Not exact matches
To work out
how to enable
liquid metal to move autonomously, Professor Kourosh Kalantar - zadeh and his group from the School of Engineering at RMIT first immersed
liquid metal
droplets in water.
The work also explains
how the electric charges that accumulate on the surface of
liquid metal
droplets, together with their oxide skin, can be manipulated and used.
But in 2012, Chloé Lahondère and a colleague described
how Anopheles stephensi mosquitoes that exude a
liquid droplet that dangles and cools, but at the other end of the animals.
However, until now, our understanding of exactly
how the sliding behaviour of
liquid droplets depends on surface microstructures has been limited.
«We've identified a range of operating conditions which include the speed and diameter of the
droplets, which will give you better
liquid deposition on the surface, and this provides guidelines for
how it's best to operate spray dryers,» Hardalupas said.
«Probability density function,» a statistical representation of the likelihood of something occurring at any point in time, was used to examine cloud properties, including vertical motion,
liquid and ice water content, and the conditions of cloud particle growth, including
how ice crystals grow at the expense of
liquid droplets.
Using nuclear magnetic resonance (NMR) spectroscopy, computer simulations and microscopy, the researchers showed
how disease mutations and arginine methylation, a functional modification common to a large family of proteins with low - complexity domains, altered the formation of the
liquid droplets and their conversion to solid - like states in disease.
Supercooled water
droplets can exist naturally in the upper regions of the planet's atmosphere, but physicists still don't know just
how cold
liquid water can get.
BOUNCING DROPSThis video shows
how small
liquid droplets can not sit on the lizard's skin.