Accounting for age-related cognitive and physical challenges can increase adoption rates for older users who need help managing their health.
Selfless heroism isn't the best strategy in life-and-death disaster situations involving groups of people, a new study from the University of Waterloo suggests.
In a proof-of-concept study, North Carolina State University engineers have designed a flexible thermoelectric energy harvester that has the potential to rival the effectiveness of existing power wearable electronic devices using body heat as the only source of energy.
It's a tiny marine invertebrate, no more than 3 millimeters in size. But closely related to humans, Botryllus schlosseri might hold the key to new treatments for cancer and a host of vascular diseases.
Exosomes - tiny biological nanoparticles which transfer information between cells - offer significant potential in detecting and treating disease, the most comprehensive overview so far of research in the field has concluded. Areas which could benefit include cancer treatment and regenerative medicine.
Snakes exhibit incredible evolutionary adaptations, including the ability to rapidly regenerate their organs and produce venom. The Castoe group at the University of Texas at Arlington studied these adaptations using genetic sequencing and advanced computing. Supercomputers of the Texas Advanced Computing Center helped the team identify a number of genes associated with organ growth in Burmese pythons, study secondary contact in related rattlesnake species, and develop tools to recognize evolutionary changes caused by natural selection.
NASA's Aqua satellite analyzed Tropical Storm Cindy in infrared light to identify areas of strongest storms and the Global Precipitation Measurement mission or GPM satellite found locations of heaviest rainfall as Cindy was making landfall along the US Gulf Coast states.
NASA's James Webb Space Telescope was placed in Johnson Space Center's historic Chamber A on June 20, 2017, to prepare for its final three months of testing in a cryogenic vacuum that mimics temperatures in space.
Researchers at the Niels Bohr Institute have introduced a new type of nanomechanical resonator, in which a pattern of holes localizes vibrations to a small region in a 30 nm thick membrane. The pattern dramatically suppresses coupling to random fluctuations in the environment, boosting the vibrations' coherence. The researchers' quantitative understanding and numerical models provide a versatile blueprint for ultracoherent nanomechanical devices. Among others, this enables a new generation of nanomechanical sensors to probe quantum limits of mechanical measurements, and more sensitive force microscopy.
The evolution of the amniotic egg -- complete with membrane and shell -- was key to vertebrates leaving the oceans and colonizing the land and air but how bird eggs evolved into so many different shapes and sizes has long been a mystery. Now, an international team of scientists took a quantitative approach to that question and found that adaptations for flight may have been critical drivers of egg-shape variation in birds.