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A Computational Tool for Processing Results: Finding Mixture Properties
ME-C-28
Noy Fitoussi; noyfitoussi16@gmail.com
Advisors: Dr. Shayke Bilu1, Dr. Bella Gurevich1 1SCE - Shamoon College of Engineering, Ashdod
This project focuses on developing a computational tool to calculate the excess enthalpy of a binary solution, using MATLAB for processing empirical and theoretical results. The behavior of excess enthalpy cannot be predicted by simply combining individual properties. Hence, a tool for integrating, processing, and analyzing raw data is essential for gaining insight into interactions between components. This tool should predict and analyze excess enthalpy, apply advanced thermodynamic models, and provide a platform for researchers, engineers, and industries, ensuring efficient data integration, improving decision making, minimizing errors, saving resources, and optimizing scientific work. The user-friendly interface allows data input and processing via predefined or custom formulas, and results are exported in graphical and tabular formats, streamlining research and enhancing relevant decision making.
Keywords: computational tool, data integration, empirical results, mixture analysis, physical and chemical properties
Design and Simulation of a Modular Kinetic Sculpture Based on Internal Angular Momentum Actuation
ME-C-29
Etam Hezi; ehezi46@gmail.com
Nevo Rutner; nevo.rutner931345@gmail.com
Advisors: Dr. Shayke Bilu1, Dr. Chen Giladi1 1SCE - Shamoon College of Engineering, Ashdod
This study presents the design and simulation of a modular kinetic sculpture, where each suspended unit (cube) is actuated by an internal motorized disc. The angular momentum enables rotation around a central wire without external forces. Passive equilibrium is achieved through counterweights, allowing motion without continuous power. The system is modeled in CAD, with construction planned for next semester. Each module includes: “Arduino” software, DC motor, Bluetooth module, and battery—enabling wireless, independent operation. Future work includes prototyping, testing stability, and exploring extensions, such as using drawing tools (laser, sand, ink) to convert motion into physical art.
Keywords: angular momentum, “Arduino” control, dynamic systems, , interactive art, kinetic sculpture, modular robotics, , motion-based expression, passive balance, physical simulation, rotational mechanics