{"id":32,"date":"2019-08-30T09:15:55","date_gmt":"2019-08-30T16:15:55","guid":{"rendered":"https:\/\/magazine.hmc.edu\/summer-2019\/?p=32"},"modified":"2019-09-23T15:44:45","modified_gmt":"2019-09-23T22:44:45","slug":"presentation-days-amaze","status":"publish","type":"post","link":"https:\/\/magazine.hmc.edu\/summer-2019\/presentation-days-amaze\/","title":{"rendered":"Presentation Days Amaze"},"content":{"rendered":"

For two days each year, more than 100 students participate in Presentation Days, a celebration of student projects representing every department at the College. Faculty or staff advisors worked with student researchers throughout the year on projects that included documenting the history of the College and imagining the future of spring-loaded crutches. Here are details on those projects and a few more.<\/p>\n

1. Humanities, Social Sciences, and the Arts<\/h2>\n

\"\"<\/p>\n

Independent Study: History<\/h3>\n

Advisor: Jeff Groves, professor of literature
\nStudent: Ali Khan \u201919<\/p>\n

Aiming to establish a historical archive for the College, Ali Khan \u201919 interviewed witnesses to the founding of the College and examined how the community has upheld the mission statement throughout its history. Working with Professor Jeff Groves and Bates Collection Librarian Michael Palmer, Khan collected historical documents and recorded interviews with 33 people related to the College. HMC community members can access the Harvey Mudd Histories archive<\/a>.<\/p>\n

2. Biology<\/h2>\n

\"\"<\/p>\n

Control of Gene Expression Profiles within the RpoS Regulon of E. coli K-12<\/h3>\n

Advisor: Daniel Stoebel, associate professor of biology
\nStudent: Christopher R. Doering \u201919<\/p>\n

The E. coli<\/em> sigma factor RpoS controls the bacterium\u2019s general stress response: a wide-reaching change in gene expression to react to harmful conditions such as low pH, DNA damage and nutrient starvation. With varying concentrations of RpoS, RpoS-dependent promoters produce different patterns of response which can be generally grouped into a few categories. This project sought to characterize the causes of the observed expression profiles. Using an RNA-seq assay, Doering assessed expression across the genome of strains containing key transcription factor knockouts. These knockouts might be important to expression pattern formation, identify the causative agents of the patterns and reveal general trends behind observed expression profiles.<\/p>\n

3. Shanahan Student-directed Project<\/h2>\n

\"\"<\/p>\n

Autonomous Campus Robot<\/h3>\n

Advisor: Zach Dodds, Leonhard-Johnson-Rae Professor of Computer Science
\nStudents: Adrian Sanchez Arias \u201919, Geneva Ecola \u201919, John Lee \u201919, Tianyi Ma \u201919, Maxwell Maleno \u201920, David Olumese \u201919, Andrew Pham \u201920, Aomsin Pongpiriyakarn \u201920, Willis Sanchez-duPont \u201919, Shiv Seetharaman \u201919, Jingnan Shi \u201919, Samantha Ting \u201920<\/p>\n

Autonomous systems are emerging in everyday life and transforming numerous industries. The goal of Autonomous Campus Robot is to bring this technology to students by having them build a small vehicle capable of navigating from point A to point B on campus without human control or intervention. The robot had an internal map of campus enabling it to autonomously navigate Mudd\u2019s sidewalks while simultaneously avoiding obstacles. Students saw two potential applications for this robot: 1) delivery for the student eatery Jay\u2019s Place, and 2) shuttle transport between the residential and academic ends of campus. The robot platform allows students to implement cutting-edge algorithms in autonomous navigation and machine learning.<\/p>\n

4. Physics<\/h2>\n

\"\"<\/p>\n

Experimental Investigation of Grain Dissolution in Two-dimensional Colloidal Polycrystals<\/h3>\n

Advisor: Sharon Gerbode, Iris and Howard Critchell Associate Professor of Physics Student: Nina Brown \u201919 The microstructure of a polycrystalline material plays a role in determining many of that material\u2019s macroscopic characteristics. The most well-known theory of grain boundary motion and grain dissolution suggests that a circular crystal grain should shrink at a constant rate. However, Brown\u2019s observations of grain dissolution in two-dimensional colloidal crystals implied that a more complex description was needed. She investigated the dependence of grain shrinkage on system properties, such as mis-orientation and inclination, as well as on dislocation motion.<\/p>\n

5. Mathematics<\/h2>\n

\"\"<\/p>\n

Mathematical Modeling of Type 1 Diabetes<\/h3>\n

Advisor: Lisette de Pillis, Norman F. Sprague Jr. Professor of Life Sciences, professor of mathematics and department chair
\nStudent: Gianna Wu POM \u201919<\/p>\n

Type 1 diabetes (T1D) is an autoimmune disease where the pancreas produces little to no insulin, which is a hormone that regulates the amount of glucose in the blood. To date, T1D does not have a defined cause or cure. Scientists are currently investigating the role that T cells play in the development of T1D while also looking into viral infections as a potential contributor. Mathematical modeling can help advance T1D research, specifically with potential treatments, since it can simulate biological behavior without invasive experimentation on live subjects. Wu investigated both single-compartment and multi-compartment models for type 1 diabetes.<\/p>\n

6. Independent Study, Biotechnology and Design<\/h2>\n

\"\"<\/p>\n

Optimal Spring Stiffness in Spring-loaded Crutches<\/h3>\n

Advisor: Anna Ahn, professor of biology
\nStudent: Erica Quinn \u201919<\/p>\n

Crutches are the most frequently prescribed assisted mobility devices with about seven million users worldwide, but using standard crutches can cause pain and injury. Spring-loaded crutches reduce impact forces with the ground and may reduce risk for users. A prior qualitative experiment proposed an optimal spring stiffness of 22 kN\/m in spring-loaded crutches, while a theoretical model suggested 4.5 kN\/m. Quinn quantitatively tested these suggestions by varying the spring stiffness of spring-loaded crutches from 5.2 kN\/m to 14 kN\/m to examine the ground reaction forces using a force plate embedded into a trackway. Fully understanding the effects of spring stiffness on spring-loaded crutches may help doctors and patients make informed decisions about available options.<\/p>\n","protected":false},"excerpt":{"rendered":"

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