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In recent years, extensive efforts have been done in developing new educational methods for teaching foreign language in order to increase the language learners' proficiency. This study aims to assess the role of the combined approach of the notional functional syllabus approach and the task-based approach for the purpose of "Arabic for the general aims" and "Arabic for the general academic aims". This assessment has been applied by investigating the required capabilities in learning two skills of speaking and listening in Arabic language by using the descriptive-analytical method. The most important result obtained from this study is that for having an effective communication with the speakers of foreign languages, the issue of linguistic knowledge and even full language input are not so much effective. The factors, which play a significant role in mastering the second languages, include: providing a conversational environment similar to the culture and community of its native speakers, making the process of learning functional and applicable, planning for the creative usage of language ability, and lastly, practical and continuous reproducing of language by the learners.

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Iran is one of the main date palm producers in the world. Date waste was increased, so research around using date products such as syrup, sugar and spread was increased. In this study sucrose replaced with date syrup in Kooshab and physicochemical, rheological and organoleptic properties were studied during 6 months. In this study, various levels of sucrose and date syrup were used for the production of Kooshab, and their effects on physicochemical and sensory properties were studied during 6 months. The SPSS₁₉ software was used for analysis of the data, the statistical test being the Duncan’s test. According to results during 6 months acidity and Brix were constant. Nonalcoholic Kooshab in which the date syrup was used generally have a significant difference (p<0.05) in reducing sugar, color and viscosity with control sample. Samples with 75%, 50% and 25% date syrup have significantly difference with control sample in total sugar, however there was no significant difference between sample with 100% date syrup and control sample. According to sensory results, beverage with 75% date syrup exhibited the highest overall acceptability. Beverages which date syrup used instead of sugar have a desirable characteristic and indicate that substitution of sugar by date syrup didn’t leave any undesirable effects.

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In this paper, the modeling and simulation of manipulation of carbon nanoparticles have been investigated. The geometry plays a significant role in the dynamic behavior of nanoparticles manipulation and the evaluation of different geometric shapes of nanoparticles in this process is very important. To examine the geometry effects, the manipulation of a different kind of the nano-carbon allotropes has been studied. Furthermore, the manipulation of carbon nanotubes with different diameter has been simulated. For this purpose, the molecular dynamics method has been used to improve our knowledge and understanding about the nanomanipulation processes and dynamics. In the manipulation of carbon allotropes, the results indicated that more spherical allotrope Modes away, the easier manipulation process occurred and the forces on the probe have been reduced; this is due to the curvature of tip and nanoparticle. The results of nanotubes manipulation showed that increasing the diameter of the nanotube causes to increase the force on the probe. The indentation depth was extracted for each nanotube during the manipulation process. The results indicated that the indentation depth increases versus diameter increasing. According to the application of carbon-based structures and nanotubes as the drug carriers in medicine, such this simulation studies can reduce time and cost of experimental projects in this field.

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To investigate the effects of drugs on viruses, interactions between proteins and inserting desirable genetic changes on DNA, precise study of biological cells is a necessary demand for nowadays. In this way, exploring mechanical properties of these particles and their mechanical behavior in different situations is needed; manipulation of bioparticles in nano scale is an important process for investigating nanoparticles behavior; because the amount of exerted force, deformation and investigating the damage possibility can provide useful information. In this paper, a molecular dynamics modeling of bioparticles nanomanipulation based on AFM has been done. Bioparticles include virus, protein and ssDNA. The main goal of this study is investigating the substrate effect on exerted force on the bioparticles and exploring damage possibility. Three types of substrates have been used, including silicon, graphene sheet and golden substrate. Widespread usage and low level interactions with other materials are the reasons of choosing these substrates. Results show that on gold substrate, the maximum manipulation force occurs and damage possibility is high. Also on graphene substrate manipulation force and deformation of particle are more than the silicon substrate.

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Endmilling is a type of machining tool for chipping the surfaces of parts, which has received attention due to its wide application in industries such as molding. Therefore, today, the need of the industry to find the optimal parameters of the process is felt so that the quality of the desired surface can be achieved. In general, the selection of effective parameters in any milling process significantly affects the surface quality of a finished part. In this research, using E-fast statistical sensitivity analysis method, the simultaneous influence of input parameters including spindle speed, depth of cut, and feed rate on the output parameter of surface roughness for the samples has been investigated quantitatively. Machining experiments have been carried out under different cutting parameters as defined in steady state conditions for the milling tool. surface roughness and vibration rate of machining with non-linear quadratic forms; It has been modeled based on the cutoff parameters and its interactions through several regression analysis methods. The results of this research showed that the spindle speed time parameter is known as the most influential parameter on the surface roughness with 67% influence. It was also observed that the feed rate parameter with 30% effect of cutting depth with 3% are known as the second and third influencing parameters on surface roughness.

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In this article, the effects of changing four different input parameters such as cutting speed, feed rate, feed force in Z direction and force in Y direction on the output of tool wear in the machining process of aluminum metal base composite have been investigated. To numerically examine the influence of each parameter on the  desired composite machining process results, the E-fast sensitivity analysis procedure was used. E-fast method has a high speed in quantitative and qualitative data analysis. After conducting a sensitivity analysis, it was found that as the feed force increases in the X direction, the  tool wear increases with a significant slope. It was also observed that this parameter (feed force in  X direction) has the greatest impact on  tool wear compared to other input parameters with an amount of 88%. The parameters of feed rate, feed force in Z direction and cutting speed are effective on tool wear with negligible rates of 8%, 3% and 1%, respectively.