From e1dd8a37251cb8a7a63c7bef23f9ed4b1054290e Mon Sep 17 00:00:00 2001
From: Michael Jung <49093417+mjungmath@users.noreply.github.com>
Date: Mon, 29 Apr 2024 21:48:42 +0200
Subject: [PATCH] add talk and conferences

---
 _events/thermodynamics.md | 14 ++++++++++++++
 _pages/mathematics.md     |  8 ++++++--
 2 files changed, 20 insertions(+), 2 deletions(-)
 create mode 100644 _events/thermodynamics.md

diff --git a/_events/thermodynamics.md b/_events/thermodynamics.md
new file mode 100644
index 0000000..cc7e806
--- /dev/null
+++ b/_events/thermodynamics.md
@@ -0,0 +1,14 @@
+---
+#
+# This file generates an event.
+#
+layout:      event
+title:       Thermodynamics of life in a nutshell
+speaker:     Maarten Droste
+dt_start:    06-05-2024 15:00
+dt_end:      06-05-2024 16:00
+location:    VU Amsterdam, NU-09A46 (Maryam)
+---
+
+Buckle up and prepare for an interdisciplinary rollercoaster of a nutshell seminar. It will feature a physicist trying to explain some biology to mathematicians.
+Thermodynamics considers life as an open out-of-equilibrium system that exchanges energy and matter with its environment. Through conversions these can be exploited by the cell to maintain its internal processes and grow. During these processes, energy is dissipated which produces entropy. Earlier results suggest that entropy production rate (EPR) is an important quantity for microbial growth. From biophysical intuition one could expect that EPR always increases with growth rate. We show that this is true for microorganisms cultivated in a chemostat with a fixed conversion of substrates into products. Some microbes however show a metabolic shift as function of their growth rate, which changes their net conversion. This may result in a reduced EPR at increasing growth rate. We analyze this situation using chemostat models of yeast, which we parameterized with experimental data. We also derive a quantitative criterion that can be used to predict the EPR of shifts in metabolic strategies across microbial species. If time permits, we will also dive into the intracellular metabolic processes and the corresponding thermodynamics and discuss future ideas to model this.
\ No newline at end of file
diff --git a/_pages/mathematics.md b/_pages/mathematics.md
index 6cc7abb..41329a7 100644
--- a/_pages/mathematics.md
+++ b/_pages/mathematics.md
@@ -31,13 +31,17 @@ slides
 conferences
 -----------
 
+*   Young Topologists Meeting 2024  
+    *Münster, August 05--09, 2024*
+*   Masterclass: Homotopical Methods in Manifold Theory  
+    *Copenhagen, April 15--19, 2024*
 *   Contact And Symplectic Topology  
     *Bochum, February 8--10, 2024*
 *   Geometry and Quantum Theory: Graduate School and Conference  
     *Nijmegen, August 28 -- September 01, 2023*
-*   Young Topologists Meeting  
+*   Young Topologists Meeting 2023 
     *Lausanne, July 24--28, 2023*
-*   Nederlands Mathematisch Congress  
+*   Nederlands Mathematisch Congress 2023  
     *Utrecht, April 11--12, 2023*
 *   Spring school on algebraic topology and field theories  
     *Utrecht, May 16--20, 2022*