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DTSTART;TZID=America/Chicago:20260514T130000
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DTSTAMP:20260622T165645
CREATED:20260413T181455Z
LAST-MODIFIED:20260413T181455Z
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SUMMARY:Award Ceremony
DESCRIPTION:More details to come.
URL:https://uwm.edu/math/event/award-ceremony/
ORGANIZER;CN="The Department of Mathematical Sciences":MAILTO:math-staff@uwm.edu
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BEGIN:VEVENT
DTSTART;TZID=America/Chicago:20260515T140000
DTEND;TZID=America/Chicago:20260515T150000
DTSTAMP:20260622T165645
CREATED:20260508T150242Z
LAST-MODIFIED:20260508T150242Z
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SUMMARY:MS Thesis Defense: Ms. Jerianne Bonaguidi
DESCRIPTION:Proving a Softball Pitch Can Rise Under 60mph Through Mathematical Modeling\nJerianne Bonaguidi\nGraduate Student\nUniversity of Wisconsin-Milwaukee \nMany softball coaches claim that a pitcher cannot actually throw a rise ball under 60mph; they claim it is just a “high fastball.” This project tests that theory with a live pitcher\, calculus\, and physics equations. The major claim is that if a pitcher has a high enough spin rate\, the ball can still rise throughout its whole entire trajectory\, even if thrown under 60mph. \nAdvisor:\nDr. Gabriella Pinter \nCommittee Members:\nDr. Craig Guilbault\nDr. Lijing Sun
URL:https://uwm.edu/math/event/ms-thesis-defense-ms-jerianne-bonaguidi/
LOCATION:EMS Building\, E495\, 3200 N Cramer St\, Milwaukee\, WI\, United States
CATEGORIES:Graduate Student Defenses
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BEGIN:VEVENT
DTSTART;TZID=America/Chicago:20260626T140000
DTEND;TZID=America/Chicago:20260626T153000
DTSTAMP:20260622T165645
CREATED:20260616T183529Z
LAST-MODIFIED:20260616T183529Z
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SUMMARY:PhD Dissertation Defense: Mr. Liam Jemison
DESCRIPTION:A Nonlocal Size Modified Poisson-Boltzmann Ion Channel Model and Parallel Finite Element Solver\nMr. Liam Jemison\nGraduate Student\nUniversity of Wisconsin-Milwaukee \nWe introduce the first nonlocal Poisson–-Boltzmann Ion Channel (NPBIC) model and corresponding finite element solver for three-dimensional ion channel–membrane systems in solvents with multiple ionic species. Although the NPBIC model presents numerical challenges caused by strong nonlinearities\, nonlocal convolution terms\, discontinuous interface conditions\, and solution singularities induced by atomic point charges\, we develop a novel decomposition technique for solving the model. We present a parallel NPBIC finite element solver package\, and a host of numerical experiments and validation. \nAdvisor:\nDexuan Xie \nCommittee Members:\nIstvan Lauko\, Gabriella Pinter\, Lei Wang\, and Peter Hinow
URL:https://uwm.edu/math/event/phd-dissertation-defense-mr-liam-jemison/
LOCATION:EMS Building\, W109
CATEGORIES:Graduate Student Defenses
ORGANIZER;CN="The Department of Mathematical Sciences":MAILTO:math-staff@uwm.edu
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