The Nature of the Soul from Mullā Ṣadrā and John Hick’s Viewpoint

What this essay is to discuss is Mullā Ṣadrā and John Hick’s viewpoint about the "nature of the soul". Mullā Ṣadrā considers the real nature of human beings to be "the immaterial soul" based on his own principles in the science of the soul. He explains the nature of the soul with respect to substantial motion that the human being is corporeal in coming into being and the immateriality of the human soul in survival and afterlife. John Hick considers the consciousness as the most basic characteristic of mind, which is identical with the soul. He considers the nature of the soul as “human self” which forms his truth. Most of the viewpoints of both thinkers are similar or close to each other such as belief in the existence of the soul and being two-dimensional, quality of Genesis, substantiality, incorporeity, and corporeality of coming into the soul

A Dynamic Network Comparison Analysis of Crude Oil Trade: Evidence from Eastern Europe and Eurasia

This article characterizes a dynamic crude oil trade network of Eastern Europe and Eurasia using the network connectedness measure of Diebold and Yilmaz (2014, 2015) and asymmetric reaction of crude oil bilateral trade flow in response to the positive and negative changes of its key determinants using the nonlinear panel ARDL model. Results indicate the existence of large and time-varying spillovers with a considerable explanatory power among the crude oil trade flow volatility of Iran, Russia, US and Saudi Arabia in Eastern Europe and Eurasia crude oil trade network. The findings also show that crude oil trade flow of Eastern Europe and Eurasia experiences net volatility transmission to Iran, Russia and US respectively, whereas it is a net volatility receiver from Saudi Arabia. Also based on gravity models, the analysis confirms the existence of impact, reaction and adjustment asymmetry through different magnitude among network participants

Comparative Analysis of Strategies for Energy Intensity Reduction in Iran (Dynamic System of Energy Price-Energy Supply-Economic Growth Approach)

This study is an attempt to present and numerically simulate a dynamic system of energy price-energy supply-economic growth to perform a comparative analysis of strategies for energy intensity reduction in Iran. To achieve this purpose, a nonlinear differential equation system is designed and the data for total domestic energy production, non-oil GDP and energy price index during period 1992-2014 are used to estimate the parameters of system by means of whale optimization algorithm. In the next stage, four strategies (exploration of new energy sources and imports, moving towards a self-regulatory market, industrial restructuring, and adoption of new energy production and price policies) are addressed based on aforementioned system. The results indicate that the first three strategies will stabilize the energy market, but the fourth strategy will only drive the system into a cyclical shock state. The effects of different individual and combined strategies on energy intensity are also investigated. The results show that under a reasonable control power, these strategies can reduce energy intensity, but an unplanned increase in control power leads to reverse results. As for the energy intensity stabilization under these strategies, the lowest energy intensity is achieved by the third strategy and the lowest time to stabilize energy intensity is under the second strategy. It should be noted that the comprehensive strategy (combination of the first three strategies) outperforms individual strategies both in energy intensity stabilization and energy intensity reduction. Accordingly, implementation of a comprehensive strategy or any of the individual strategies with reasonable control power rather that unconsidered and strict application of a specific strategy, is the best choice for reduction of the national energy intensity in Iran

Investigating the Acoustic Behavior of Polyurethane Foam Reinforced with Clay Nanoparticles

Introduction: Disturbing noise can cause physical and mental illnesses among workers; for this reason, it is necessary to restrain it, especially in workplaces. Using sound-absorbing materials with suitable acoustic properties has been a growing trend in mitigating noise. This study aimed to improve the acoustic properties of polyurethane foam (PUF) as a sound absorber. Material and Methods: In the present study, PUF was synthesized with different percentages of clay nanoparticles (0 -1.2 wt.%), and then the Sound Absorption Coefficient (SAC) of the synthesized PUF was measured by the acoustic impedance tube in the frequency range of 63 to 6400 Hz according to the ISIRI 9803 standard without an air gap behind the sample. The morphology of the foam was also investigated by Scanning Electron Microscope (SEM). Results: The results showed that the addition of clay nanoparticles to PUF improved the sound absorption behavior of the samples, and the best sound absorption behavior was for PUF with 1.2% weight of nanoparticles at low frequencies (500-2600 Hz). This increase in the absorption coefficient can be due to the increase in the number and smaller size of the pores with the increase in the amount of nanoparticles in PUF. Conclusion: This study illustrates that the incorporation of clay nanoparticles into PUF at varying percentages results in an enhanced absorption coefficient. The presence of clay nanoparticles leads to a reduction in cell size and an increase in the number of pores, consequently enhancing surface friction. The absorption coefficient was observed to increase with the growing concentration of clay nanoparticles in PUF

An investigation on non-invasive fungal sinusitis; Molecular identification of etiologic agents

Background: Fungal sinusitis is increasing worldwide in the past two decades. It is divided into two types including invasive and noninvasive. Noninvasive types contain allergic fungal sinusitis (AFS) and fungus ball. AFS is a hypersensitivity reaction to fungal allergens in the mucosa of the sinonasal tract in atopic individuals. The fungus ball is a different type of noninvasive fungal rhinosinusitis which is delineated as an accumulation of debris and fungal elements inside a paranasal sinus. Fungal sinusitis caused by various fungi such as Aspergillus species, Penicillium, Mucor, Rhizopus, and phaeohyphomycetes. The aim of the present study is to identify fungal species isolated from noninvasive fungal sinusitis by molecular methods. Materials and Methods: During 2015–2016, a total of 100 suspected patients were examined for fungal sinusitis. Functional endoscopic sinus surgery was performed using the Messerklinger technique. Clinical samples were identified by phenotypic and molecular methods. Polymerase chain reaction (PCR) sequencing of ITS1-5.8S-ITS2 region and PCR-restriction fragment length polymorphism with Msp I restriction enzyme was performed for molecular identification of molds and yeasts, respectively. Results: Twenty-seven out of 100 suspected cases (27%) had fungal sinusitis. Nasal congestion (59%) and headache (19%) were the most common clinical signs among patients. Fifteen patients (55.5%) were male and 12 patients (44.5%) were female. Aspergillus flavus was the most prevalent fungal species (26%), followed by Penicillium chrysogenum (18.5%) and Candida glabrata species complex (15%). Conclusion: Since clinical manifestations, computed tomography scan, endoscopy, and histopathological findings are very nonspecific in AFS and fungus ball; therefore, molecular investigations are compulsory for precise identification of etiologic agents and appropriate management of these fungal infections

A study on the fungal rhinosinusitis: Causative agents, symptoms, and predisposing factors

Background: In natural conditions, inhaled fungi are considered a part of the microflora of nasal cavities and sinuses. However, subsequent to the protracted use of corticosteroids and antibacterial agents, suppression of the immune system by chemotherapy, and poor ventilation, these fungi can become pathogens. Fungal colonization in the nose and paranasal sinuses is a prevalent medical issue in immunocompetent and immunosuppressed patients. In this study, we aimed to categorize fungal rhinosinusitis (FRS) among immunocompetent and immunosuppressed patients and identified the etiologic agents of disease by molecular methods. Materials and Methods: A total of 74 cases were evaluated for FRS. Functional endoscopic sinus surgery was performed for sampling. The clinical samples were examined by direct microscopy with potassium hydroxide 20% and subcultured on Sabouraud Dextrose Agar with chloramphenicol. Polymerase chain reaction sequencing was applied to identify causative agents. Results: Thirty-three patients (44.6%) had FRS. Principal predisposing factors were antibiotic consumption (n = 31, 93.9%), corticosteroid therapy (n = 22, 66.6%), and diabetes mellitus (n = 21, 63.6%). Eyesore (n = 22, 66.6%), proptosis (n = 16, 48.5%), and headache (n = 15, 45.4%) were the most common clinical manifestations among patients. Rhizopus oryzae (n = 15, 45.4%) and Aspergillus flavus (n = 10, 30.3%) were the most prevalent fungal species. Conclusion: Diagnosis and classification of FRS are crucial, and a lack of early precise diagnosis can lead to a delay in any surgical or medical management. Since there are a variety of treatments for FRS, accurate identification of etiologic agents should be performed based on phenotypic and molecular methods