/ Planets Content for UC º£½ÇÔ­´´ en /curiosity/news/explaining-tiger-stripes-enceladus <p>Saturn’s tiny, frozen moon Enceladus is a strange place. Just 300 miles across, the moon is thought to have an outer shell of ice covering a global ocean 20 miles deep, encasing a rocky core. Slashed across Enceladus’ south pole are four straight, parallel fissures or “tiger stripesâ€� from which water erupts. These fissures aren’t quite like anything else in the solar system.&nbsp;</p> December 09, 2019 - 11:53am Andy Fell /curiosity/news/explaining-tiger-stripes-enceladus /news/professor-discusses-significance-moon-landing-friday <p>UC º£½ÇÔ­´´ Professor Sarah Stewart, an expert on planet formation, will discuss the significance of the 50th anniversary of the moon landing&nbsp;on UC º£½ÇÔ­´´ Live at 2:30 p.m. PDT Friday (July 12). You can listen to the discussion and ask her questions live <a href="https://www.facebook.com/events/333874590880031/">here</a>.</p> July 11, 2019 - 8:37am Amy E Rafferty /news/professor-discusses-significance-moon-landing-friday /news/macarthur-genius-fellowship-planetary-scientist <p>The MacArthur Foundation has named Sarah T. Stewart, a planetary scientist at the University of California, º£½ÇÔ­´´, who has developed novel theories about the formation of the Earth and moon, among the 2018 class of MacArthur Fellows. Sometimes known as the “Genius Grants,â€� the MacArthur Fellowship&nbsp;is a $625,000 award to extraordinarily talented and creative individuals as an investment in their potential.&nbsp;</p> October 04, 2018 - 1:53pm Andy Fell /news/macarthur-genius-fellowship-planetary-scientist /curiosity-gap/how-did-moon-get-where-it <p>Earth’s moon is an unusual object in our solar system, and now there’s a new theory to explain how it got where it is, which puts some twists on the current “giant impactâ€� theory.</p> September 17, 2018 - 4:47pm Karen Michele Nikos /curiosity-gap/how-did-moon-get-where-it /news/synestia-new-type-planetary-object <p>There’s something new to look for in the heavens, and it’s called a “synestia,â€� according to planetary scientists Simon Lock at Harvard University and Sarah Stewart at the University of California, º£½ÇÔ­´´. A synestia, they propose, would be a huge, spinning, donut-shaped mass of hot, vaporized rock, formed as planet-sized objects smash into each other.</p> May 22, 2017 - 2:47pm Andy Fell /news/synestia-new-type-planetary-object /news/new-theory-explains-how-moon-got-there <p>Earth’s moon is an unusual object in our solar system, and now there’s a new theory to explain how it got where it is, which puts some twists on the current “giant impactâ€� theory. The work is published Oct. 31 in the journal <em>Nature</em>.</p> October 31, 2016 - 11:36am Andy Fell /news/new-theory-explains-how-moon-got-there /news/new-type-meteorite-linked-ancient-asteroid-collision <p>An ancient space rock discovered in a Swedish quarry is a type of meteorite never before found on Earth and likely a remnant of a collision in the asteroid belt that sent debris raining to Earth during the Ordovician Period 470 million years ago.</p> June 15, 2016 - 9:33am Andy Fell /news/new-type-meteorite-linked-ancient-asteroid-collision