Questions tagged [discretization]

The process of representing a continuum space with a finite set of points/elements

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26
votes
3answers
1k views

Why is the time dimension special?

Generally speaking, I've heard numerical analysts utter the opinion that "Of course, mathematically speaking, time is just another dimension, but still, time is special" How to justify this? In ...
3
votes
1answer
208 views

Which discretization scheme to use for elliptic PDE?

While simulating motion of nonlinear inelastic wire one meets the following equations \begin{align} &{\partial^2\varphi\over\partial t^2}=2{\partial F\over\partial s}{\partial\varphi\over\partial ...
8
votes
2answers
4k views

structured grid and unstructured grid

I am new to the field of CFD. When should one go for structured grid and when should one go for unstructured? (Yes, it depends a lot on the geometry of the problem) More specifically, I want to know ...
4
votes
1answer
1k views

Python syntax for MATLAB/Octave colon operator a:dx:b

I am trying to rewrite some MATLAB/Octave code in Python, and I don't know what would be the nicest or most intuitive way of writing ...
8
votes
1answer
168 views

Eigenspace basis continuously depending on parameters

I have a Hermitian matrix $\mathbf{H}$ which depends on two parameters say $x$ and $y$. When I diagonalize it at two close points $(x_1,y_1)$ and $(x_2,y_2)$ I get two close eigenvalues ($\...
3
votes
1answer
2k views

How to obtain an implicit finite difference scheme for the wave equation?

Suppose I had the following problem: $U_{tt}=U_{xx}+U_{yy}$ in $\Omega=[0,1]\times[0,1]$ $U(x,y,0)=f(x,y)$ $U_{t}(x,y,0)=g(x,y)$ $U=0$ on $\partial \Omega$ I know that there is an explicit ...
23
votes
6answers
17k views

How can I numerically differentiate an unevenly sampled function?

Standard finite difference formulas are usable to numerically compute a derivative under the expectation that you have function values $f(x_k)$ at evenly spaced points, so that $h \equiv x_{k+1} - x_k$...
8
votes
2answers
204 views

Is there one general approach to build a projection methods for different problems?

My question is probably going to be too general to answer it with a couple words. Could you please suggest a good reading in that case. Projection methods are used to reduce size of the solution space ...
5
votes
1answer
215 views

Discretization of Classical Density Functional Theory (CDFT) problems

I formulate questions about ion densities in biological and materials problems using Classical Density Functional Theory, as in this paper which is also on the arXiv. The discretization in that paper ...

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