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Deriving the SWM Lecture 1: Conservation of Potential Vorticity
04 May 2016 | | Contributor(s):: Christopher KRT Jones
This lecture develops the conservation equation for potential vorticity in the shallow water model.
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Deriving the SWM Lecture 2: Stream Functions for Velocity Fields
04 May 2016 | | Contributor(s):: Christopher KRT Jones
This lecture develops the formulation of the stream function for the velocity field of the shallow water equation. his is the second in a series of short lectures on deriving the shallow water model, given by Chris Jones in 2013.
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Deriving the SWM Lecture 3: Barotropic Vorticity Equations
04 May 2016 | | Contributor(s):: Christopher KRT Jones
This lecture develops the barotropic vorticity equations for the shallow water model. This is background lecture 2.1C in the Mathematics of Climate Modelling course.
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MAA-NCS Summer Seminar Conceptual Climate Models
22 Feb 2016 | | Contributor(s):: Esther R Widiasih, Richard McGehee, Anna Barry, Samantha Megan Oestreicher, Jim Walsh
MAA North Central Section Summer Seminar Conceptual Climate Models, July 22-24, 2013, Augsburg College in Minneapolis, MNSeminar home page: http://homepages.gac.edu/~hvidsten/MAASeminar/index.html
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Global Warming Could Be Nonlinear
23 Nov 2015 | | Contributor(s):: Jonah Bloch-Johnson
It is widely acknowledged that many components of the Earth's climate system exhibit nonlinear behavior when forced, with examples ranging from ice sheets to ocean circulations to savanna. These changes, as profound as they are, are not expected to greatly impact global climate, as...
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Where's the Math in Climate Science?
09 Nov 2015 | | Contributor(s):: Christopher KRT Jones
Abstract: Climate science is dominated by the use of large-scale models, of which there are only 30 or so around the world. It might then seem that the need for mathematics is limited to areas that directly support the operation of such models. I will explain, by digging into the way the models...
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Climate Lecture by KK Tung
17 Sep 2015 |
A condensed introduction to conceptual climate modeling, written by KK Tung.
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Powerpoint Intro to Potential Analysis
16 Sep 2015 | | Contributor(s):: Darren Anthony Marotta
A technique to detect the number of states in a geophysical system attained from recorded time series. Potential Analysis estimates the degree of a polynomial, which determines the number of states in the time series. Changes in the number of states represent bifurcations of the system.
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Hans Philipp Engler
I was born in Germany and was trained as a mathematician at the University of Heidelberg, where I received a PhD in 1981.I trained as a postdoctoral associate at the University of Wisconsin...
https://mcrn.hubzero.org/members/1122
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Andrew Frank Gallatin
https://mcrn.hubzero.org/members/1104
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Julie Leifeld
https://mcrn.hubzero.org/members/1063
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Midwest Mathematics and Climate Conference
12 May 2015 |
The conference is sponsored by the National Science Foundation, Institute of Mathematics and Its Applications, the Office of Research,College of Liberal Arts and Sciences, and the Department of Mathematics, Department of Geography/Atmospheric Science Program,...
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Introduction to the Mathematics of Climate at UMN - Lecture 23
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 23 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
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Introduction to the Mathematics of Climate at UMN - Lecture 22
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 22 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
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Introduction to the Mathematics of Climate at UMN - Lecture 21
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 21 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
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Introduction to the Mathematics of Climate at UMN - Lecture 20
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 20 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
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Introduction to the Mathematics of Climate at UMN - Lecture 18
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 18 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
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Introduction to the Mathematics of Climate at UMN - Lecture 14
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 14 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
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Introduction to the Mathematics of Climate at UMN - Lecture 13
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 13 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
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Introduction to the Mathematics of Climate at UMN - Lecture 12
12 May 2015 | | Contributor(s):: Richard McGehee
This is lecture 12 in the series "Introduction to the Mathematics of Climate" offered at the University of Minnesota in 2014 with the support of MCRN and The Institute for Mathematics and its Applications.
