![A) Radial diffusion assay of spent media from untransformed (1, 3) and... | Download Scientific Diagram A) Radial diffusion assay of spent media from untransformed (1, 3) and... | Download Scientific Diagram](https://www.researchgate.net/publication/248511190/figure/fig2/AS:393252613181441@1470770137263/A-Radial-diffusion-assay-of-spent-media-from-untransformed-1-3-and-transformed.png)
A) Radial diffusion assay of spent media from untransformed (1, 3) and... | Download Scientific Diagram
![Illustrating Axial Diffusion, Radial Diffusion and Fractional Diffusion [8] | Download Scientific Diagram Illustrating Axial Diffusion, Radial Diffusion and Fractional Diffusion [8] | Download Scientific Diagram](https://www.researchgate.net/publication/337462013/figure/fig1/AS:828226603597824@1574476018741/Illustrating-Axial-Diffusion-Radial-Diffusion-and-Fractional-Diffusion-8.png)
Illustrating Axial Diffusion, Radial Diffusion and Fractional Diffusion [8] | Download Scientific Diagram
![Understanding a Possible Wonder Drug: A Radial Diffusion Assay for the Rapid Evaluation of Antimicrobial Peptides | Semantic Scholar Understanding a Possible Wonder Drug: A Radial Diffusion Assay for the Rapid Evaluation of Antimicrobial Peptides | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/4adf60ee1afa43018011000521fba5030c894c9e/28-Figure4-1.png)
Understanding a Possible Wonder Drug: A Radial Diffusion Assay for the Rapid Evaluation of Antimicrobial Peptides | Semantic Scholar
![SOLVED: The diffusion equation for a long cylinder in which diffusion is everywhere radial can be represented by: ∂C/∂t = (1/r) ∂/∂r (r ∂C/∂r) D Here C is the concentration and r SOLVED: The diffusion equation for a long cylinder in which diffusion is everywhere radial can be represented by: ∂C/∂t = (1/r) ∂/∂r (r ∂C/∂r) D Here C is the concentration and r](https://cdn.numerade.com/ask_images/32f1ac451047452f900eac0dcc51e989.jpg)
SOLVED: The diffusion equation for a long cylinder in which diffusion is everywhere radial can be represented by: ∂C/∂t = (1/r) ∂/∂r (r ∂C/∂r) D Here C is the concentration and r
![DTI Processing - Voxel-based versus tract-based diffusion imaging | Diffusion Imaging; Introduction, tutorials and background on diffusion tensor imaging and techniques DTI Processing - Voxel-based versus tract-based diffusion imaging | Diffusion Imaging; Introduction, tutorials and background on diffusion tensor imaging and techniques](https://1.bp.blogspot.com/-YO3h0cRqTEc/UIRKEC_0N8I/AAAAAAAABQs/dEPzCbcyuCo/s1600/FA_tensor.png)
DTI Processing - Voxel-based versus tract-based diffusion imaging | Diffusion Imaging; Introduction, tutorials and background on diffusion tensor imaging and techniques
![a) Transition from radial to linear diffusion regimes with increasing... | Download Scientific Diagram a) Transition from radial to linear diffusion regimes with increasing... | Download Scientific Diagram](https://www.researchgate.net/publication/343896292/figure/fig5/AS:1042213148581904@1625494386655/a-Transition-from-radial-to-linear-diffusion-regimes-with-increasing-y-Randles-Sevcik.png)