Like bugs? Ever wonder what goes on behind the scenes at natural history museums? Interested in helping scientists understand our changing environment? These are just some of the reasons why people should join a project led by UC Berkeley’s Essig Museum of Entomology.
Whether we’re listening to Bach or the blues, our brains are wired to make music-color connections depending on how the melodies make us feel, according to new research from the University of California, Berkeley.
Closing out almost nine months of intense competition, UC Berkeley’s annual Big Ideas contest honored this year’s crop of outstanding social projects last week during a special awards celebration at the Blum Center for Developing Economies.
From brain to heart to stomach, the bodies of humans and animals generate weak magnetic fields that a supersensitive detector could use to pinpoint illnesses, trace drugs – and maybe even read minds. Sensors no bigger than a thumbnail could map gas deposits underground, analyze chemicals, and pinpoint explosives that hide from other probes.
Two University of California, Berkeley, researchers have now described mathematically the successive stages in the complex evolution and disappearance of foamy bubbles, a feat that could help in modeling industrial processes in which liquids mix or in the formation of solid foams such as those used to cushion bicycle helmets.
Nicole King, Russell Vance and Michael Rape took different routes to UC Berkeley’s Department of Molecular and Cell Biology, but they’ve ended up with one of the mostly highly sought positions at any American university: a fully subsidized appointment, with added research funds, as a Howard Hughes Medical Institute (HHMI) investigator.
Thomas Immel and his team at the Space Sciences Lab will design, build and operate two instruments and oversee development of two others to be loaded on a solar-powered satellite for a two-year science mission tentatively set to launch in 2017.