = 14.774 + 0.759X, it can be seen that the consistency value of the thematic learning implementation variable is 14.774 while the X regression coefficient is 0.759 which states that every 1% of thematic learning (X) implementation will increase student learning motivation by 0.759. The regression coefficient is positive, thus it can be said that the direction of the influence of the thematic learning implementation variable on student learning motivation is positive.

Nonlinear Dynamics of Large-Scale Vortical Motions in Electron-Positron Plasmas and Other Multiple Components Plasmas

The possibility of zonal flows generation by low-frequency waves in magnetized space and laboratory plasmas is studied. Namely the zonal flows generation in the Earth’s ionospheric E- and F-layers by Rossby waves and in electron-positron-ion (EPI) plasmas by electrostatic drift waves is investigated. The modified parametric approach is used considering the arbitrary spectrum of primary modes. The driving forces of zonal flows are Reynolds stresses. An important nonlinear mechanism for the transfer of spectral energy from small-scale pumping waves to large-scale enhanced zonal flows (inverse cascade) is investigated. The dynamics of Rossby waves in the electrically conducting ionospheric layers strongly depends on the interaction of inductive currents with the geomagnetic field. Such interaction in the ionospheric E-layer due to the prevalent effect of Hall conductivity gives rise to, so called magnetized Rossby (MR) waves to be propagating. But in the ionospheric F-layer, under such interaction dissipation arises due to Pedersen conductivity acting as the inductive (magnetic) inhibition. Modified by the interaction of inductive currents with the geomagnetic field Charney equation is used as the basic nonlinear equation. Considering comparatively short-scale perturbations only vector nonlinearity is responsible for the coupling between different modes in Charney equation. The nonlinear interaction of short-scale pump Rossby waves, two satellites of the pump waves (side-band waves) and a large-scale shear zonal flow is studied. Propagating in the ionospheric E-layer MR waves do not significantly perturb the geomagnetic field. Zonal flow dispersion relation for an arbitrary spectrum of MR waves is obtained. Monochromatic and non-monochromatic wave packets of primary modes are discussed. In the case of monochromatic wave packet the instability is of the hydrodynamic type. It is found that the broadening of the wave packet spectrum of pump MR waves leads to a resonant interaction with a growth rate of the order of the monochromatic case. In the case when zonal flow generation by MR modes is prohibited by the Lighthill stability criterion, the so-called two-stream-like mechanism for the generation of sheared zonal flows by finite-amplitude MR waves in the ionospheric E- layer is possible. The growth rates of zonal flow instabilities and the corresponding conditions are determined. The possibility of zonal flow generation and appropriate distinctive properties are revealed when Rossby waves are propagating through the dissipative ionospheric F-layer. To describe the nonlinear propagation of electrostatic drift waves the generalized Hasegawa-Mima (HM) equation containing one vector (Jacobian) and two scalar nonlinearities of different nature for the case of EPI plasma is obtained. The drift waves are supposed to have arbitrary wavelengths (as compared with the Larmor radius of plasma ions at the plasma electron temperature). Temperature inhomogeneity of electrons and positrons is taken into account, while ions are considered to be cold. The new space structure of drift waves is obtained. Spatial increase of the linear plasma-potential perturbations in the direction of density and temperature inhomogeneities is shown. As long as under the zonal flow action different vortical structures can be maintained, possibility of the existence of drift vortical motions and the appropriate properties also are investigated in case of EPI plasma. It is shown that the vector nonlinearity is responsible for the existence of small-scale dipole-type solitary vortical structures. One of the scalar nonlinearities of KdV-type is responsible for the existence of the intermediate-scale vortical structures. The other scalar nonlinearity under the time derivative creates intermediate and large-scale monopole vortical structures and plays an essential role in different possibilities of zonal flows generation. It causes nonlinear interaction with vector and KdV-type nonlinearities and itself also. It is shown that the dynamics of low-frequency waves studied in usual electron-ion (EI) plasmas is generally modified in EPI plasmas. A new self-organization mechanism of formation of large-scale electrostatic drift vortical structures in EPI plasmas based on the competition between scalar and vector nonlinearities has been discussed. Generation of large-scale zonal flows by relatively small-scale electrostatic drift waves of arbitrary wavelength in a nonuniform EPI plasma is studied. To describe the generation of zonal flow the generalized Hasegawa-Mima equation containing both vector and two scalar (of different nature) nonlinearities is used. The system of coupled equations describing the nonlinear interaction of drift waves and zonal flows is derived. Enriched possibilities of zonal flow generation with different growth rates are revealed. Explicit expressions for the appropriate maximum growth rates are obtained. Obtained results may be useful to explain different observations on zonal flows and vortical motions in laboratory and astrophysical plasmas.
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مطالعہ یہودیت
مطالعہ یہودیت

Written for students who likely have either no knowledge of Judaism or else come to the subject with preconceptions highly colored by political and religious polemics, this book offers a comprehensive introduction to the Jewish tradition from religious, historical, and cultural perspectives.

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