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DTSTART;TZID=America/Los_Angeles:20250212T161500
DTEND;TZID=America/Los_Angeles:20250212T173000
DTSTAMP:20260414T215655
CREATED:20250125T041900Z
LAST-MODIFIED:20250204T061130Z
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SUMMARY:CCMS Colloquium: Stochastic Agent-Based Models in Mathematical Biology (Nabil Fadai\, University of Nottingham)
DESCRIPTION:Speaker: Nabil Fadai\, Professor of Mathematical Biology\, University of Nottingham \nTitle: Stochastic Agent-Based Models in Mathematical Biology \nAbstract: In the last decade\, there has been a movement to describe biological and social systems via agent-based models\, which track individual agents (organisms\, cells\, people) and their environment through a set of deterministic and probabilistic rules. In this talk\, we examine how these local individual-based mechanisms translate into global population dynamics. In particular\, we will consider the Allee effect in population models\, which were originally proposed to describe population dynamics that cannot be explained by exponential and logistic growth models. Using stochastic individual-based models\, we can obtain a modelling framework that translates particular global Allee effects to specific individual-based mechanisms. This modelling framework is then extended to applications in the social sciences\, including the modelling of sports riots and panic-buying. \nBio: Nabil  Fabir is an assistant professor at the University of Nottingham\, whose research focuses on employing reaction-diffusion equations and agent-based modelling to describe physical phenomena in a variety of applications. Originally from the west coast of Canada\, Nabil completed his PhD in the Industrially Focused Mathematical Modelling doctoral training centre at the University of Oxford in 2018. He worked as a postdoctoral researcher at the Queensland University of Technology in Brisbane\, Australia\, and has been at Nottingham since 2020. In addition to his research in industrial mathematics and mathematical biology\, Nabil is passionate about inclusive curriculum and accessible teaching to undergraduate students. \n 
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-nabil-fadai-university-of-nottingham/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20250205T161500
DTEND;TZID=America/Los_Angeles:20250205T173000
DTSTAMP:20260414T215655
CREATED:20250125T041206Z
LAST-MODIFIED:20250129T061036Z
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SUMMARY:CCMS Colloquium: (Hrushikesh Mhaskar\, Claremont Grad Uni.)
DESCRIPTION:Speaker: Hrushikesh Mhaskar\, Distinguished Research Professor of Mathematics\, Claremont Graduate University \nTitle: Local Analysis Of Global Data \nAbstract: For a periodic integrable function f\, the definition of Fourier coefficients requires the values of f on the entire period.\nWe refer to such data as “global” data. Even though the sequence of Fourier coefficients determines f uniquely\,\nthey do not reveal by themselves local features such as the locations of discontinuities of f (whose definition requires\nthe values of f locally near the point of discontinuity). We will describe our work for extracting such local features\nfrom global data. We will discuss some modern applications such as the separation of blind source signals\, and\nmachine learning problems\, classification and regression in particular. \nBio: Hrushikesh Mhaskar is a research professor of mathematics. He holds a PhD in mathematics\, MS in computer science\, and MS in mathematics from Ohio State University\, and an MSc in mathematics from Indian Institute of Technology\, Mumbai. \nMhaskar’s area of research is approximation theory and harmonic analysis. He has done pioneering work in the theory of weighted polynomial approximation on the real line\, making deep contributions in the areas of orthogonal polynomial expansions and applications of potential theory to the study of orthogonal polynomials\, now known as Freud polynomials. This work is recognized through such terms as Mhaskar-Rahmanov-Saff number and Mhaskar-Saff functional. Since 1990\, he has been interested in machine learning and signal processing\, making pioneering contributions to the theory of approximation capabilities (expressive power) of shallow and deep neural networks\, kernel-based methods\, and manifold learning. He has published two books\, five edited volumes\, and over 150 refereed papers. His research is supported currently by the National Science Foundation\, and previously by the U.S. Air Force\, U.S. Army\, and Office of the Director of National Intelligence (U.S.A.). \nMhaskar serves on the editorial boards of Applied and Computational Harmonic Analysis\, Journal of Approximation Theory\, Frontiers in Applied Mathematics and Statistics\, Jaen Journal of Approximation\, and Mathematical Foundations of Computing. Currently\, he has an affiliation with the University of California\, Santa Barbara. His honors include the Alexander v. Humboldt fellowship (5 times)\, John von Neumann distinguished professorship at Technical University in Munich in 2011\, and August-Wilhelm Scheer visiting professor at TUM (postponed due to the pandemic).
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-hrushikesh-mhaskar-claremont-grad-uni/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20250129T161500
DTEND;TZID=America/Los_Angeles:20250129T173000
DTSTAMP:20260414T215655
CREATED:20250112T013725Z
LAST-MODIFIED:20250129T042907Z
UID:3630-1738167300-1738171800@colleges.claremont.edu
SUMMARY:CCMS Colloquium: Math as the Gateway for STEM Achievement and Access: The Bridge to Enter Advanced Mathematics (BEAM) Program (Dan Zaharopol\, CEO BEAM)
DESCRIPTION:Speaker: Daniel Zaharopol\, Founder of Bridge to Enter Advanced Mathematics (BEAM)\, (AoPSI) The Art of Problem Solving Initiative\, Inc. \nTitle: Math as the Gateway for STEM Achievement and Access: The Bridge to Enter Advanced Mathematics (BEAM) Program \nAbstract: Knowing facts is not enough to drive success in STEM fields: one also needs strong problem solving\, rigorous reasoning\, comfort with abstraction\, and the insight to navigate broad spaces of open problems. However\, before college\, access to challenge and rigor is often limited to those from privileged backgrounds\, relying on paying for special programs or having strong community knowledge to find the right programs. \nHow\, then\, can we enhance access to high-quality preparation in STEM? In this talk\, I will share some reflections on the work to be done\, and how we are approaching that work at Bridge to Enter Advanced Mathematics (BEAM). BEAM creates pathways for students from low-income and historically marginalized communities to become scientists\, mathematicians\, engineers\, and computer scientists. What we’ve seen is clear: many more students can thrive with the right combination of support and access. With a thoughtful approach\, we can make real progress. \nBio: Dan Zaharopol is the Founder and CEO of Bridge to Enter Advanced Mathematics (BEAM). An award-winning teacher and nonprofit entrepreneur\, Dan’s work at BEAM has been featured in the New York Times\, Education Week\, the Notices of the American Mathematical Society\, and the Atlantic Monthly\, among others\, and he’s shared his work through articles and talks in a variety of settings.  But more importantly (at least to him)\, Dan loves math\, sharing math\, and mentoring and supporting students\, and he’s worked with enrichment programs supporting students from all backgrounds across the country. Dan is himself a product of STEM pathways; he received his undergraduate degree in math from MIT and masters’ degrees in both mathematics and teaching mathematics from the University of Illinois
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-dan-zaharopol/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241204T153000
DTEND;TZID=America/Los_Angeles:20241204T173000
DTSTAMP:20260414T215655
CREATED:20241125T183109Z
LAST-MODIFIED:20241202T232529Z
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SUMMARY:CCMS Colloquium with Pre-Colloquium Reception:  Shahriar Shahriari (Pomona College)
DESCRIPTION:We will conclude the CCMS Fall Colloquium Series with a Pre-Colloquium Reception followed by a talk (details below). \nPre-Colloquium Reception will begin at 3:30pm with foods and drink in the Estella Atrium. \nFollowing the reception\, the colloquium talk will start at 4:30pm (Notice the change in time.) \n_____________________ \nSpeaker: Shahriar Shahriari\, Professor of Mathematics and Statistics\, Pomona College\, Claremont\, CA \nTitle:  Combinatorial Connections: HyperCubes & Vector Spaces Over Finite Fields \nAbstract: Abstractions allow us to see connections between familiar objects. In extremal set theory\, often the aim is to find the largest or smallest collection of subsets with a specific property. Using the lens of partially ordered sets\, one can investigate vector spaces over finite fields using vaguely similar techniques. If V is an n-dimensional vector space over a finite field\, then how many k-dimensional subspaces can you find so that your collection does not include three distinct subspaces A\, B\, and C with A = (A\cap B) \oplus (A \cap C)? How many subspaces of any dimension can you find so that your collection does not include three distinct subspaces A\, B\, and C with either $A  \subseteq B \cap C$ or $B+C \subseteq A$? These puzzles will illustrate the connections between combinatorics of finite sets and of vector spaces. \nBio:  Shahriari is the William Polk Russell Professor of Mathematics at Pomona College. He has had the privilege of teaching/mentoring generations of talented students\, many of whom are now teaching in universities and colleges across the country. \nIn 2015\, Shahriar Shahriari received a Mathematical Association of America Deborah and Franklin Tepper Haimo Award for Distinguished Teaching in Mathematics for his commitment to bringing more students from underrepresented groups into the field of mathematics — widely considered the nation’s top prize for teaching mathematics. He is a five-time winner of Pomona College’s Wig teaching award. Known for classes that encourage student-driven discovery\, he published the materials for his honors Calculus class as a textbook\, titled Approximately Calculus\, which won the American Library Association’s Choice Award for Outstanding Academic Title in 2007. Shahriari has published three texts: “Approximately Calculus”\, “Algebra in Action”\, and “An Invitation to Combinatorics”\, and over 50 articles\, many coauthored with undergraduate students.
URL:https://colleges.claremont.edu/ccms/event/shahriar-shahriari-ccms-fall-2024/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241127T041500
DTEND;TZID=America/Los_Angeles:20241127T173000
DTSTAMP:20260414T215655
CREATED:20241112T043927Z
LAST-MODIFIED:20241112T044017Z
UID:3611-1732680900-1732728600@colleges.claremont.edu
SUMMARY:No CCMS Colloquium.  Happy Thanksgiving!
DESCRIPTION:
URL:https://colleges.claremont.edu/ccms/event/no-ccms-colloquium-on-november-27th-happy-thanksgiving-2/
LOCATION:CA
CATEGORIES:Colloquium
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241120T041500
DTEND;TZID=America/Los_Angeles:20241120T173000
DTSTAMP:20260414T215655
CREATED:20241111T183115Z
LAST-MODIFIED:20241116T023348Z
UID:3606-1732076100-1732123800@colleges.claremont.edu
SUMMARY:CCMS Colloquium: Sound Information is All You Need (Kobi Abayomi\, Seton Hall University)
DESCRIPTION:Speaker: Kobi Abayomi\, Head of Science\, Gumbel Demand Acceleration \nTitle: Sound Information is All You Need \nAbstract: It turns out that affinity for a song is predictable from its sound. We explore the statistical predictability of aggregate song demand from an informational representation. \n___________________________ \nBio: Dr. Abayomi is the Head of Science for Gumbel Demand Acceleration – a Software as a Service (SaaS) company for digital media. Dr. Abayomi was the first and founding SVP of Data Science at Warner Music Group (WMG). He has also served as a Professor of Industrial Engineering\, Probability\, and Statistics & Environmental Science at Georgia Tech\, Universidad de Cuenca\, and Binghamton University. He holds a Ph.D. in Probability and Statistics from Columbia University and Post-Doctorates from Duke and Stanford Universities. \nDr. Abayomi serves on the Data Science Advisory Council at Seton Hall University\, where he holds an appointment in the Mathematics & Computer Science Department. He serves on the Advisory Council at the Ivan Allen College at the Georgia Institute of Technology\, the Faculty Council at Barnes & Noble Education\, the advisory council for Modal Education\, and he is a chapter advisor for AI 2030.
URL:https://colleges.claremont.edu/ccms/event/sound-info/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241113T161500
DTEND;TZID=America/Los_Angeles:20241113T173000
DTSTAMP:20260414T215655
CREATED:20240905T023653Z
LAST-MODIFIED:20241108T224555Z
UID:3490-1731514500-1731519000@colleges.claremont.edu
SUMMARY:CCMS Colloquium: Molecular Pasta\, Complex Entanglement in Biopolymers (Dorothy Buck\, Duke Uni.)
DESCRIPTION:Speaker: Dorothy Buck\, Professor of Mathematics\, Duke University \nTitle: Molecular Pasta: Complex Entanglement in Biopolymers \nAbstract: If you’ve cooked spaghetti\, you’ve probably noticed how the pasta becomes entangled in the pot (especially in a small volume of water) or in your bowl afterwards.  This is a macro example of what I like to think about: entanglement in biopolymers.  Like linguine in a boiling pot of water\, our own DNA is a (group of) long skinny molecule(s) in the confined volume of an active\, energetic cell.  Unlike fettuccine though\, it’s life-or-death important to organize\, access and groom these long skinny DNA molecules.  So there’s a host of small machines (proteins) to do this\, in ways we’ve yet to fully understand.  Part of the complication is that we don’t yet have the precise experimental tools yet to watch (through microscopes) this dynamic process.  So instead we use the shape of these DNA molecules — before\, during and after their grooming — to back solve the precise processes that must be happening within the cell. \nIn this talk\, I’ll give an overview of some of these molecular biological questions\, why we care about them (as humans\, biologists and mathematicians) and some of my answers to these.  In particular I’ll highlight some more recent work on understanding DNA spatial graphs\, including those that look the the Greek letter theta\, and the exciting new mathematics we’ve developed to accurately model DNA during cell division \nBio: Dorothy Buck is an alumna of Pomona College\, and credits the Pomona Math department — including Professors Shahriar Shahriari\, Richard Elderkin and especially Erica Flapan — for igniting a love of both math and academia. Her 20+ years of research has worked to characterize entanglement – in circles\, linear segments and graphs – and to explore how biomolecular entanglement affects cellular structure and function. She investigates this molecular entanglement using a combination of topological (3-manifold) techniques and occasionally biochemical experiments. \nShe’s currently a professor at Duke\, after faculty positions in the US (Brown and Johns Hopkins) and the UK\, and much earlier an NSF postdoc and PhD with advisors in both Math and Molecular Biology.  After many years at the bench\, she now collaborates with experimental and computational experts.  She’s been the recipient of over $5M in grants\, which has funded both her own research and her large team\, as well as projects with architects and an Artist in Residence.
URL:https://colleges.claremont.edu/ccms/event/molecular-pasta/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241106T160000
DTEND;TZID=America/Los_Angeles:20241106T173000
DTSTAMP:20260414T215655
CREATED:20241108T223540Z
LAST-MODIFIED:20241108T224503Z
UID:3604-1730908800-1730914200@colleges.claremont.edu
SUMMARY:CCMS Colloquium: Dynamical Systems and the Period 3 Implies Chaos Theorem (Michelle Manes\, AIM)
DESCRIPTION:Speaker: Michelle Manes\, AIM \nTitle: Dynamical Systems and the Period 3 Implies Chaos Theorem \nAbstract: Sharkovskii’s theorem\, sometimes called “period 3 implies chaos\,” concerns a one-dimensional real dynamical system: a function from the real line to itself that you iterate and study the orbits of points. This theorem is fascinating because of its very simple hypotheses\, its surprisingly strong conclusion\, and its clever and elementary proof that uses not much more than the intermediate value theorem and some careful bookkeeping. Like Sharkovskii’s theorem\, my mathematics research lives in the world of iterated dynamical systems\, and I’ll end by telling you a bit about some interesting number theoretic questions one can ask (and sometimes answer) in this context. \nBio: Michelle Manes received her AB in mathematics from UC Berkeley\, an MEd in Deaf Education from Boston University\, and an ScM and PhD in mathematics from Brown University. She was a professor in the mathematics department at the University of Hawaii for 15 years before leaving to join the American Institute of Mathematics (in Pasadena) as Deputy Director. She has also worked as a program officer at the National Science Foundation. She has taught mathematics at every level from 3rd grade through graduate school and has co-authored textbooks for middle grades mathematics\, high school geometry\, linear algebra\, and preservice elementary teachers. \nDr. Manes does research in number theory\, primarily in the field of arithmetic dynamics. She has authored over 30 articles\, most of them in collaboration with some of her best friends. She believes deeply in collaboration\, mentoring\, and professional service. She has served on committees for the Association for Women in Mathematics (AWM)\, the Mathematical Association of America (MAA)\, and the American Mathematical Society (AMS). She currently serves as the Associate Secretary for the Western Section of the AMS and as an editor-in-chief for La Matematica\, the flagship journal of the AWM. She has received numerous accolades including the Regents Medal for Excellence in Teaching at the University of Hawaii and the Haimo Award for Distinguished College or University Teaching of Mathematics from the MAA Golden Section and an AWM Service Award. She has been named a Fellow of the AWM and of the AMS.
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-dynamical-systems-and-the-period-3-implies-chaos-theorem-michelle-manes-aim/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241030T161500
DTEND;TZID=America/Los_Angeles:20241030T173000
DTSTAMP:20260414T215655
CREATED:20241108T223952Z
LAST-MODIFIED:20241108T224318Z
UID:3605-1730304900-1730309400@colleges.claremont.edu
SUMMARY:CCMS Colloquium: Braids\, Polynomials\, and Hilbert’s 13th Problem (Jesse Wolfson\, UC Irvine)
DESCRIPTION:Speaker:Jesse Wolfson\, UC Irvine \nTitle: Braids\, Polynomials\, and Hilbert’s 13th Problem \nAbstract: There are still completely open fundamental questions about polynomials in one variable. One example is Hilbert’s 13th Problem\, a conjecture going back long before Hilbert. Indeed\, the invention of algebraic topology grew out of an effort to understand how the roots of a polynomial depend on the coefficients. The goal of this talk is to explain part of the circle of ideas surrounding these questions. Along the way\, we will encounter some beautiful classical objects – the space of monic\, degree d square-free polynomials\, algebraic functions\, lines on cubic surfaces\, level structures on Jacobians\, braid groups\, Galois groups\, and configuration spaces – all intimately related to each other\, all with mysteries still to reveal. This is ongoing joint work with Benson Farb and Mark Kisin. \nBio: Jesse Wolfson is an associate professor and vice chair of inclusive excellence in the department of mathematics at the University of California\, Irvine.  His research focuses on long-standing open problems at the interface of algebra\, geometry and topology.  His perspective on geometry and topology emerges in part from his long-running exchange with choreographer Reggie Wilson. He currently serves on the board of directors of Wilson’s Fist and Heel Performance Group\, an internationally acclaimed Brooklyn based “Post-African neo-hoodoo modern dance company.”
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-braids-polynomials-and-hilberts-13th-problem-jesse-wolfson-uc-irvine/
LOCATION:CA
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241023T041500
DTEND;TZID=America/Los_Angeles:20241023T041500
DTSTAMP:20260414T215655
CREATED:20240930T201652Z
LAST-MODIFIED:20241020T033253Z
UID:3559-1729656900-1729656900@colleges.claremont.edu
SUMMARY:Frameworks in Motion: Design\, Theory\, and Fabrication (Jessica Sidman\, Amherst College
DESCRIPTION:Speaker: Jessica Sidman\, Professor of Mathematics and Computer Science\, Amherst College \nTitle: Frameworks in Motion: Design\, Theory\, and Fabrication \nAbstract: What do your umbrella\, a folding gate\, and a scissor lift have in common? They all involve frameworks made of rigid parts attached at flexible joints and are designed to move with one degree of freedom. In 1981 architect Santiago Calatrava wrote a PhD thesis\, “Concerning the Foldability of Space Frames\,” containing a systematic exploration of the geometry and design of foldable frameworks. I’ll use his thesis as a jumping off point to explore the Geiringer-Laman Theorem and ideas for further research.\n \nBio:  Jessica Sidman loves to work on pure and applied problems at the intersection of computational algebra\, algebraic geometry\, and combinatorics. Her recent work in rigidity theory combines aspects of these three fields\, and all got started when an undergraduate doing a thesis on protein folding asked her a question about projective space. She got her B.A. from Scripps College\, a Ph.D. from the University of Michigan\, and did postdoctoral work at UC Berkeley and UMass Amherst.  She was the Professor of Mathematics on the John Stewart Kennedy Foundation at Mount Holyoke College and is now the Brian E. Boyle Professor in Mathematics and Computer Science at Amherst College.
URL:https://colleges.claremont.edu/ccms/event/frameworks-in-motion-design-theory-and-fabrication-jessica-sidman-amherst-college/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241016T161500
DTEND;TZID=America/Los_Angeles:20241016T173000
DTSTAMP:20260414T215655
CREATED:20241015T012713Z
LAST-MODIFIED:20241015T212726Z
UID:3576-1729095300-1729099800@colleges.claremont.edu
SUMMARY:CCMS Colloquium: “Paths in Mathematics After Undergrad” Panel
DESCRIPTION:CCMS Colloquium: “Paths in Mathematics After Undergrad” Panel \nWe will be holding a virtual panel on careers and grad school after a bachelor’s mathematics degree\, with a follow-up discussion time in breakout rooms. \nPanelists\nBrianna Huynh (PO-2024)\, MS student in MathEd at Cal Poly Pomona\nTaylor McAdam (HMC-2013)\, Visiting Assistant Professor of Mathematics\, at Pomona College\nRaj Sawhney (HMC-2023\, MA CGU-2023)\, Research Fellow at Energy Futures Initiative and CEO of Clearview Strategic Partners\nArvind Suresh (CMC-2015)\, Postdoctoral Research Associate\, Department of Mathematics at University of Arizona
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-paths-in-mathematics-after-undergrad-panel/
LOCATION:CA
CATEGORIES:Colloquium
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241009T041500
DTEND;TZID=America/Los_Angeles:20241009T173000
DTSTAMP:20260414T215655
CREATED:20240926T033236Z
LAST-MODIFIED:20240926T033236Z
UID:3544-1728447300-1728495000@colleges.claremont.edu
SUMMARY:What Happens when Our Perspectives Don’t Align with the Math?  (Anne Cawley\, Cal Poly Pomona)
DESCRIPTION:Speaker: Anne Cawley\, Associate Professor of Mathematics and Statistics\, Cal Poly Pomona\, CA \nTitle: What Happens When Our Perspectives Don’t Align with the Math? \nAbstract: Many people often share that they like math because there is “one right answer” and is an objective field. Once they find the answer\, they are done with a problem. However\, what happens when we complete our mathematical work but we choose to ignore what that work tells us? This talk discusses my experience teaching a lesson within a Teaching Math for Social Justice course related to a recent Supreme Court case on voting rights. Many students used mathematics to support an argument that the Supreme Court made in a February hearing\, however\, due to their personal perspectives\, provided a conclusion that differed from what the math indicated. This talk shares about the tensions that can arise when considering math and social justice. \nBio: Anne Cawley is an associate professor of Mathematics and Statistics at Cal Poly Pomona. Her research in Mathematics Education relates to equity\, specifically to classroom experiences of historically underrepresented students\, sense of belonging\, and math instruction in the first two years of college. She provides professional development for mathematics faculty at toward equity-minded teaching practices. Anne is the course coordinator for co-requisite mathematics courses at Cal Poly Pomona\, working with various campus partners for student success. She is also an active member in various mathematics education organizations such as AMATYC\, RUME\, and MESCal. \n  \n 
URL:https://colleges.claremont.edu/ccms/event/what-happens-when-our-perspectives-dont-align-with-the-math-anne-cawley-cal-poly-pomona-2/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20241002T160000
DTEND;TZID=America/Los_Angeles:20241002T173000
DTSTAMP:20260414T215655
CREATED:20240929T210415Z
LAST-MODIFIED:20240929T210437Z
UID:3558-1727884800-1727890200@colleges.claremont.edu
SUMMARY:No CCMS Colloquium on October 2nd!
DESCRIPTION:We will see you all next week!
URL:https://colleges.claremont.edu/ccms/event/no-ccms-colloquium-on-october-2nd/
LOCATION:CA
CATEGORIES:Colloquium
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240925T041500
DTEND;TZID=America/Los_Angeles:20240925T173000
DTSTAMP:20260414T215655
CREATED:20240921T190045Z
LAST-MODIFIED:20240921T190045Z
UID:3529-1727237700-1727285400@colleges.claremont.edu
SUMMARY:A polyhedral view of refined q-t Catalan numbers (Max Hlavacek\, Pomona College)
DESCRIPTION:Title: A polyhedral view of refined q-t Catalan numbers \nSpeaker: Max Hlavacek Assistant Professor of Mathematics and Statistics department\, Pomona College\, Claremont \nAbstract: Many problems in algebraic combinatorics have geometric objects lurking in the background\, and bringing these objects forward can shed some light on the original problem.  We begin with an introduction to polyhedral cones and their connection to multivariable generating functions.  Then\, we pivot and introduce Catalan-Minggatu numbers and some of their generalizations\, including refined q-t Catalan numbers\, first introduced by Xin and Zhang in 2022. Finally\, we take a look at the polyhedral cones underlying these objects and see how these geometric objects can give us insight into open problems about refined q-t Catalan numbers. \nBio: Max Hlavacek is a Visiting Assistant Professor in the mathematics and statistics department at Pomona College.  Previously\, they were a graduate student at UC Berkeley and an undergraduate student at Harvey Mudd College.  They are interested in problems in enumerative geometric combinatorics\, particularly concerning discrete volumes of polytopes.  They love thinking about math with others\, and especially enjoy learning about the interplay between polyhedral objects such as cones and polytopes and their friends’ and collaborators’ mathematical interests. \nThe talk is based on joint work with Matthias Beck\, Mitsuki Hanada\, John Lentfer\, Andrés R. Vindas-Meléndez\, and Katie Waddle. \n 
URL:https://colleges.claremont.edu/ccms/event/a-polyhedral-view-of-refined-q-t-catalan-numbers-max-hlavacek-pomona-college/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240918T161500
DTEND;TZID=America/Los_Angeles:20240918T173000
DTSTAMP:20260414T215655
CREATED:20240902T155816Z
LAST-MODIFIED:20240906T130426Z
UID:3484-1726676100-1726680600@colleges.claremont.edu
SUMMARY:An Invitation to Enumerative Geometric Combinatorics (Andrés R. Vindas Meléndez\, Harvey Mudd College)
DESCRIPTION:Speaker: Andrés R. Vindas Meléndez\, Assistant Professor of Mathematics\, Harvey Mudd College\, Claremont CA \nTitle: An Invitation to Enumerative Geometric Combinatorics \nAbstract: Enumerative geometric combinatorics is an area of mathematics concerned with counting properties of geometric objects described by a finite set of building blocks. Lattice polytopes are geometric objects that can be formed by taking the convex hull of finitely many integral points. In this talk I will present background on polytopes\, lattice-point enumeration\, and share some results on special families and properties of polytopes that can be further studied. Throughout the talk I will present questions and open problems. \nBio:  Andrés R. Vindas Meléndez\,  is an Assistant Professor of Mathematics at Harvey Mudd College. His research interests are in algebraic\, enumerative\, and geometric combinatorics. His scholarly interests have also expanded to include mathematical & computational approaches and applications of data science and mathematics for social justice. He has also been a research member for the SLMath Fall 2023 program on Algorithms\, Fairness\, & Equity and a research scholar at the Institute for Computational and Experimental Research Mathematics [ICERM] for the program on Data Science & Social Justice: Networks\, Policy\, & Education during the Summers of 2022 and 2023. \nProf. Andrés strives to create community in order to build mathematics users’ confidence in spite of society’s negative messages and stigma about mathematics. He also aims to build meaningful and empowering experiences with mathematics\, while also challenging others to think about the power structures that are present in and outside mathematical spaces. \n 
URL:https://colleges.claremont.edu/ccms/event/an-invitation-to-enumerative-geometric-combinatorics/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240501T161500
DTEND;TZID=America/Los_Angeles:20240501T173000
DTSTAMP:20260414T215655
CREATED:20240428T031302Z
LAST-MODIFIED:20240428T031302Z
UID:3448-1714580100-1714584600@colleges.claremont.edu
SUMMARY:CCMS Colloquium: Inaugurual Barbara Beechler Lecture
DESCRIPTION:CCMS Colloquium invites you to the final talk of the 2023-2024 academic year and the inaugural Barbara Beechler Lecture by Professor Judy Grabiner\, Flora Sanborn Pitzer Professor of Mathematics Emerita. \nTitle: It’s All for the Best: Optimization in the History of Science \nAbstract: Many problems\, from optics to economics\, can be solved mathematically by finding the highest\, the quickest\, the shortest – the best of something. This has been true from antiquity to the present. Why did we start looking for such explanations\, and how did we conclude that we could productively do so? Scientific examples will include problems from ancient optics\, and more modern questions in optics and classical mechanics\, drawing on ideas from Newton’s and Leibniz’s calculus and from the Euler-Lagrange calculus of variations. A surprising role will also be played by philosophical and theological ideas\, including those of Leibniz\, Maupertuis\, MacLaurin\, and Adam Smith. \nSpeaker Bio: Judith V. Grabiner received her B.S. in mathematics with honors from the University of Chicago\, and her PhD at Harvard in the History of Science\, with advisors I Bernard Cohen and Dirk Struik. For fourteen years she was a Professor of History at California State University\, Dominguez Hills\, and then for thirty years was Professor of Mathematics at Pitzer College. She has also taught at various times at Harvard\, UC Santa Barbara\, Cal State LA\, UCLA\, Pomona College\, and the University of Leeds in England. \nHer publications have received three Carl B. Allendoerfer Awards for the best article in Mathematics Magazine\, and she is the only four-time winner of the MAA’s Lester Ford award for best article in the American Mathematical Monthly. In 2003 she received the MAA’s Haimo award for teaching mathematics\, principally for her courses in mathematics for liberal arts students. In 2014 her book A Historian Looks Back: The Calculus as Algebra and Selected Writings won the Beckenbach Book Prize from the MAA. She is a Fellow of the American Mathematical Society\, and in 2021 won the Albert Leon Whiteman prize from the AMS for what they called “her outstanding contributions to the history of mathematics\, in particular her works on Cauchy\, Lagrange\, and MacLaurin; her widely-recognized gift for expository writing; and a distinguished career of teaching\, lecturing\, and numerous publications promoting a better understanding of mathematics and the significant roles it plays in culture generally.” \n 
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-inaugurual-barbara-beechler-lecture/
LOCATION:CA
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240417T161500
DTEND;TZID=America/Los_Angeles:20240417T173000
DTSTAMP:20260414T215655
CREATED:20240412T211923Z
LAST-MODIFIED:20240412T211923Z
UID:3436-1713370500-1713375000@colleges.claremont.edu
SUMMARY:Structural Ramsey Theory and Logic (Lynn Scow\, CSUSB)
DESCRIPTION:Title: Structural Ramsey Theory and Logic \nSpeaker: Lynn Scow\, Professor of Mathematics\, California State University\, San Bernardino \nAbstract: The connection between Ramsey theory and logic goes back to Frank P. Ramsey’s 1929 paper in which he announced his famous Ramsey theorem for finite sequences.  This theorem states that for any partition of all sequences of length $k$ from $\mathbb{N}$ into finitely many pieces\, there is an infinite subset $X \subset \mathbb{N}$ such that all sequences of length $k$ from $X$ lie in one piece of this partition.  In the intervening years\, Ramsey theory has been used to study problems in logic\, and vice versa.  In this talk\, I will survey some results from the last few decades\, as well as highlight some results obtained with my coauthor Dana Bartošová at University of Florida. \n\n\n\n\n\nLynn Scow studied mathematics and philosophy at UC Berkeley as an undergraduate and continued on to earn her Ph.D. in mathematics from UC Berkeley.  She then held a postdoctoral position at University of Illinois Chicago followed by a visiting position at Vassar College\, and is currently faculty at California State University\, San Bernardino.  Her research area is primarily in foundations and mathematical logic\, including applications of structural Ramsey theory to model theory and vice versa.  She treasures mathematics for the conversations\, the shared understandings\, and the joy.
URL:https://colleges.claremont.edu/ccms/event/structural-ramsey-theory-and-logic-lynn-scow-csusb/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240403T161500
DTEND;TZID=America/Los_Angeles:20240403T173000
DTSTAMP:20260414T215655
CREATED:20240329T203409Z
LAST-MODIFIED:20240403T231510Z
UID:3424-1712160900-1712165400@colleges.claremont.edu
SUMMARY:CCMS Colloquium Presents the Fall 2024 Course Preview Session
DESCRIPTION:For the next CCMS Colloquium on April 3rd Wednesday\, we invite all \nMATH faculty\, and students intending to enroll in upper division math courses \nto attend the \nFall 2024 Course Preview Session \nof all the upper division math courses offered across the consortium in Fall 2024. \nFaculty\, \nWe strongly encourage you to attend so that students can interact with you\, as this will make the registration process much easier\, with less class switching in the Fall. \nStudents\, \nThis session is particularly important for you to get to know all the upper division course options in mathematics before registration and ask your questions to faculty in person! \nTo access the slides click HERE!
URL:https://colleges.claremont.edu/ccms/event/ccms-colloquium-presents-the-fall-2024-course-fair/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
ORGANIZER;CN="Bahar Acu":MAILTO:Bahar_Acu@pitzer.edu
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240327T161500
DTEND;TZID=America/Los_Angeles:20240327T173000
DTSTAMP:20260414T215655
CREATED:20240326T203434Z
LAST-MODIFIED:20240326T203434Z
UID:3418-1711556100-1711560600@colleges.claremont.edu
SUMMARY:A Survey of Diophantine Equations (Edray Goins\, Pomona College)
DESCRIPTION:Title: A Survey of Diophantine Equations \nSpeaker: ​Edray Herber Goins\, Professor of Mathematics and Statistics\, Pomona College \nAbstract: There are many beautiful identities involving positive integers. For example\, Pythagoras knew $3^2 + 4^2 = 5^2$ while Plato knew $3^3 + 4^3 + 5^3 = 6^3$. Euler discovered $59^4 + 158^4 = 133^4 + 134^4$\, and even a famous story involving G.~H.~Hardy and Srinivasa Ramanujan involves $1^3 + 12^3 = 9^3 + 10^3$. But how does one find such identities?  Around the third century\, the Greek mathematician Diophantus of Alexandria introduced a systematic study of integer solutions to polynomial equations. In this talk\, we’ll focus on various types of so-called Diophantine Equations\, discussing such topics as Pythagorean Triples\, Pell’s Equations\, Elliptic Curves\, and Fermat’s Last Theorem. \n\n\n\n\nEdray Herber Goins is Professor of Mathematics and Statistics at Pomona College. He has worked as a researcher at both Harvard and the National Security Agency; and has taught at both Caltech and Purdue. Professor Goins has published over 25 journal articles in areas such as applied mathematics\, graph theory\, number theory\, and representation theory; and on topics such as Diophantine equations\, elliptic curves\, and African Americans in mathematics. He has given nearly 300 invited addresses on his research\, acted as a referee for nearly 20 different journals in mathematics\, served on dozens of panels for the National Science Foundation (NSF)\, and been awarded more than $1\,370\,000 in external funding.  Goins currently maintains the website “Mathematicians of the African Diaspora (MAD Pages)”\, and runs a federally-funded Research Experience for Undergraduates (REU) titled Pomona Research in Mathematics Experience (PRiME).
URL:https://colleges.claremont.edu/ccms/event/a-survey-of-diophantine-equations-edray-goins-pomona-college/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240306T161500
DTEND;TZID=America/Los_Angeles:20240306T173000
DTSTAMP:20260414T215655
CREATED:20240225T235722Z
LAST-MODIFIED:20240225T235722Z
UID:3398-1709741700-1709746200@colleges.claremont.edu
SUMMARY:Teaching Equity-minded Active Mathematics: A model for Instructional Change (Amelia Stone-Johnstone\, CSU Fullerton)
DESCRIPTION:Title: Teaching Equity-minded Active Mathematics: A model for Instructional Change \nSpeaker: ​Amelia Stone-Johnstone\, Department of Mathematics\, California State University\, Fullerton \nAbstract: Active learning has been championed as a mechanism for greater student learning and participation in STEM. However\, recent studies have demonstrated how active learning without an explicit equity focus may harm students from historically marginalized communities in STEM. In this talk\, I will introduce a model for professional development that attends both to equity and active learning. In addition\, I will introduce the Teaching Equity-minded and Active Mathematics (TEAM) Tool\, a tool for pedagogical reflection that was developed by a team of undergraduate students at California State University\, Fullerton. This research-backed tool was constructed as a way to support faculty in creating a learning atmosphere in which students can explore\, discuss\, and learn mathematics in the classroom in a safe\, just\, active\, and equitable manner. \n\n\n\n\n\nAmelia Stone-Johnstone is an Assistant Professor in the Mathematics Department at California State University\, Fullerton. Her research involves the development and assessment of academic support systems in introductory mathematics courses. In addition\, Dr. Stone-Johnstone’s research and service include faculty professional development on equity-minded instruction.
URL:https://colleges.claremont.edu/ccms/event/teaching-equity-minded-active-mathematics-a-model-for-instructional-change-amelia-stone-johnstone-csu-fullerton/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240228T161500
DTEND;TZID=America/Los_Angeles:20240228T173000
DTSTAMP:20260414T215655
CREATED:20240222T005317Z
LAST-MODIFIED:20240222T005317Z
UID:3395-1709136900-1709141400@colleges.claremont.edu
SUMMARY:A Group-Theoretic Ax-Katz Theorem (Pete L. Clark\, University of Georgia)
DESCRIPTION:Title: A Group-Theoretic Ax-Katz Theorem \nSpeaker: Pete L. Clark\, University of Georgia \nAbstract: The Chevalley-Warning Theorem is a result from 1935 asserting that the number of solutions to a low degree polynomial system over a finite field is divisible by the characteristic of the field.  It is an important result — it includes a conjecture of Artin and Dickson from the 1920’s — but it is not difficult to prove: the original proof is about three pages.  In 1964 James Ax gave a completely elementary ten line proof.   In the same paper\, Ax showed that as the number and degrees of the polynomials are held fixed and the number of variables increases\, not only is the size of the solution set divisible by p but by higher and higher powers of p.  The best possible p-adic divisibility here was given in 1971 by Nicholas Katz.  Katz’s proof is at a much higher level: you need specialist knowledge in the right subfields of number theory to understand it.  Simpler proofs were found later\, but none fulfills the fantasy of generalizing Ax’s ten line proof of Chevalley-Warning. \nA 2021 work of Aichinger-Moosbauer develops a fully fledged calculus of finite differences for maps between commutative groups and uses it to give a purely group-theoretic generalization of Chevalley-Warning. Nicholas Triantafillou and I have used and extended this work: up to a few black boxes (where most of the content is indeed hidden) we give a ten line proof of a group-theoretic analogue of Ax-Katz that “qualitatively fulfills my fantasy.”\n\n\n\n\n\nIn (North)west Philadelphia was Pete L. Clark born and raised.  He received undergraduate and masters degrees from the University of Chicago and a PhD from Harvard University.  He has worked in the Mathematics Department at the University of Georgia since 2006\, where he was the Graduate Coordinator from 2016-2019 and where he is now the Principal Honors Advisor.  When time permits he is an avid reader\, and his favorite authors include Ralph Ellison\, Jonathan Franzen\, Kazuo Ishiguro\, Carmen Maria Machado and Lorrie Moore.
URL:https://colleges.claremont.edu/ccms/event/a-group-theoretic-ax-katz-theorem-pete-l-clark-university-of-georgia/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240221T161500
DTEND;TZID=America/Los_Angeles:20240221T173000
DTSTAMP:20260414T215655
CREATED:20240202T200558Z
LAST-MODIFIED:20240202T200558Z
UID:3374-1708532100-1708536600@colleges.claremont.edu
SUMMARY:Evolution of an Intriguing Recreational Math Problem (Shawn McMurran\, California State University San Bernardino)
DESCRIPTION:Title: Evolution of an Intriguing Recreational Math Problem \nSpeaker: Shawn McMurran\, California State University San Bernardino \nAbstract: Besides being popular and entertaining\, recreational mathematics problems are often of historical interest. In this presentation we will highlight the origin and evolution of one such simply stated yet deep problem. The problem emerged during the eighteenth century tucked into a primarily standard arithmetic text. Over the next two centuries\, several notable names contributed to a growing collection of extensions\, generalizations\, and solution strategies. In more recent years\, relatives of this versatile problem have remained ubiquitous. It is likely that most audience members are familiar with at least one of its incarnations. During our journey\, opportunities will be provided for the audience to engage with the problem and some of its variations. \n\n\n\n\n\nShawn McMurran is a professor of mathematics at California State University San Bernardino. She earned her PhD in mathematics from UC Riverside with a background in PDEs. Current areas of interest include mathematics education and history of mathematics. She and her colleague Jim Tattersall have enjoyed many years of collaboration on math history projects\, including the subject of this presentation.
URL:https://colleges.claremont.edu/ccms/event/evolution-of-an-intriguing-recreational-math-problem-shawn-mcmurran-california-state-university-san-bernardino/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240214T161500
DTEND;TZID=America/Los_Angeles:20240214T173000
DTSTAMP:20260414T215655
CREATED:20240210T024434Z
LAST-MODIFIED:20240210T024434Z
UID:3381-1707927300-1707931800@colleges.claremont.edu
SUMMARY:Mirror Symmetry and Zeta Values (Sheel Ganatra\, USC)
DESCRIPTION:Title: Mirror Symmetry and Zeta Values \nSpeaker: Sheel Ganatra\, University of Southern California \nAbstract: Mirror symmetry is a conjectural correspondence\, born out of ideas in string theory\, between two geometries of very different nature. In its earliest mathematical appearance\, mirror symmetry was used to make predictions for certain numerical measurements of one space in terms of utterly different calculations on a mirror space. Mysteriously\, certain famous arithmetic constants\, the Riemann zeta values\, were repeatedly observed to appear in the transformation taking measurements on one side to measurements on the mirror side.  I will survey these ideas and then present joint work with Abouzaid\, Iritani\, and Sheridan explaining a geometric origin for the appearance of these constants in mirror symmetry. \n\n\n\n\n\nSheel Ganatra is an Associate Professor at the University of Southern California. Prior to coming to USC in 2016\, he completed his PhD at MIT with Denis Auroux in 2012 (two years of which were on exchange at UC Berkeley) and spent 4 years as a Szegö Assistant Professor and NSF postdoctoral Fellow at Stanford. His research interests include symplectic geometry and mirror symmetry\, and he is the recipient of an NSF Career Award and a Simons Fellowship.
URL:https://colleges.claremont.edu/ccms/event/mirror-symmetry-and-zeta-values-sheel-ganatra-usc/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240207T161500
DTEND;TZID=America/Los_Angeles:20240207T173000
DTSTAMP:20260414T215655
CREATED:20240201T010113Z
LAST-MODIFIED:20240201T010113Z
UID:3373-1707322500-1707327000@colleges.claremont.edu
SUMMARY:Shrinkage Estimation for Causal Inference and Experimental Design (Evan T. R. Rosenman)
DESCRIPTION:Title: Shrinkage Estimation for Causal Inference and Experimental Design \nSpeaker: Evan T. R. Rosenman\, Assistant Professor of Statistics\, Claremont McKenna College \nAbstract: Passive collection of observational data — in settings such as medicine\, insurance\, and e-commerce — is a ubiquitous feature of modern life. For statisticians\, these ever-proliferating datasets are both promising and perilous. Observational data often contain rich information about the causal effects of novel treatments\, such as a new vaccine or drug regimen. Yet\, because assignment to treatment is not randomized within these data\, one can never guarantee that treated and untreated units are comparable. Consequently\, causal effects derived from observational studies often suffer from bias. The applied literature contains myriad examples of treatments that seemed promising in observational data\, only to be overturned by later\, higher-quality studies. \nHow might we make headway\, given these challenges? One approach is to couple observational data with randomized trials. In this talk\, I will consider how to develop estimators to merge causal effect estimates obtained from observational and experimental datasets\, when the two data sources measure the same treatment. I will primarily operate in the Empirical Bayes (EB) framework. EB procedures\, rooted in the work of Charles Stein and the renowned James-Stein estimator\, offer principled\, data-driven methods for reconciling competing estimates of the same quantity. I will discuss two techniques for deriving EB estimators that effectively merge observational and experimental causal estimates. Additionally\, I will explore the potential contribution of these concepts to improving the efficiency of prospective randomized trials. Simple algorithms\, leveraging numerical integrals\, will be highlighted for making more informed recruitment and treatment assignment decisions within the experimental setup.\n\n\n\n\n\nEvan Rosenman is an Assistant Professor of Statistics in the Claremont McKenna Department of Mathematical Sciences. His research focuses primarily on problems in data science and causal inference\, with applications to political science and public health. He is particularly intrigued by problems involving hybridizing observational and experimental data to better estimate causal effects\, and by applications in modern electioneering\, such as ecological inference and prediction calibration. He earned his PhD in Statistics from Stanford University and completed a postdoctoral fellowship at the Harvard Data Science Initiative.
URL:https://colleges.claremont.edu/ccms/event/shrinkage-estimation-for-causal-inference-and-experimental-design-evan-t-r-rosenman/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240131T161500
DTEND;TZID=America/Los_Angeles:20240131T173000
DTSTAMP:20260414T215655
CREATED:20240120T030122Z
LAST-MODIFIED:20240120T030122Z
UID:3343-1706717700-1706722200@colleges.claremont.edu
SUMMARY:Math as Art and Recreation (Peter Kagey\, HMC)
DESCRIPTION:Title: Math as Art and Recreation \nSpeaker: Peter Kagey\, HMC \nAbstract: Recreational Mathematics is an area of math which is rooted in exploration and playfulness\, and includes puzzles\, games\, art\, and more. This talk takes a closer look at these ideas\, emphasizing how a foundation of curiosity and play can lead to insightful connections with various branches of mathematics\, fostering a deeper appreciation for both the beauty and the enjoyment inherent in mathematics. Illustrating this\, I will describe how a question from Martin Gardner ultimately led to theorems in group theory and combinatorics\, demonstrating the unexpected bridges that can be built between recreational puzzles and deeper mathematical concepts. \n\n\n\n\n\nPeter Kagey is a Visiting Assistant Professor from Harvey Mudd College. He received his Ph.D. from the University of Southern California in 2022. Since 2019\, he has been an Associate Editor with the On-Line Encyclopedia of Integer Sequences. His research interests include combinatorics and algebra\, along with discrete\, experimental\, and recreational mathematics. He is passionate about cultivating a culture of joy\, curiosity\, and care in the mathematics community.
URL:https://colleges.claremont.edu/ccms/event/math-as-art-and-recreation-peter-kagey-hmc/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20240124T161500
DTEND;TZID=America/Los_Angeles:20240124T173000
DTSTAMP:20260414T215655
CREATED:20240118T192512Z
LAST-MODIFIED:20240118T192512Z
UID:3339-1706112900-1706117400@colleges.claremont.edu
SUMMARY:Graph Complexes and Moduli Spaces of Curves (Siddarth Kannan\, UCLA)
DESCRIPTION:Title: Graph Complexes and Moduli Spaces of Curves \nSpeaker: Siddarth Kannan\, UCLA \nAbstract: I will begin by defining a certain combinatorial object called a graph complex. Then I will give a brief introduction to the moduli space of curves. The study of the geometry of this moduli space has occupied several generations of mathematicians\, across fields such as algebraic and differential geometry\, mathematical physics\,  geometric group theory\, and more. Finally\, I will describe the beautiful connection between the graph complex and the topology of the moduli space. \n\n\n\n\n\nI am currently a postdoc at UCLA. I obtained my PhD from Brown University in 2023\, after graduating from Pomona College in 2018. I first became interested in the combinatorial aspects of algebraic geometry while working with Prof. Dagan Karp as an undergraduate.
URL:https://colleges.claremont.edu/ccms/event/graph-complexes-and-moduli-spaces-of-curves-siddarth-kannan-ucla/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
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END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20231129T161500
DTEND;TZID=America/Los_Angeles:20231129T173000
DTSTAMP:20260414T215655
CREATED:20231107T015413Z
LAST-MODIFIED:20231107T015413Z
UID:3318-1701274500-1701279000@colleges.claremont.edu
SUMMARY:“The science of Mathematics is not crystallized into text-books” : The Bryn Mawr Mathematical Journal Club (1896 — 1924)\, (Jemma Lorenat\, Pitzer College)
DESCRIPTION:Title: “The science of Mathematics is not crystallized into text-books” : The Bryn Mawr Mathematical Journal Club (1896 — 1924) \nSpeaker: Jemma Lorenat\, Pitzer College \nAbstract: As mathematics departments in the United States began to shift toward standards of original research at the end of the nineteenth century\, many adopted journal clubs as forums for students to synthesize and share new research. The Bryn Mawr Mathematical Journal Club\, maintained episodically between 1896 and 1924\, began as a supplement to the graduate course offerings. Each semester student and professor participants focused on a single disciplinary area or surveyed what had been published lately. The Notebooks containing these reports were stored on the open shelves of the college library. These collectively composed documents record ways in which graduate students transcribed and interpreted contemporary mathematics. This talk focuses on the entries of Virginia Ragsdale\, in which she formulated research questions\, tested potential strategies\, and pursued novel results in topology. \n\n\n\n\n\nJemma Lorenat is a historian of mathematics at Pitzer College. She enjoys learning about the long nineteenth century\, visualization\, quantification\, ordinary people becoming mathematicians\, food\, and many other things. Her forthcoming book is about how the local environment of Bryn Mawr College shaped mathematical practices there.
URL:https://colleges.claremont.edu/ccms/event/the-science-of-mathematics-is-not-crystallized-into-text-books-the-bryn-mawr-mathematical-journal-club-1896-1924-jemma-lorenat-pitzer-college/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20231115T161500
DTEND;TZID=America/Los_Angeles:20231115T173000
DTSTAMP:20260414T215655
CREATED:20231106T190605Z
LAST-MODIFIED:20231106T190605Z
UID:3313-1700064900-1700069400@colleges.claremont.edu
SUMMARY:Adinkra Heights and Color-Splitting Rainbows (Ursula Whitcher\, American Mathematical Society)
DESCRIPTION:Title: Adinkra Heights and Color-Splitting Rainbows \nSpeaker: Ursula Whitcher\, American Mathematical Society \nAbstract: Adinkras are decorated graphs that encapsulate information about conjectural relationships between fundamental particles in physics. If we color the edges of an Adinkra with a rainbow of shades in a specific order\, we obtain a special curve that we can study usingalgebraic and geometric techniques. We use this structure to characterize height functions on Adinkras\, then show how to compute the same information using data from our rainbow. This talk describes joint work with Amanda Francis. \n\n\n\n\n\nDr. Ursula Whitcher is an associate editor at Math Reviews (MathSciNet)\, a project of the American Mathematical Society\, covering a range of areas from algebraic geometry to history of mathematics. Before joining the AMS\, Dr. Whitcher earned a PhD from the University of Washington\, was a Teaching and Research Postdoctoral Fellow at Harvey Mudd\, and became an associate professor at the University of Wisconsin-Eau Claire. Find Dr. Whitcher’s mathematically inspired poetry and fiction in Asimov’s Science Fiction Magazine\, Analog\, or the Journal of Humanistic Mathematics.
URL:https://colleges.claremont.edu/ccms/event/adinkra-heights-and-color-splitting-rainbows-ursula-whitcher-american-mathematical-society/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20231108T161500
DTEND;TZID=America/Los_Angeles:20231108T173000
DTSTAMP:20260414T215655
CREATED:20231020T213110Z
LAST-MODIFIED:20231020T213157Z
UID:3297-1699460100-1699464600@colleges.claremont.edu
SUMMARY:Lonely Runners and My Favorite Polyhedron (Matthias Beck\, San Francisco State University)
DESCRIPTION:Title: Lonely Runners and My Favorite Polyhedron \nSpeaker: Matthias Beck\, Department of Mathematics\, San Francisco State University \nAbstract: We study the Lonely Runner Conjecture\, conceived by Wills in the 1960’s\, and originally phrased in terms of Diophantine approximation: Given positive integers n_1\, n_2\, …\, n_k\, there exists a positive real number t such that for all 1 ≤ j ≤ k the distance of t n_j to the nearest integer is at least 1/(k+1). This conjecture can be recast in lay terms: if k runners with different (constant) speeds move around a circular track of length 1\, then for each runner there will be a time when they have distance at least 1/k to the others. This (in)famous conjecture in combinatorial number theory is open for k ≥ 7.We will give a brief history of the Lonely Runner Conjecture and some of its variants\, emphasizing a view-obstruction approach by Cusick and recent work by Henze and Malikiosis; our goal is to promote a polyhedral ansatz to the Lonely Runner Conjecture. Our results include affirmative instances that become (quite literally) visible through polyhedral geometry. \nBased on joint work with Serkan Hosten (SF State) and Matthias Schymura (Rostock). \n\n\n\n\n\nMatthias Beck is a professor of mathematics at San Francisco State University and has had visiting positions at SUNY Binghamton\, the Mathematical Sciences Research Institute in Berkeley\, the Max-Planck-Institute in Bonn\, Cornell University\, Vassar College\, and the Freie Universität in Berlin. Matt’s research is in combinatorics and number theory\, in particular\, counting integer points in polyhedra and the application of these enumeration functions to various mathematical topics and problems. He (co-)authored four books and numerous research papers\, many of which feature student coauthors. Matt was honored with the Mathematical Association of America’s Haimo Award for Distinguished College or University Teaching of Mathematics in 2013.x`
URL:https://colleges.claremont.edu/ccms/event/lonely-runners-and-my-favorite-polyhedron-matthias-beck-san-francisco-state-university/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Argue Auditorium Pomona College 610 N. College Ave. Claremont CA 91711 United States;X-APPLE-RADIUS=500;X-TITLE=610 N. College Ave.:geo:-117.7142668,34.0999157
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20231101T161500
DTEND;TZID=America/Los_Angeles:20231101T173000
DTSTAMP:20260414T215655
CREATED:20231030T223857Z
LAST-MODIFIED:20231030T223857Z
UID:3307-1698855300-1698859800@colleges.claremont.edu
SUMMARY:Slope Gap Distributions of Translation Surfaces (Taylor McAdam\, Pomona College)
DESCRIPTION:Title: Slope gap distributions of translation surfaces \nSpeaker: Taylor McAdam\, Department of Mathematics\, Pomona College \nAbstract: How “random” are the rational numbers? To make sense of this question\, let us consider the set of Farey fractions of level n—that is\, the rational numbers between 0 and 1 with denominator at most n. It turns out that these distribute uniformly in the unit interval as n goes to infinity\, which would suggest they appear to be quite random. However\, we may consider a finer test of randomness by considering the distribution of gaps between consecutive Farey fractions as n tends to infinity. To investigate this\, we will first realize the Farey fractions as the slopes of geodesic paths on the (square) flat torus—a geometric object obtained by gluing the opposite edges of a square together. We will then define the horocycle flow on the space of all flat tori\, which will allow us to study our question about gaps between Farey fractions via a dynamical system. Finally\, we will see how this method can be generalized to study the slope gap distributions for paths on a larger class of geometric objects called translation surfaces and discuss results on the collection of surfaces obtained by gluing together opposite edges of the regular 2n-gon.\n\n\n\n\n\n\nTaylor McAdam graduated with a Bachelor’s degree in mathematics from Harvey Mudd College in 2013 before starting a doctoral program at University of Texas at Austin. In 2017\, she transferred to the University of California San Diego\, where she received her PhD in mathematics in 2019 under the supervision of Amir Mohammadi. She was an NSF Postdoctoral Fellow at Yale University from 2019 to 2023\, before joining the faculty at Pomona College in 2023 as a Visiting Assistant Professor. Her research interests lie at the intersection of dynamical systems\, geometry\, and number theory\, and she is passionate about undergraduate math education and building inclusive mathematical communities.
URL:https://colleges.claremont.edu/ccms/event/slope-gap-distributions-of-translation-surfaces-taylor-mcadam-pomona-college/
LOCATION:Argue Auditorium\, Pomona College\, 610 N. College Ave.\, Claremont\, CA\, 91711\, United States
CATEGORIES:Colloquium
GEO:34.0999157;-117.7142668
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END:VEVENT
END:VCALENDAR