![Elementary biophysics: selected topics . x3/4 •r1/4 Fig. 37. The initial arrangement has all the particles in one half of the setup. The concentration, plotted on the right, is 100% up Elementary biophysics: selected topics . x3/4 •r1/4 Fig. 37. The initial arrangement has all the particles in one half of the setup. The concentration, plotted on the right, is 100% up](https://c8.alamy.com/comp/MA75HW/elementary-biophysics-selected-topics-x34-r14-fig-37-the-initial-arrangement-has-all-the-particles-in-one-half-of-the-setup-the-concentration-plotted-on-the-right-is-100-up-to-the-division-point-then-falls-abruptly-to-zero-after-a-short-time-there-is-a-net-flow-of-particles-to-the-right-so-that-the-concentration-now-drops-more-gradually-to-zero-after-more-time-for-diffusion-the-particles-have-reached-almost-to-the-right-hand-end-of-the-tube-and-the-concentration-falls-almost-linearly-to-zero-after-an-infinite-time-the-particles-are-evenly-distributed-through-the-tube-which-MA75HW.jpg)
Elementary biophysics: selected topics . x3/4 •r1/4 Fig. 37. The initial arrangement has all the particles in one half of the setup. The concentration, plotted on the right, is 100% up
![In vitro assembly, positioning and contraction of a division ring in minimal cells | Nature Communications In vitro assembly, positioning and contraction of a division ring in minimal cells | Nature Communications](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41467-022-33679-x/MediaObjects/41467_2022_33679_Fig1_HTML.png)
In vitro assembly, positioning and contraction of a division ring in minimal cells | Nature Communications
![Development of an Axial Cyclone for High-performance: Application of Cycloid Curve and Multi Objective Optimization - Aerosol and Air Quality Research Development of an Axial Cyclone for High-performance: Application of Cycloid Curve and Multi Objective Optimization - Aerosol and Air Quality Research](https://aaqr.org/images/article_images/2022/feature/22-01-0041.jpg)