https://www.iarj.in/index.php/ijrase <table style="width: 100%; height: 251px;"> <tbody style="font-size: 15px;"> <tr style="height: 251px;"> <td style="height: 251px; width: 50.2849%;"><img src="https://www.iarj.in/public/site/images/editor/ijrase-2023-bc-front-02ef8ae35aaebdc0a591ae8e5472f15b.jpg" alt="" width="1519" height="2115" /></td> <td style="padding: 1px; text-align: left; height: 251px; width: 48.5755%;"><span style="color: #5f3600; font-size: 16px;"><strong>Editor-in-Chief of The Journal</strong></span> <p><strong>Adam A R, </strong>Senior Technology Architect, Infosys Limited.</p> <p><span style="color: #5f3600; font-size: 16px;"><strong>General Information of The Journal</strong></span><br /><strong><span style="color: #5f3600;">ISSN:</span></strong> 2582-8118<br /><strong><span style="color: #5f3600;">Publisher:</span></strong> Kripa Drishti Publications</p> <p><strong><span style="color: #5f3600; font-size: 16px;">Contact Information</span></strong> <br /><strong><span style="color: #5f3600;">Kripa Drishti Publications</span></strong> <br /><strong><span style="color: #5f3600;">Management Office:</span></strong> Pashan-Sus Road, Pune-411021, Maharashtra, India <br /><strong><span style="color: #5f3600;">Email:</span></strong> editor@kdpublications.in</p> <p><strong><span style="color: #5f3600; font-size: 16px;">Publication and Update</span></strong><br />Bi-Monthly</p> </td> </tr> </tbody> </table> <p><strong><span style="font-size: 20px; color: #5f3600;">Journal Aims</span></strong></p> <ul> <li class="show">The Journal, is focused on critical and creative research. This journal seeks to promote original research and cultivate fruitful dialogue between traditional and progressive and innovative thoughts.</li> <li class="show">The purpose of The Journal is to promote and support research in areas of science and engineering.</li> <li class="show">Our Journal offers a forum for academic and researchers to access recent developments in the field of science and engineering.</li> <li class="show">The Journal strives to be an open medium through which users have access to research articles. The Journal does not charge its users to access any research material published by it.</li> <li class="show">The Journal is online publishing platform available to all readers as part of our contribution to global science society.</li> <li class="show">The Journal is making readers aware of changes and trends in science and engineering.</li> </ul> <p> </p> <p><strong><span style="font-size: 20px; color: #5f3600;">Objectives</span></strong></p> <ul> <li class="show">To be recognized as a front runner and facilitator in scientific research and dissemination of knowledge</li> <li class="show">To be known world wide for quality research articles</li> <li>To publish original, innovative and novel research articles</li> <li class="show">To publish high quality research papers after thorough peer review</li> <li class="show">To stimulate all type researchers by providing open access</li> <li class="show">Provide quality publication, platform and process</li> </ul> <p> </p> <p><strong><span style="font-size: 20px; color: #5f3600;">Scope</span></strong></p> <p>International Journal of Research and Analysis in Science and Engineering promotes original academic research in Science, Technology and Engineering. Providing an insight, to transform lives is the motto. One can utilize the opportunities and face challenges of this changing world.</p> Kripa Dristi Publications en-US International Journal of Research and Analysis in Science and Engineering 2582-8118 https://www.iarj.in/index.php/ijrase/article/view/608 <p><em>Schiff bases were crucial to the advancement of inorganic, bioinorganic, and optical materials as well as the creation of coordination chemistry. Most of the more frequently used types of organic compounds are Schiff bases, which are extensively utilized in inorganic, organic, and analytical chemistry. Schiff base ligands are very valuable because they can form stable metal complexes with a variety of transition and other metal ions. Schiff bases are produced when a primary amine condenses with an aldehyde or ketone. With an emphasis on structure-activity connections, the biological activity of these complexes is examined, including their antibacterial, anticancer, antioxidant, and enzyme inhibitory qualities. The review also emphasizes the therapeutic potential of these complexes, stressing their use in drug development as well as their difficulties and opportunities in medicinal chemistry. We will talk about this in this paper. Computational Understanding of Synthesized Schiff Base and Its Transition Metal Complexes' Binding Affinity and Drug-Likeness.</em></p> Dr. Sulakshna Bharti Dr. Babita Kumari Copyright (c) 2026 International Journal of Research and Analysis in Science and Engineering 2026-03-31 2026-03-31 6 2 8 8 https://www.iarj.in/index.php/ijrase/article/view/609 <p><em>This study examines the relationship between psychological latency and cognitive load in human information processing. Psychological latency refers to the time delay between the presentation of a stimulus and the production of a response, while cognitive load represents the amount of mental effort required to process information. Drawing from cognitive psychology, working memory theory, and decision‑making research, this paper proposes a conceptual framework linking task complexity, cognitive load, working memory processes, and response latency. The study highlights how increasing task complexity raises cognitive demand, which in turn affects attention, memory retrieval, and decision speed. The framework provides implications for education, workplace design, healthcare decision systems, and human–computer interaction. By integrating classical theories with modern cognitive research, the paper contributes a structured conceptual model for understanding how mental workload influences human response time and performance.</em></p> Dr. Abhishek Kumar Satakshi Copyright (c) 2026 International Journal of Research and Analysis in Science and Engineering 2026-03-31 2026-03-31 6 2 7 7 https://www.iarj.in/index.php/ijrase/article/view/610 <p><em>The Gomti River's water quality and the native macrophytes that live there at six different locations were assessed for their potential for phytoremediation. High levels of nitrate, ammonium, phosphate, chemical oxygen demand, and biochemical oxygen demand were found in river water (12.84, 77.94, 36.88, 6.04, and 2.25 mg L-1, respectively). Several elements, including Fe, Cd, Cu, Cr, and Pb (5.54, 1.05, 3.74, 2.57, and 0.73 mg L-1, respectively), were discovered to be present in Gomti water. Significant concentrations of Fe, Cd, Cu, Cr, and Pb were deposited in various areas by macrophytes growing in the river. Jussiaea repens for Cr, Pistia stratiotes for Cd, and Eichhornia crassipes for Fe, Cd, and Pb demonstrated the highest remediation capacity among the plants under study. On the other hand, Cu buildup peaked in Typha latifolia. The translocation factor of E. crassipes, P. stratiotes, Hydrilla verticellata, and T. latifolia was [1] for the metals under study, with the exception of Fe, indicating their capacity to collect several metals in several plant sections.</em></p> Dr. Anuradha Singh Copyright (c) 2026 International Journal of Research and Analysis in Science and Engineering 2026-03-31 2026-03-31 6 2 12 12