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Singing indoors, unmasked can swiftly spread COVID-19 via microscopic airborne particles known as aerosols, confirms a new peer-reviewed study of a March choir rehearsal which became one of the nation’s first superspreading events.
Wesley Schumacher was born in Pakistan and grew up in Afghanistan. When he thinks of engineering, he thinks of people’s lives and believes it’s essential to recognize that our advancement in technology is not simply for our own benefit but largely for the people around us and society’s improvement.
As an ME SPUR participant, Paul DiTomas worked with Research Professor John Pellegrino to perform analysis for scenarios of the minimum energy requirement for robotic missions that will be used in a review article about portable power devices for next-gen robots.
As an ME SPUR participant, Sydney Evans worked with Assistant Professor Kaushik Jayaram to develop a novel robot capable of sticking to and navigating virtually any surface, leveraging electrostatic attraction.
As an ME SPUR participant, Jonathon Gruener worked with Associate Professor Svenja Knappe to create a testing environment for highly-sensitive miniature magnetic field sensors with non-invasive brain imaging, space and industrial applications.
As an ME SPUR participant, Andrew Beiter worked with Assistant Professor Debanjan Mukherjee to develop an in-house library of models for arterial hemodynamics in human patients, using CT and MRI scans and microscopy image data. His summer research project was titled, Image-Based Modeling for Cardiovascular Systems.
As an ME SPUR participant, Julia Beattie worked with Professor Corey Neu to measure intranuclear mechanics. The goal was to provide a non-invasive framework to investigate the mechanobiological function of subcellular and subnuclear domains limited only by the spatiotemporal resolution of the image acquisition method.
As an ME SPUR participant, Justin Hall worked with Assistant Professor Carson Bruns to develop a desktop application that will allow scientists to control a robot that automates weighing and dispensing chemicals, running chemical reactions and purification.
Researchers in the college will soon have access to a Dynamic Mechanical Analyzer testing platform. With it, they can perform mechanical load and displacement tests of materials, devices and components that were not possible previously.
As ME SPUR participants, Christopher Doyle and Anika Levy worked with Scholar in Residence Dan Riffell to compile and organize a standard resource that would allow consumers and designers make informed choices about which products to use or purchase based on energy costs of those products.