Office: 413-597-2437
Home: 413-458-8652
FAX: 413-597-4061
Frank.Morgan@williams.edu
http://www.williams.edu/Mathematics/fmorgan
Biographical
information on Frank Morgan
Publications
Student
research supervision
Frank Morgan works in minimal surfaces and studies the behavior and
structure of minimizers in various dimensions and settings. He has six
books: Geometric
Measure Theory: a Beginner's Guide 2000, Calculus Lite 2001,
Riemannian Geometry:
a Beginner's Guide 1998,
The
Math Chat Book 2000, based on his
live,.call-in Math Chat TV show and Math Chat column, Real Analysis
2005, and Real
Analysis and Applications 2006.
Area: geometry, minimal surfaces, geometric measure theory, calculus of variations.
Williams College, 1987-
Chair, 1988-94
Dennis Meenan '54 Third Century Professor of Mathematics, 1997-2003
Webster Atwell '21 Professor of Mathematics, 2003-
National Science
Foundation research grants, 1977-2006, 2008-
Rice, Visiting Assistant Professor, 1982-83
Stanford, Visiting Associate Professor, 1986-87
NSF Math Advisory Committee, 1987-90
Institute for Advanced Study, 1990-91
First National Distinguished Teaching Award, 1992
University of Massachusetts, Adjunct Professor, 1992-
Council, AMS, 1994-97
Queens College, CUNY, Visiting Professor, fall 1994
Distinguished Alumnus Award, William Allen High School, 1995
Princeton, 250-Anniversary
Visiting Professorship for Distinguished Teaching, 1997-98
Second Vice-President, Math. Assn. America, 2000-2002
Recent talks:
Popular talk: Soap Bubbles and Mathematics
Abstract: Soap bubbles continue to confound and amaze mathematicians. Some recent mathematical breakthroughs are due to students. The presentation will include a little guessing contest with demonstrations, explanations, and prizes. No prerequisites. Friends and families welcome.
Colloquium talk: Isoperimetric Double Bubbles in Rn and Other Spaces.
Abstract: The classical isoperimetric theorem (Schwarz, 1884) says that a single round soap bubble in R3 provides the most efficient, least-area way to enclose a given volume of air. The Double Bubble Theorem (Hutchings, Morgan, Ritore, Ros, Annals of Math 2002) says that the familiar double soap bubble provides the most efficient way to enclose and separate two given volumes in R3. More recently there have been partial extensions from R3 to the sphere S3, hyperbolic space H3, the torus T3, and higher dimensions, including some work by undergraduates. Many open questions remain. No specific prerequisites; undergraduate majors welcome.
Colloquium/research seminar talk: Manifolds with Density
Abstract: Perelman's proof of the Poincaré Conjecture requires placing a positive, continuous "density" function on the manifold. Manifolds with density appear a number of places in mathematics. The premier example, Gauss space (Euclidean space with Gaussian density), is important to probabilists. We'll discuss results and open questions, starting with isoperimetric problems. The grand goal is to generalize all of Riemannian geometry to manifolds with density.
eCalculus.org, including $1000 National High School Calculus Student Award
SMALL undergraduate research project