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Thursday,
04 June 2026 |
Video-Recording for any system with MP4-support - Video.mp4 (ca. 400 Mb) |
15:15 – 16:16 |
"Beyond Gauss’ Pizza Theorem: From wrinkly
isometry to snap-through"
Prof. Dominic Vella
(Mathematical Institute, University of Oxford)
Abstract:
Thin objects are easy to deform, as we see in
everyday life: a piece of paper crumples,
while an umbrella may invert in the
wind. It is also clear that such thin
structures
choose to bend, rather than compress,
whenever possible. Gauss’
"Remarkable Theorem” restricts how such
pure bending deformations can happen,
and its consequences are everywhere from
pizza slices to the domed roofs of buildings.
Nevertheless, I’ll show how Gauss’ Theorem
can be subverted by thin sheets apparently
allowing them to change Gaussian
curvature. At the same time, a small but finite
thickness may lead to snap-through, which
reveals some intricate nonlinear dynamics.
About the speaker:
Dominic Vella studied at Trinity College,
University of Cambridge, and obtained his PhD
from the Department of Applied Mathematics
and Theoretical Physics (DAMPT) in 2007.
He remained at Trinity College as a Junior
Research Fellow until 2010. From 2007 to 2009,
he was also a research fellow at Ecole Normale
Supérieure (ENS) and ESPCI in Paris,
supported by the Royal Commission for the
Exhibition of 1851. In 2011, he moved to the
Mathematical Institute in the University
of Oxford, where he became a Professor of
Applied Mathematics in 2016. He is the recipient
of a Leverhulme Trust Research Fellowship,
an ERC starting grant and the Whitehead
Prize of the London Mathematical Society.
He works on various aspect of fluid and
solid mechanics. In particular, he studied and
coined the Cheerios effect.