Physics Defense Day - Undergraduate Presentations
When: Friday,
December 8, 2017
9:30 AM
-
10:30 AM
Where: > See description for location
Description: Physics Defense Day - December 8, 2017
Undergraduate Presentation by Justin Embree
Time: 9:30am
Topic: Computational Modeling and Visualizations for Eigenstates in General Potentials
Abstract:
The task for this project was to solve for a finite potential well that allows for a specific number of Eigenstate solutions. A sample code was provided which solved for Eigenstates in a set potential, and then edited to find solutions for a General Potential. Each of these solutions were solved by using Python 3.x to run, edit, and compile data. This data was sorted and expressed as graphs, and compared with solutions from the original sample program.
Advisor: Dr. Jianyi Wang
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Undergraduate Presentation by Amanda Prescott
Time: 12:30pm
Topic: Vertical Axis Wind Turbine Generator Subsystem
Abstract:
This novel approach to an atypical sail-driven wind turbine is primarily distinguishable by the vertical axis structure as well as the induction generator. The generator subsystem for this vertical axis wind turbine is being designed and constructed to maximize the power output through variable wind speeds at ground-level. The goal is to produce 2.3kW of power through a 3-phase AC system, making use of Neodymium magnets and specially designed coils to fit the production needs. The generator is being designed with modular properties to fit the power needs of the consumer. The version 1 design is close to completion as proof of concept, undergoing significant testing on a full-scale prototype structure. Version 2 is currently in the design process, working towards an improved power output. Preliminary results from version 1 testing will be shown.
Advisor: David Allard (Allard Engineering)
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Undergraduate Presentation by Brittany Carrita
Time: 1:00pm
Topic: Precession of Mercury's Orbit
Abstract:
For the first part of my senior project, I collaborated with Dr. Khanna, Glenn Volkema, and Izak Thuestad on creating a solar-powered computational cluster prototype using all consumer grade components. For the second part of the project, I used the python programming language to generate simulations and plots representing the central field approximation and relativistic correction which cause the precession of Mercury. In order to test the prototype, I used one of the nodes in the cluster to run the python program on Jupyter and produce the expected output values.
Advisor: Dr. Gaurav Khanna
Undergraduate Presentation by Justin Embree
Time: 9:30am
Topic: Computational Modeling and Visualizations for Eigenstates in General Potentials
Abstract:
The task for this project was to solve for a finite potential well that allows for a specific number of Eigenstate solutions. A sample code was provided which solved for Eigenstates in a set potential, and then edited to find solutions for a General Potential. Each of these solutions were solved by using Python 3.x to run, edit, and compile data. This data was sorted and expressed as graphs, and compared with solutions from the original sample program.
Advisor: Dr. Jianyi Wang
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Undergraduate Presentation by Amanda Prescott
Time: 12:30pm
Topic: Vertical Axis Wind Turbine Generator Subsystem
Abstract:
This novel approach to an atypical sail-driven wind turbine is primarily distinguishable by the vertical axis structure as well as the induction generator. The generator subsystem for this vertical axis wind turbine is being designed and constructed to maximize the power output through variable wind speeds at ground-level. The goal is to produce 2.3kW of power through a 3-phase AC system, making use of Neodymium magnets and specially designed coils to fit the production needs. The generator is being designed with modular properties to fit the power needs of the consumer. The version 1 design is close to completion as proof of concept, undergoing significant testing on a full-scale prototype structure. Version 2 is currently in the design process, working towards an improved power output. Preliminary results from version 1 testing will be shown.
Advisor: David Allard (Allard Engineering)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Undergraduate Presentation by Brittany Carrita
Time: 1:00pm
Topic: Precession of Mercury's Orbit
Abstract:
For the first part of my senior project, I collaborated with Dr. Khanna, Glenn Volkema, and Izak Thuestad on creating a solar-powered computational cluster prototype using all consumer grade components. For the second part of the project, I used the python programming language to generate simulations and plots representing the central field approximation and relativistic correction which cause the precession of Mercury. In order to test the prototype, I used one of the nodes in the cluster to run the python program on Jupyter and produce the expected output values.
Advisor: Dr. Gaurav Khanna
Contact: > See Description for contact information
Topical Areas: Faculty, Students, Graduate, Students, Undergraduate, Physics