Dr robin canup biography of donald
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This Women’s History Month, we are highlighting the revolutionary work of SwRI’s space science pioneer, Dr. Robin Canup. Canup is known for her trailblazing research of the Earth-Moon system. Her computer simulations and models based on the giant impact hypothesis have become the widely accepted theory on how our Moon formed. In addition to her standout scientific work, Canup is a trained and accomplished ballerina. On this episode, she takes us back to the moment when she reached her breakthrough theory on the Moon’s formation and she shares her insight on the parallels between ballet and space science. She also has valuable advice for young women searching for a career path.
Listen now as SwRI Astrophysicist Dr. Robin Canup discusses her historic findings on the Moon’s formation, her journey into space science and her experience as prima ballerina for the Boulder Ballet.
Visit Planetary Science to learn more.
Transcript
Below is a transcript of the episode, modified for clarity.
Lisa Peña (LP): March is Women's History Month. We are talking to one of our own space science pioneers making history at SwRI. Dr. Robin Canup's breakthrough research has helped us understand the formation of the planets and their satellites.
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© 2005 by Donald F. Guard.
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This article to begin with appeared involved Astronomy Having an important effect.
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She attained international prominence as an innovative researcher and influential leader in planetary sciences. She was instrumental in the formulation and development of two satellite formation models most recognized by the community, viz., (i) accretion from a short-lived, circum-planetary disk of debris generated by a giant impact in the late stage of planetary accretion( as proposed for our Moon), and (ii) satellite co-accretion in a continuously supplied, viscously evolving disk of gas, dust and volatiles during the accretion phase of giant planets. In the former, she has provided a wealth of smoothed particle hydrodynamic impact simulations of increasing fidelity to examine the range of plausible impact scenarios leading to the formation of the Moon, and has convincingly extended (i) to the origins of Pluto's satellite, Charon, and the Mars satellites as well. In the latter, she has demonstrated that (ii) can explain the multiple satellite systems of giant planets, with a natural satellite-to-planetary mass ratio of order - 1/104, in agreement with Jupiter's Galilean satellites and Saturn's Titan.