How do scientists study asteroids? On April 1, 2021, NASA scientist Nicole Lunning joined us to chat about exciting missions to asteroids (OSIRIS-REx, Dawn & more!) and how scientists investigate samples returned by spacecraft as well as meteorites in laboratories at the NASA Johnson Space Center.
Dr. Nicole Lunning is the carbonaceous asteroid curator and deputy OSIRIS-REx curator within the Astromaterials Research and Exploration Science (ARES) division of NASA Johnson Space Center. Nicole started at NASA in March of 2020 shortly after returning from collecting meteorites in Antarctica as part of 2019-2020 field team of the US-based Antarctic Search for Meteorites program (ANSMET). Prior to working at NASA, Nicole had postdoctoral positions at Rutgers University and the Smithsonian National Museum of Natural History where she studied meteorites from the asteroid belt and the Moon, as well as conducting melting experiments to understand how early small planet-like bodies formed. Nicole earned her Ph.D. at the University of Tennessee, Knoxville in 2015 — her dissertation was on meteorites thought to have originated from Vesta and meteorites that we think are similar to rocks from asteroids Bennu and Ryugu.
With just days to go before the Perseverance rover’s scheduled landing on Mars, NESSP was very excited to welcome Trevor Graff from NASA Johnson Space Center for one of our expert chats on Thursday, February 11, 2021. Trevor was project manager for flight hardware on the rover, and took us on an exploration of the rover’s scientific instruments, discussed details on its preparations for launch, and gave us a look at Perseverance’s projected landing on Mars. There was Q&A after the talk.
As fans of APOD get to see daily, our universe is vast, amazing, and beautiful. For 25 years and counting, NASA’s Astronomy Picture of the Day has been sharing “a different image or photograph of our fascinating universe, along with a brief explanation written by a professional astronomer.”
On December 11, 2020, NESSP was very excited to present an opportunity to chat with one of the professional astronomers behind the extremely popular APOD — Robert J. Nemiroff, one of the co-founders of the Astronomy Picture of the Day. There was time for Q&A after the talk.
For our fourth ROADS Freestyle subject matter expert, we had the chance to chat with Houston’s Mission Control!
Ben Honey is an Attitude Determination and Control Officer (ADCO) for the International Space Program at NASA’s Johnson Space Center in Houston, Texas. Before starting at NASA in 2009, he earned his bachelor’s degree in aerospace engineering from Embry-Riddle Aeronautical University in Prescott, Arizona. He also has a master’s degree in systems engineering from the University of Houston – Clear Lake. His duties in the Mission Control Center (MCC) include monitoring the Space Station’s guidance systems during mission operations, training new flight controllers and astronauts, and working on developing new procedures or flight techniques. Ben is also assigned as an integration engineer for the Commercial Crew Program and has been helping verify SpaceX and Boeing readiness to launch NASA astronauts to the ISS on the new Dragon and Starliner spacecraft. Ben has always loved space exploration, but his first love was astronomy and planetary science. He changed focus to engineering after joining the FRC (FIRST Robotics Competition) club in high school.
Videos Ben showed
Ben shared several great videos during our chat. If you weren’t able to catch them, they’re all on YouTube.
For this “Meet an Expert” chat, André Galli from the University of Bern in Switzerland joined us to delve more into planetary protection! Students had time for Q&A with André after his presentation.
Planetary Protection rules must be taken into account for every space mission to another celestial body. These rules are to prevent the contamination of moons and planets with micro-organisms from Earth. Additional safeguards exist to prevent backward contamination, i.e., bringing organisms back from other celestial bodies to Earth. This talk will present the development of Planetary Protection and how its rules are applied in current space research and exploration. We will also have a look at new initiatives that aim to expand the considerations behind Planetary Protection into a more general framework for sustainability on planet Earth and in space.
André Galli obtained his Ph.D. in space physics at the University of Bern, Switzerland, in 2008. Since then he has spent his time mostly with scientific research at the Netherlands Institute for Space Research and at the University of Bern, and to a lesser extent with physics teaching, long-distance running, and literature. His research interests are centered on the terrestrial planets, the Moon, ice moons and comets, and the solar wind. He is currently involved in NASA’s heliospheric missions IBEX and IMAP and in ESA’s JUICE mission to the icy moons of Jupiter.
John Rummel, a senior scientist at the SETI Institute, joined us for an hour to talk, and take questions, on a subject that may sound very familiar right now — planetary protection. How do we keep Earth from getting contaminated by microbes from space? How do we protect other bodies in the solar system (Mars, for example!) from becoming contaminated by organisms from Earth? When the Apollo 11 astronauts returned from that first mission to the moon, they were quarantined for nearly a month in a special Airstream trailer. What does planetary protection look like in our modern era? John’s talk will cover the rationale for planetary protection considerations and its implementation during interplanetary journeys.
For our fourth (and final!) ROADS “Meet a NASA Expert” we were pleased to have Joanna Hogancamp join us. Joanna is a geoscienst working for Geocontrols Systems Inc at NASA’s Astromaterials Research and Exploraon Science (ARES) Division at the Johnson Space Center (JSC) in Houston, TX. At ARES, Joanna is part of the Mars research group and conducts laboratory experiments that aim to beer understand data from the Sample Analysis at Mars (SAM) instrument on the Curiosity rover. Joanna is a collaborator on the SAM and Mars Science Lab (MSL) science teams and is a Payload Uplink Lead on the SAM operaons team. Joanna received a bachelors in geological sciences from State University of New York at Geneseo and a Master’s of Science in geological sciences at The University of Alabama. Joanna is currently pursuing a Ph.D. in geology at the University of Houston and is studying maran surface geology.
Joanna’s talk briefly discusses methane detection on Mars, the current Sample Analysis at Mars (SAM) instrument on the Curiosity rover, and how our research in a laboratory at JSC works to understand and interpret evolved gases on Mars.
For our third ROADS “Meet a NASA Expert,” we were pleased to have Steve Ruff join us. Steve is a planetary geologist specializing in the study of Mars, looking at its history and the potential for past habitability. He has been an active member of the science team for Opportunity and is a member of the Mars Exploration Program Advisory Group to study the science benefits and requirements of a Mars sample return mission. He has expensive experience in laboratory investigations as well as field work that aid in the analysis of the data coming form various Mars missions.
For our second ROADS “Meet a NASA Expert,” we were pleased to have planetary scientist Briony Horgan join us from the Department of Earth, Atmospheric, and Planetary Sciences at Purdue University where she is an assistant professor. Her research program uses data from NASA satellites and rovers, along with lab and field work back on Earth, to understand the surface processes that have shaped Mars and the Moon. Briony is a participating scientist on NASA’s Mars Science Laboratory rover mission and a Co-I on NASA’s upcoming Mars 2020 rover mission, the first step toward Mars Sample Return.
The surface of Mars is the frontline in NASA’s search for life beyond Earth, and NASA has devoted three generations of robotic, semi-autonomous rovers to this search. Through the efforts of the scientists and engineers behind the Spirit, Opportunity, and Curiosity rovers, we now know that Mars hosted watery environments that may have been habitats for ancient life 4 billion years ago. The next step is the Mars2020 rover, which will search for signs of ancient microbial life on Mars and collect samples to return to Earth. Why is this search important, and how much can these robotic geologists do alone? There was Q&A with students after Briony’s talk.
For our first ROADS “Meet a NASA Expert,” we were joined by Jim Rice, an astrogeologist and a Mars Exploration Rover Project scientist.
The Red Planet, Mars, has always held our fascination, more so than any other planet. The very word “Mars” conjures up visions of Martians as well as great voyages of exploration in our imagination. What was once a distant, mysterious, cinnamon colored orb in our night sky is now literally a New World that we are currently exploring with rovers and landers on the surface and orbiters from above. These robotic missions are the pathfinders for future human missions. And at some point humans will make Mars our second home in the Solar System.
Jim’s presentation discussed the major discoveries that have been, and are now being made, about Mars by our robotic missions. Jim also discussed the dangers, challenges, and plans for human missions to the Red Planet. There was Q&A with students after the main presentation.
For our final “Meet a NASA Expert,” we were joined by Monica Vidaurri, a science consultant specializing in astrobiology and political science at NASA Goddard Space Flight Center. Monica’s science research focuses on the atmospheres of exoplanets and the extent to which life can exist or arise on a given planet, while her policy research focuses on diversity and inclusion, science representation in Congress, planetary protection and bioethics, and NASA mission budgeting. There was time for a Q&A after Monica’s presentation.
We were pleased to have Kim Willis join us for the fourth of our opportunities for ANGLeS teams to Meet a NASA Engineer. Kim works at Johnson Space Center where she’s curator of the Apollo lunar samples.
Six Apollo missions landed humans on the surface of the Moon. These astronauts explored the surface of the Moon and collectively collected 382 kg (842 pounds) of lunar rocks, soils, and core samples. Learn details about these six Apollo missions to the lunar surface, how crews collected these precious lunar samples, the initial lunar receiving laboratory where the Apollo astronauts and samples were quarantined, and see where these samples are currently curated by NASA. There was a Q&A period after Kim’s presentation.
We were pleased to have George Gorospe, a NASA Research Engineer and the manager of the Diagnostics and Prognostics research group at NASA Ames Research Center. He received a BA in classical studies at Dartmouth College, and an MSc in Mechanical Engineering at the University of New Mexico. While at UNM he also work for Pueblo News. He started work at NASA through internships provided by the Tribal Colleges and Universities Program, the NASA Robotics Academy and NASA Academy for Space Exploration. He is now the manager of Intelligent Systems Division and the Systems Health, Analytics, Resilience, and Physics modeling (SHARP) laboratory. He discussed his research efforts at the SHARP laboratory and steps that enable him to be successful in his career path. There was a question-and-answer period after George’s presentation.
We were pleased to have John Gruener join us for our second “Meet a NASA Engineer” chat. John shared his career path to NASA along with relevant information about what we have learned from the Apollo Missions, new views of the Moon revealed from robotic spacecraft, and the future plans for lunar exploration. There was a question-and-answer period after John’s presentation.
We were pleased to have had Jerry Woodfill join us from Johnson Space Center for our first ANGLeS Challenge “Meet a NASA Engineer” chat. Jerry is a NASA engineer who worked on the Apollo program as a spacecraft warning system engineer. Jerry gave a talk about how he was able to not only overcome technical problems that might have led to the Apollo 11 crew perishing, but also how he helped save Neil Armstrong’s moonwalk from a catastrophic failure. At the end there was time for a few questions submitted by students.
Were you on the chat with Jerry? Did you take his pledge at the end? Congratulations on becoming an Honorary Flight Controller! Don’t forget to print your certificate — you’ll find it as the last page of the PowerPoint below.