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Soft Matter news
New self-powered electrostatic tweezer enhances object manipulation and microfluidics
In a study published in Device has reported a new self-powered electrostatic tweezer that offers superior accumulation and tunability of triboelectric charges, enabling unprecedented flexibility and adaptability for manipulating ...
Soft Matter
15 hours ago
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Team develops novel hybrid scheme for compressible flow computations
A team of scientists has developed a novel hybrid scheme for both steady and unsteady single-phase compressible flow simulations. Their scheme has potential applications in real-world scenarios, offering a promising avenue ...
Soft Matter
15 hours ago
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Exploring what happens when different spherical objects hit the water
When an object hits a body of water vertically, it is accompanied by a strong hydrodynamic force fueled by the flow of water around it, which propels it forward. The magnitude of this force is known to vary depending on the ...
Study finds active matter and shear flows share thinning behaviors
According to a study published in Proceedings of the National Academy of Sciences, a research team led by Professor Xu Ning from the University of Science and Technology of China (USTC) has found that active matter and shear ...
Soft Matter
Jul 24, 2024
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Does heat travel differently in tight spaces? New insights into convection heat and fluid mechanics
A search for "air fryer recipe" on most social media platforms likely returns a flood of food videos touting quick and easy meal ideas. The market touts these devices as a convenient, clean, quick way to heat and crispen ...
General Physics
Jul 24, 2024
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Study shows elephant trunk dexterity can be mimicked with minimal actuators
The trunk of an elephant is among the versatile appendages in the animal kingdom. Now a research team has shown that most of its dexterity can be reproduced with a model using just three "muscles." And they built a physical ...
Two-in-one mapping of temperature and flow around microscale convective plumes
Researchers from Tokyo Metropolitan University have devised a way to measure both the temperature and velocity profiles of fluid in a convective plume at millimeter length scales in 3D. They combined near-infrared absorption ...
General Physics
Jul 22, 2024
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Tuning into the frequencies of conical shells: Research reveals a fluid-structure symphony
Truncated conical shells are essential in industries such as aerospace and marine engineering, where understanding their dynamic behavior is crucial. Traditional research has primarily focused on cylindrical shells, leaving ...
General Physics
Jul 22, 2024
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Bursting of underwater oil drops: How pollution may remain in water after oil spill cleanups
Oil drops from underwater oil spills can break into tinier droplets at the surface that remain suspended in the water, according to research from the University of Illinois Chicago. That means cleanups after disasters like ...
Soft Matter
Jul 18, 2024
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Modeling a right royal butterfly effect
The monarch butterfly, Danaus plexippus, is renowned for its striking appearance and perhaps even more than that, its remarkable long-distance migration. The population present in North America heads south each year in the ...
Soft Matter
Jul 11, 2024
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New theory reveals fracture mechanism in soft materials
A new theory has finally deciphered the physical mechanisms of fracture in soft materials. This discovery could soon lead to new, defect-free materials that are more resistant and durable as well as environmentally friendly. ...
Soft Matter
Jul 3, 2024
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Quantum sensors: How does the flow profile affect flow measurements?
Researchers at Fraunhofer IPM have developed a contactless flow measurement method based on magnetic fields. For the first time, they have been able to show the quantitative impact of the flow profile on the magnetic signal. ...
Soft Matter
Jul 2, 2024
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Observing flows at a liquid-liquid-solid intersection
Most of us are familiar with the classic example of a liquid-gas moving contact line on a solid surface: a raindrop, sheared by the wind, creeps along a glass windscreen. The contact line's movements depend on the interplay ...
Soft Matter
Jun 26, 2024
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Model shows how plankton survive in a turbulent world
How do particles move in turbulent fluids? The answer to this question can be found in a new model presented in a thesis from the University of Gothenburg. The model could help speed up the development of new drugs.
General Physics
Jun 25, 2024
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Thermoelectric effect between two liquid materials observed for the first time
A trio of physicists at Sorbonne Université, in France, has observed a thermoelectric effect between two liquid materials for the first time. In their study, published in Proceedings of the National Academy of Sciences, ...
The unexpected connection between brewing coffee and understanding turbulence
In 1883, Osborne Reynolds injected ink into water in a short, clear pipe to observe its movement. His experiments showed that as the input water velocity increased, the flow went from laminar (smooth and predictable) to turbulent ...
Soft Matter
Jun 3, 2024
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New study unveils how water dynamics slow down at low temperatures
A scientist at the Institute for Molecular Science has published a study that provides insight into the puzzling phenomenon of dynamic slowdown in supercooled water, an essential step toward understanding the glass transition ...
Soft Matter
May 28, 2024
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Study shows plant hydraulics create streaming electric potential in sync with biological clock
When plants draw water from their roots to nourish their stems and leaves, they produce an electric potential that could be harnessed as a renewable energy source. However, like all living things, plants are subject to a ...
General Physics
May 28, 2024
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Scientists reveal elastic turbulence has more in common with classical Newtonian turbulence than expected
Blood, lymph fluid and other biological liquids can have surprising and sometimes troubling properties. Many of these biological solutions are non-Newtonian fluids, a type of liquid that is characterized by a non-linear relationship ...
Soft Matter
May 27, 2024
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New method can create aquatic levitation at much lower temperature, has implications for cooling nuclear reactors
Splash a few drops of water on a hot pan and if the pan is hot enough, the water will sizzle and the droplets of water seem to roll and float, hovering above the surface.
General Physics
May 24, 2024
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More news
Study sheds light on the origin of elasticity in glasses and gels
Toward a unified theory for dynamics of glassy materials
Intelligent liquid: Researchers develop metafluid with programmable response
Understanding flow and sound through large-scale computations
Breaking the ice: Molecular insights into saltwater droplet freezing
Other news
Two shark species documented in Puget Sound for first time
New clam species discovered in South Africa's kelp forest
Raman spectroscopy offers new insights into ionic liquid acidity
New interaction network in endocytosis process discovered
How a warming Arctic is accelerating global climate change
Dancing droplets' new spin on water harvesting
New soft magnetic materials for a high-frequency future
A key to the future of robots could be hiding in liquid crystals
Beyond the ink: Painting with physics
ATLAS probes uncharted territory with LHC Run 3 data
X-ray microCT unveils ancient pottery techniques
'Kink state' control may provide pathway to quantum electronics
How Staphylococcus slips around between biological environments
Folded peptides are more electrically conductive than unfolded peptides, study reveals
Scientists control bacterial mutations to preserve antibiotic effectiveness
