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Preparatory Division String Camp, June 20-24, Ages 6-9 and 9-12. Registration deadline is May 20th. Preparatory Division, Tanner Dance and Youth Theatre Arts Passport, June 27 - July 1, Create an original performance work to be presented at the Tanner Dance Building. Preparatory Division International Piano Festival, July 26 - July 29, Musicianship, ukulele, and choir classes. University of Utah, School of Music.

Home in Their Eyes: Images and Stories of Home by Residents in Rural China, Friday, March 25 – Thursday, June 2, 2016, J. Willard Marriott Library 3rd Floor

Salt Dance Fest 2016 brings together internationally renowned dance artists and dance makers Jeanine Durning, Alex Ketley and Jennifer Nugent, along with esteemed SLC dance artists Daniel Charon, Molly Heller and Stephen Koester for two weeks of moving, collaborating, dance making and the lively exchange of ideas, June 6-17, 2016.

Summer Chamber Music Workshop, Matt Zalkind, June 26 - 30, 2016, Hasse Borup, Director, Open for serious string and piano players, age 12 - 26,  School of Music, University of Utah

University of Utah Department of Ballet Summer Intensive, June 20 - July 15, 2016. Join us for an exciting four-week ballet intensive with internationally recognized faculty and guest artists.

Performance Calendar of 2015 - 2016 Season, Department of Ballet, University of Utah

Performance Calendar of 2015 - 2016 Season, Department of Modern Dance, University of Utah

Natural History Museum of Utah 2015 Lecture Series

College of Fine Arts, University of Utah

Tiny Protein 'Compasses' Found in Fruit Flies - and Potentially Humans

Tiny biological compasses made from clumps of protein may help scores of animals, and potentially even humans, to find their way around, researchers say. Scientists discovered the minuscule magnetic field sensors in fruit flies, but found that the same protein structures appeared in retinal cells in pigeons’ eyes. They can also form in butterfly, rat, whale and human cells.

The rod-like compasses align themselves with Earth’s geomagnetic field lines, leading researchers to propose that when they move, they act on neighbouring cell structures that feed information into the nervous system to create a broader direction-sensing system. Professor Can Xie, who led the work at Peking University, said the compass might serve as a “universal mechanism for animal magnetoreception,” referring to the ability of a range of animals from butterflies and lobsters to bats and birds, to navigate with help from Earth’s magnetic field.

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