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Tuesday, January 27

Due to winter storm conditions, the University is closed today, Tuesday, Jan. 27.  Day and evening classes are canceled. An updated advisory on the status of classes and operations for tomorrow will be posted this evening. During the time that the University is closed, the Commons, Subway, and Village Market will maintain regular hours for residential dining services and the Sports Center will be open for use by residential students only. Gengras Student Union and University Libraries are closed.   snow closing guide

All Hartt Community Division activities are canceled today.

current as of 9:40 a.m., Jan. 27, 2015

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Eppes, Milanovic and DePanfilo Present Paper at Conference in France

Posted 06/13/2012
Category: Accolades

Total surface deformation at 424 Hz
Total surface deformation at 424 Hz

Tom Eppes, associate professor of electrical and computer engineering, Ivana Milanovic, professor of mechanical engineering, and Mike DePanfilo, graduate student in the College of Engineering, Technology, and Architecture (CETA), presented a paper at the May 2012 Euro-American Conference sponsored by the International Journal of Arts & Sciences (IJSA) 2012 in Provence, France. The conference brings together international academics to present research in the fields of social sciences, humanities, education and technology.

The paper, "Resonance Modes in an Acoustic Guitar," describes the results of a finite element analysis of the eigen-modes of a Collings guitar, a well-known design developed and custom manufactured by Jim Collings. The paper describes a method to predict resonance patterns based on its physical shape and wood composition. Discrete modes, known as eigen-frequencies, denote where the amplitude responses of the acoustic chamber are the largest. Each mode represents a solution to an equation classically described as Helmholtz resonance. A 3-dimensional model was constructed using COMSOL Multiphysics for the geometry size/shape, a spruce soundboard and mahogany side/back walls. The analysis focuses on the lower end of the dynamic range from 200Hz to 1,000Hz in which surface deformation, both total and normal to the surface, are examined. In addition, node and anti-node structures in the area where the bridge attaches to the top plate are explored.

Total surface deformation at 424 Hz
Total surface deformation at 424 Hz

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