Researchers at Washington University in St. Louis are the first to study presolar materials that landed on a planet-like body. Their findings may help solve the mystery: where did all the water on Earth come from?
Randy Korotev with a sample meteorite found in Siberia.The mysterious orb you find in your backyard that wasn’t there just the day before has to be a meteorite, right? Wrong. Overwhelmingly the chances are it’s a meteorwrong, says Randy Korotev, Ph.D., research associate professor of earth and planetary sciences in Arts & Sciences at Washington University in St. Louis. He says that 998 out of 1,000 meteorites are from asteroids, one out of 1,000 is from the Moon, and one out of 1,000 is from Mars. Of the hundreds of meteorites that have been found in the United States, none has been a lunar meteorite, and only one has been a Mars meteorite.
Jupiter: a core of tar.After eleven months of politics, now it’s time for some real “core values” – not those of the candidates but those of the great gas giant planet, Jupiter. Katharina Lodders, Ph.D., Washington University in St. Louis research associate professor in Earth and Planetary Sciences in Arts & Sciences, studying data from the Galileo probe of Jupiter, proposes a new mechanism by which the planet formed 4.5 billion years ago.