https://ikprress.org/index.php/JAPSI/issue/feed 2023-10-10T12:19:52+00:00 International Knowledge Press submission@ikpress.org Open Journal Systems <p><strong>Journal of Applied Physical Science International (ISSN: 2395-5260 (Print), ISSN: 2395-5279 (Online))</strong> publishes high quality papers in all areas of Physics, Chemistry and Earth Sciences. This journal considers following&nbsp;<a href="/index.php/JAPSI/about/submissions">types of papers</a>&nbsp;(<a href="/index.php/JAPSI/about/submissions">Link</a>).</p> <p>Scope of this journal includes (but not limited to): Fundamental physics, applied physics, atomic, molecular and optical physics, nuclear and particle physics, astrophysics and physical cosmology, artificial intelligence, Astronomy, neural processing, physics in medicine and biology, plasma physics, biophysics, econophysics, geophysics, neurophysics, psychophysics, wireless and optical communications, quantum mechanics, materials science, nanotechnology and engineering, energy and fuels, environmental science, electronics, embedded systems, signal processing, Chemistry, Material Science, inorganic chemistry, organic chemistry, biochemistry, physical chemistry, analytical chemistry, neurochemistry, combinatorial chemistry, molecular therapeutics, geochemistry and metallurgy, Natural Science, Earth Sciences,</p> <p>This is a quality controlled, peer-reviewed, subscription based INTERNATIONAL journal.&nbsp;</p> https://ikprress.org/index.php/JAPSI/article/view/8370 2023-09-08T12:23:26+00:00 Uwabuike V. C. Uwabuike.victor2121@gmail.com Nwufo O. C. Azubuike J. O. Nwaji G. N.

<p>High temperature values are encountered during machining processes and these high temperature values have negative influences on the tool, workpiece, chip formation mechanisms, the process efficiency and the quality of surface of the machined parts. These negative influences can be reduced drastically with the use of appropriate cutting tool with suitable depth of cut during machining operations. The studies of these thermal fields in machining are necessary and very important for the development of new technologies aiming to increase the tool lives and to reduce production costs. This work centers on measurement of temperatures in the chips, cutting tool and workpiece during turning and drilling operations using uncoated high-speed steel and coated cemented carbide cutting tools at different cutting speeds and depths of cut to ascertain the more suitable cutting tool and feed rate during machining operations. Although, the direct temperature measurement at the chip-tool interface are very complex, the turning experiments were performed on a lathe machine at varying turning speeds and depths of cut, while the drilling operation was performed on a drilling machine at different turning speeds and depths of cut. All the experiments were carried out at the mechanical Engineering workshop of Federal University of Technology, Owerri. The temperature values of chip, cutting tool and workpiece when working on brass, high-carbon steel and stainless steel were measured using digital thermocouples. The results obtained showed that uncoated high-speed steel cutting tool could not cut stainless steel and high-carbon steel at very high turning speed and depth of cut due to the excessive heat it generated at the contact area, and at very low cutting speed the temperature of the cutting tools were higher than the workpiece irrespective of the cutting tool till an increased cutting speed where temperature of workpiece became higher than the cutting tool. It is recommended that coated cemented carbide on hard materials be used during turning and drilling to ensure a negligible increase in temperature while machining, also monitor speed for required finishing and extended tool life.</p>

2023-09-08T00:00:00+00:00 Copyright (c) 2023 © Copyright I.K. Press. All rights reserved. https://ikprress.org/index.php/JAPSI/article/view/8373 2023-09-11T07:42:21+00:00 Keerthana Ravikumar keerthanaviji15r@gmail.com Soundhariya Segar Bakkiyaraj D. Periandy S.

<p>The structural investigation of 4-Dimethylamino benzoic acid using FT-IR, FT-Raman, UV, and NMR spectroscopic techniques was done systematically. The vibrational assignments, IR, and Raman scattering activity were computed by the density functional theory (DFT) using the 6-311++G(d,p) basis set and the B3LYP method. Experimental and theoretical parameters were compared. According to orbital natural bond calculations, the compound's stability is due to hyper-conjugative interactions and a hydrogen-bonding network. Molecular Electrostatic Potential (MEP) is also performed. HOMO and LUMO energies have been identified. The compound was docked with Adenovirus protein ID 3N0I, and the binding energy was found to be -4.4 kcal/mol.</p>

2023-09-11T00:00:00+00:00 Copyright (c) 2023 © Copyright I.K. Press. All rights reserved. https://ikprress.org/index.php/JAPSI/article/view/8411 2023-10-10T12:10:36+00:00 Haoquan Xu Qingru Wang Ying Wang wangying@just.edu.cn Qi Zhang qi.zhang@just.edu.cn Xiaomei Liu Chaohui Li

<p>Based on the one-dimensional Gross-Pitaevskii equation (GPE) model, this work studies the formation of acoustic black holes in one-dimensional Bose Einstein condensate (BEC) in harmonic oscillator external potential, and extending the applicable scenarios of the GPE model for its specific application of simulating the formation conditions of acoustic black holes in one-dimensional systems. At the same time, We deepen the understanding of the analytical formula for determining the production conditions of acoustic black holes and the evolution formula of the radius of acoustic black holes.&nbsp;&nbsp;</p>

2023-10-10T00:00:00+00:00 Copyright (c) 2023 © Copyright I.K. Press. All rights reserved. https://ikprress.org/index.php/JAPSI/article/view/8412 2023-10-10T12:19:52+00:00 Huiping Ou Zhijie Chen Ying Wang wangying@just.edu.cn Qi Zhang Xiaomei Liu liuxiaomei@just.edu.cn Chaohui Li

<p>For study of Continuous matter waves in Bose-Einstein condensates in nonlinear and quantum atom optics, the two-dimensional Gross-Pitaevskii equation (GPE) is chosen as the reliable model for studying the dynamics of vortices in the framework of mean-field theory. In related problems in several recent studies showing that higher-order interrelationships are an indispensable component of the GPE even at the mean-field level, by numerically estimating the vortex dynamics variables. In this paper, derive the vortex soliton solutions using the variational method and investigate the effect of higher-order nonlinear corrections on the behavior of the vortex dynamics, which are shown to have an important impact on the vortex dynamics behavior.</p>

2023-10-10T00:00:00+00:00 Copyright (c) 2023 © Copyright I.K. Press. All rights reserved.