[NMRwiki tweet] nmrwiki: Watch this #rap about #nmr the fun part start 1 min into the video http://ww
nmrwiki: Watch this #rap about #nmr the fun part start 1 min into the video http://www.youtube.com/watch?v=LVZJsBNLjV0
nmrwiki: Watch this #rap about #nmr the fun part start 1 min into the video http://www.youtube.com/watch?v=LVZJsBNLjV0
Source: NMRWiki tweets
nmrlearner
Twitter NMR
0
08-22-2010 01:49 AM
[NMR software blog] Hands on 3-D Processing
Hands on 3-D Processing
A measure of the computing power available today with a desktop computer is the possibility of processing huge spectra in real time. For example: is it possible to correct the phase of a 3-D matrix interactively, in real time? The answer is: yes and you don't even have to employ more than a single core nor to buy an high-end graphic card. When I mean interactive processing I mean that:
- you see a graphic representation of the matrix at each processing stage.
- you can play with it, for example change a parameter just to see the effect it has on the matrix.
It is...
nmrlearner
News from NMR blogs
0
08-21-2010 06:29 PM
MathNMR: Mathematica package for spin and spatial tensor manipulations
MathNMR: Mathematica package for spin and spatial tensor manipulations
http://www.nyu.edu/projects/jerschow/graphical_commutator.png
Spin and spatial tensor manipulations are frequently required to describe and the theory of NMR experiments. This is a Mathematica package, which provides some of the most common functions for these calculations. Examples are the calculation of matrix representations of operators, commutators, projections, rotations, Redfield matrix elements, matrix decomposition into basis operators, change of basis, coherence filtering, and the manipulation of...
nmrlearner
NMR software
2
08-08-2007 04:54 PM
Analysis of NMR relaxation with MATHEMATICA
Dr. Leo Spyracopoulos offers a download of the following Mathematica notebooks for analysis of NMR relaxation data from his website.Inertia Tensor: This notebook will read a pdb file and calculate the components of the inertia tensor. A trace through the Calpha atoms of the protein is shown, along with the principal components of the inertia tensor; this trace can be rotated in real time.
Schurr Analysis: This noteboook will read backbone amide 15N-T1,-T2, and NOE data collected at a single magnetic field strength and calculate S2, a local overall correlation time, and an internal...
Hands-on Start to Mathematica
Linear Mode
