Theoretical physicists have modeled the motion of microscopic, motile bodies - either powered micro-machines or living cells - in viscous liquid drops, using the Navier-Stokes equations. This work has applications in materials science and medicine.
source https://www.sciencedaily.com/releases/2020/11/201111122842.htm
Thursday, 12 November 2020
Related Posts
A better black hole laser may prove a circuitous 'Theory of Everything'Researchers propose quantum circuit black hole lasers to explore Hawki… Read More
What makes us human? The answer may be found in overlooked DNAOur DNA is very similar to that of the chimpanzee, which in evolutiona… Read More
Climatic impacts of black carbon aerosols over South-East Atlantic underestimated, research showsThe full magnitude of the impact of smoke from seasonal fires in Centr… Read More
Ruling electrons and vibrations in a crystal with polarized lightThe quantum behavior of atomic vibrations excited in a crystal using l… Read More
Winter-swimming Scandinavian men can teach us how the body adapts to extreme heat and coldThe Scandinavian winter swimming culture combines brief dips in cold w… Read More
Engineers 3D-print personalized, wireless wearables that never need a chargeEngineers have developed a new type of wearable with several unprecede… Read More
0 comments: