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Fluid-Structure Interaction For A Deformable Anisotropic Cylinder: A Case Study, Jared T. Decker
Fluid-Structure Interaction For A Deformable Anisotropic Cylinder: A Case Study, Jared T. Decker
Honors Undergraduate Theses
For a structure designed to interact with the surrounding fluid, structural deformation under loads induced by fluid flows is an important factor to consider, and one which is traditionally difficult to account for analytically. Coupling the finite element method for structural analysis with the finite volume method for the determination of fluid response allows for accurate simulation of the pressure and shearing loads applied by the fluid onto the fluid-structure interface, while also determining localized structural displacements that would cause changes to the geometry of the interface. This work seeks to simulate the behavior of cylinders with varying heights and …
Small Business Risk In The Context Of A Pandemic: A Simulation, Ashlyn Sperry
Small Business Risk In The Context Of A Pandemic: A Simulation, Ashlyn Sperry
Honors Undergraduate Theses
In this thesis, I consider the impact of the COVID-19 pandemic on small businesses, as they are acutely at risk due to the lack of implicit government insurance that would be available to larger corporations. I will discuss insurance's characteristics using the basic theory of insurance, analyze pandemic insurance's viability in the private market, and critique alternative solutions. While the theory suggests that pandemics are not insurable in the private market, I will perform specific analysis to determine if this is the case or not. Using a simulation of the economic landscape firms face, business owners with varying levels of …
Simulating Systematic Errors In Exoplanetary Transits For The James Webb Space Telescope, David C. Wright Iii
Simulating Systematic Errors In Exoplanetary Transits For The James Webb Space Telescope, David C. Wright Iii
Honors Undergraduate Theses
The James Webb Space Telescope (JWST) is a next-generation space telescope that will be capable of making transformative observations of planetary transits. As its launch date grows ever closer, it becomes imperative that astronomers have access to accurate simulations of JWST observations in order to best plan observations and devise data analysis pipelines. Unfortunately, available simulation tools do not provide the most accurate or realistic simulations, including noise and systematic errors. In this thesis, I present an open-source time-domain simulator of planetary transits that is capable of accurately modeling these effects in observations made by JWST.