المقاصد عند الإمام الشاطبي

Scholars of the Usul -early and recent- have paid utmost importance to the Maqâsid al-Shariah or the Objectives of Shariah and tried to substantiate, associate and link them with its sources, Qur’an and Sunnah, then to derive from them the Legislator’s or the Shari‘s purpose, the revelation’s true purpose and how it benefits the creatures in terms of promoting what is in their interest and shunning away what is harmful. These objectives became the point of interest for the jurists and scholars who toiled to understand the texts and what they connoted and they continue to venture into its depths and extract its treasures. It becomes quite evident from their exegeses of Qur’an and the Prophetic Traditions and elucidations of the juristic principles and issues. Imam al-Shâtibī and Ibn ‘Ashoor are two such scholars in this field who studied the Objectives of Shariah and contributed to this discipline so greatly that they became reference points for those who came after them. The basic principles in the field that were inferred by them are still its pillars. The Objectives of Shariah are divided into four kinds with reference to their benefits: the necessities, needs, improvements and supplements. The necessities are further divided into protection of Deen, protection of self, of intellect, of possessions and of race among others. Prudence demands that all means should be employed to safeguard these necessities. Thus knowing the Objectives of Shariah and their promulgation among the masses is quite important for the society since it leads towards promotion of the beneficial and shunning away the harmful elements in it.

Structural, Electronic and Magnetic Properties of Spinel Based Transition Metal Oxides

Theoretical study of Spinel based Transition Metal Oxides is reported. The Density Functional Theory approach is adopted for computational investigation using LAPW code. The structural, elastic properties of (XAl2O4 for X=Mg, Mn, Fe, Co, Ni, Cu, Zn), (MGa2O4 for M=Mg, Mn, Fe, Co, Ni, Cu, Zn, Cd), (NIn2O4 for N=Mg, Zn, In) & (ZnP2O4 for P=V, Cr, Fe, Rh, Sn) along with electronic & magnetic properties of cubic spinel oxides (XAl2O4) and (MGa2O4) have calculated. The calculated structural parameters conform to other experimental and theoretical evidences. Fulfillment of elastic stability criteria proves the reliability of the reported data. The calculated elastic constants show that all materials abide its stability opposing elastic deformations and the Cauchy’s pressure confirms the dynamical stability of these materials. The high values of bulk moduli show the hardness of these materials while the Young moduli data reveal that MgAl2O4 is the stiffer material among all. Further, Poisson’s ratios testify the compressibility, connote stableness to external deformation of these materials and reveal dominance of central forces being the interatomic forces. Out of 24 materials, only 05 are brittle and the rest are ductile with elastic anisotropy. MgAl2O4 is the most brittle and CdGa2O4 is the most ductile material. The electronic structure (Total DOS) show all XAl2O4, MGa2O4 (M=Fe, Co, Zn, Cd) have antiferromagnetic, NiGa2O4 & CuGa2O4 have FM state and the valence near Fermi level due to the transition metal 3d state. The calculation of direct exchange energy Δx(d) shows that the exchange mechanism of electrons is dominant in introducing magnetism and enormous exchange splitting is observed in these materials. The ferromagnetism in the group MGa2O4 of spinel oxide compounds is due to hybridization between the electrons in the 3d-states cation and 2p states anion. Appearance of magnetic moments in these materials is due to unpaired electrons in 3d states of Transition metal ions. The negative value of indirect exchange energy confirms the magnetism by spin of electrons.