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Illinois Phys550 Molecular Biophysics Lecture 22: Physics of Morphogenesis II
28 May 2010 | | Contributor(s):: Klaus Schulten
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Illinois Phys550 Molecular Biophysics Lecture 2: Compartmentalization of Cells, Photosynthesis I
26 Jan 2010 | | Contributor(s):: Klaus Schulten
Compartmentalization of cells, photosynthesis (part 1 of 2)
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Illinois Phys550 Molecular Biophysics Lecture 2: Compartmentalization of Cells, Photosynthesis II
26 Jan 2010 | | Contributor(s):: Klaus Schulten
Compartmentalization of cells, photosynthesis (part 2 of 2)
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Illinois Phys550 Molecular Biophysics Lecture 3: Biomolecular Structure, Molecular Graphics Tutorial
28 Jan 2010 | | Contributor(s):: Klaus Schulten
Protein structure I H1 with case study water
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Illinois Phys550 Molecular Biophysics Lecture 4: Genomics, Bioinformatics Tutorial I
01 Feb 2010 | | Contributor(s):: Klaus Schulten
Video for this lecture is not available. Aquaporins / H2 with case study aquaporin water channels
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Illinois Phys550 Molecular Biophysics Lecture 5: Genomics, Bioinformatics Tutorial II
10 Feb 2010 | | Contributor(s):: Klaus Schulten
Ribosome / H3 with case study DNA and RNAH2
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Illinois Phys550 Molecular Biophysics Lecture 6: Structure Analysis by X-ray and Electron Scattering I
12 Feb 2010 | | Contributor(s):: Klaus Schulten
Crystal Lattice Scattering of Individual Atoms
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Illinois Phys550 Molecular Biophysics Lecture 7: Structure Analysis by X-ray and Electron Scattering II
16 Feb 2010 | | Contributor(s):: Klaus Schulten
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Illinois Phys550 Molecular Biophysics Lecture 8: Electron Microscopy, The Physical Foundation
18 Feb 2010 | | Contributor(s):: Klaus Schulten
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Illinois Phys550 Molecular Biophysics Lecture 8: Radiation Processes, Part 1
22 Feb 2010 | | Contributor(s):: Klaus Schulten
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Illinois Phys550 Molecular Biophysics Lecture 9: Radiation Processes, Part 2
25 Feb 2010 | | Contributor(s):: Klaus Schulten
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Illinois Physics 498: Introduction to Biological Physics
07 Apr 2008 | | Contributor(s):: Paul R Selvin
We will apply simple yet powerful ideas of physics to gain some understanding of biology. (What is the inertia of a bacteria and how does this affect its behavior?) We will begin with atoms, move to molecules, then macromolecules, then cells, and finally whole systems. For example, how do we...
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Illinois Tools: Basic Bulk Silicon Transport Data at 300K
27 Oct 2009 | | Contributor(s):: Kyeong-hyun Park, Mohamed Mohamed, Nahil Sobh, Fawad Hassan
Calculations of doped bulk silicon transport data (new version release)
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Illinois Tools: NanoGromacs
27 Feb 2008 | | Contributor(s):: Dairui Chen, Derrick Kearney, Jay Mashl, Nahil Sobh, Eric Jakobsson
Implementation of the popular molecular dynamics software suite GROMACS
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Illinois Tools: NanoGromacsDemo
30 Oct 2006 | | Contributor(s):: Dairui Chen, Derrick Kearney, Jay Mashl, Nahil Sobh, Eric Jakobsson
Implementation of the popular molecular dynamics software suite GROMACS
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Illinois: NanoBiophotonics Summer School: First Impressions (3min video)
03 Nov 2011 | | Contributor(s):: Nadia Jassim
Nadia Jassim: Media Director (NanoHub/NCN@Illinois)Directed by/Edit:Nadia JassimAssistant Crew:Abby SobhObaid SarvanaThe National Science FoundationNanoHubIEEEBeckman Institute (UIUC)Strategic Initiative on ImagingMaterials Computation Centerhttp://light.ece.illinois.edu/nbss11/SCHOOL ORGANIZERS:...
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imageJ
03 Apr 2009 | | Contributor(s):: Raheem Syed, Nahil Sobh, Umberto Ravaioli, Gabriel Popescu, Mohamed Mohamed
It can display, edit, analyze, process, save and print 8-bit, 16-bit and 32-bit images. It can read many image formats.
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Intro to: Fourier optics, Light scattering, Holography, QPI (Parts 1 and 2)
30 May 2012 | | Contributor(s):: Gabriel Popescu
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Ion Selectivity in Synthetic and Natural Channels
31 Mar 2008 | | Contributor(s):: Susan Rempe
Transport across membranes and nanopores can be characterized by static equilibrium properties as well as by nonequilibrium dynamic properties. For example, equilibrium selectivity properties of a nanopore can be characterized by the difference in interaction free energy for transferring one ion...
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Is the Ideal Approximation Operator Always "Ideal" for a Particular C/F Splitting?
02 Feb 2016 | | Contributor(s):: Erin Molloy
Given a coarse grid, the ideal prolongation operator is defined by , where the weight matrix, , interpolates a set of fine grid variable (-points) from a set of coarse grid variable (-points), and the identity matrix, , represents the injection of -points to and from the...