A Critique of Robert Spencer’s Views Regarding Dhimmis and Jizya

The following research paper is an academic and historical study of Robert  Spencer’s views about Dhimmis and Jizya. According to Robert Spencer, dhimmis are treated like ‘guilty’ people and subjected to biased and stringent conditions. Furthermore, he believes that there is an entire system of regulations that institutionalize an inferior status for non-Muslims in Islamic law. This paper is an academic effort, aiming to prove that Islam does not treat non-Muslim citizens as inferior and second class citizens nor imposes unbearably rigorous taxes on them. It consists of two parts: the first deals with Robert Spencer’s views regarding Dhimmis and the second part takes into account his views about Jizya. In this connection, all his views and allegations have been taken into consideration and an attempt has been made to absolve Islam of such groundless allegations.

The Solution Properties of Amphiphilic Drugs and Their Interactions With Surfactants and Human Serum Albumin

This dissertation reports physicochemical behaviour of some amphiphilic drugs as well as their interaction with anionogenic tensides (ionic surfactants) and Human serum albumin (HSA). A detail study of self aggregation of these drugs i.e. Clindamycine Phosphate (CLN), Quinacrine 2HCl (QUN), Chloroquine diphosphate (CLQ), Dexamethasone Sodium Phosphate (DSP) , Pefloxacin Mesylate (PFL), Citalopram HBr (CIT), Fluphenazine 2HCl (FLP), Trifluperazine 2HCl (TRF) and Certizine 2HCl (CRT) has been worked out. Surface tension and specific conductivity were measured to calculate the critical micelle concentration (CMC) of drugs and in this way their surface and thermodynamic parameters have been estimated. Surface activity was studied by measuring surface parameters i.e. surface pressure, Л, surface excess concentration, Г, area per molecule of ° drug and standard Gibbs free energy of adsorption, DGads . The electrical conductivity was measured as a function of concentration in the temperature range of 293-323K and CMC was determined. Consequently ° thermodynamic parameters like standard free energy of micellization, DGm , standard ° ° enthalpy of micellization, DH m and standard entropy of micellization, DS m were computed using closed association model. Aggregation properties of some structurally related drugs trifluperazine and fluphenazine and Quinacrine and Chloroquine have also been brought under study. For the most of drugs, association was found to be both enthalpy as well as entropy driven. Dexamethasone sodium phosphate, however, undergoes open association rather than micellization. We have also studied interaction of amphiphilic drugs with anionic surfactants sodium dodecyl sulfate (SDS) and cationic surfactant cetyltrimethyl ammonium bromide (CTAB). Aqueous micellar solutions of these surfactants were used for solublization of these drugs. The change of CMC of surfactant due to drug was determined by UV/Visible spectroscopy and conductivity method. UV/Visible spectroscopy was used to check the qualitative and quantitative features of this interaction and to calculate partition coefficient (Kx), free energy of partition and number of drug molecules per micelle while conductivity method is helpful to calculate different thermodynamic parameters. The complexation of amphiphilic drugs with HSA at physiological conditions (pH 3.0 and 7.4) have also been analyzed by using UV/Visible spectroscopy, fluorescence spectroscopy and dynamic laser light scattering. In this way values of drug-protein binding constant, number of binding sites and hydrodynamic radii were calculated and discussed in detail.